BEGIN:VCALENDAR PRODID:BedeWork V3.5 VERSION:2.0 METHOD:PUBLISH BEGIN:VTIMEZONE TZID:America/New_York X-LIC-LOCATION:America/New_York BEGIN:DAYLIGHT TZOFFSETFROM:-0500 TZOFFSETTO:-0400 TZNAME:EDT DTSTART:20070311T020000 RRULE:FREQ=YEARLY;BYMONTH=3;BYDAY=2SU END:DAYLIGHT BEGIN:STANDARD TZOFFSETFROM:-0400 TZOFFSETTO:-0500 TZNAME:EST DTSTART:20071104T020000 RRULE:FREQ=YEARLY;BYMONTH=11;BYDAY=1SU END:STANDARD BEGIN:STANDARD TZOFFSETFROM:-045602 TZOFFSETTO:-0500 TZNAME:EST DTSTART:18831118T120358 RDATE:18831118T120358 END:STANDARD BEGIN:DAYLIGHT TZOFFSETFROM:-0500 TZOFFSETTO:-0400 TZNAME:EDT DTSTART:19180331T020000 RDATE:19180331T020000 RDATE:19190330T020000 RDATE:19200328T020000 RDATE:19210424T020000 RDATE:19220430T020000 RDATE:19230429T020000 RDATE:19240427T020000 RDATE:19250426T020000 RDATE:19260425T020000 RDATE:19270424T020000 RDATE:19280429T020000 RDATE:19290428T020000 RDATE:19300427T020000 RDATE:19310426T020000 RDATE:19320424T020000 RDATE:19330430T020000 RDATE:19340429T020000 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CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Panel/Seminar/Colloquium CATEGORIES:Research CATEGORIES:Main CONTACT;X-BEDEWORK-UID=00f1fcdb-0f068baf-010f-068baf83-00000004:None CREATED:20230822T140742Z DESCRIPTION:Abstract:\n\nLight interaction with isotropic materials is ful ly determined by their refractive indices that govern refraction and emis sion through Snell's and Purcell laws\, respectively. When materials beco me anisotropic\, refraction and often reflection are anomalous: the direc tions of the beams depend on anisotropy and on orientation of the interfa ce\, in addition to direction of the incident beam. In some geometries th e angle of incidence is not equal to the angle of reflection\, opening th e possibilities to significant reshaping of light. In this talk we discus s the implications of anomalous refraction and reflection that accompany hyperbolic dispersion in metamaterials for confining light to the nanosca le and for extracting light from highly confined areas. \nWe show that in planar structures high confinement (and high Purcell effect) is often ac companied by weak coupling efficiency. In non-planar structures\, such as in conical waveguides with hyperbolic cores (photonic funnels)\, anomalo us reflection enables simultaneous enhancement and confinement of the ele ctromagnetic fields\, by directing light that originally propagates along the optical axis towards the tip of the properly designed structures. An omalous reflection can be further utilized to out-couple the emission fro m lossy (but high-optical-density) modes propagating along critical angle directions\, towards low-loss diffraction-limited beams. The latter proc ess may alleviate the trade-off between high Purcell factors and high emi ssion efficiency DURATION:PT1H DTSTAMP:20230822T140742Z DTSTART;TZID=America/New_York:20230927T120000 LAST-MODIFIED:20230822T140742Z LOCATION;X-BEDEWORK-UID=18832e99-20476e5b-0120-58864347-000000be:Fitzpatri ck Center Schiciano Auditorium Side A\, room 1464 STATUS:CONFIRMED SUMMARY:DMI/MEMS Seminar Presented by Prof. Viktor A. Podolskiy UID:CAL-8a02906b-8a0a73d8-018a-1d929e3b-00001e37demobedework@mysite.edu X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Main:/user/public-user/Utili ties/Main X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Panel_Seminar_Colloquium:/us er/public-user/Lectures_Conferences/Panel_Seminar_Colloquium X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Engineering:/user/public-use r/Topics/Engineering X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Research:/user/public-user/T opics/Research X-BEDEWORK-CS;X-BEDEWORK-PARAM-DESCRIPTION="/principals/users/agrp__Artsan dSciences_AcademicResourceCenter,/principals/users/agrp_ArtsandSciences_B iology,/principals/users/agrp_PrattSchool_BME,/principals/users/agrp_Arts andSciences_Chemistry,/principals/users/agrp_PrattSchool_CEE,/principals/ users/agrp_PrattSchool_ECE,/principals/users/agrp_FitzpatrickInstitute,/p rincipals/users/agrp__ArtsandSciences_Mathematics,/principals/users/agrp_ PrattSchool_MEMS,/principals/users/agrp__ArtsandSciences_Physics,/princip als/users/agrp_PrattSchool,":Academic Resource Center (ARC)\,Biology\,Bio medical Engineering (BME)\,Chemistry\,Civil and Environmental Engineering (CEE)\,Electrical and Computer Engineering (ECE)\,Fitzpatrick Institute for Photonics (FIP)\,Mathematics\,Mechanical Engineering and Materials Sc ience (MEMS)\,Physics\,Pratt School of Engineering X-BEDEWORK-SPEAKER:Viktor A. Podolskiy X-BEDEWORK-STUDENT-CONTACT;X-BEDEWORK-PARAM-EMAIL=liana.igescu@duke.edu:Li ana Igescu X-BEDEWORK-IMAGE-X1:0 X-BEDEWORK-IMAGE-Y1:0 X-BEDEWORK-IMAGE-X2:1054.5 X-BEDEWORK-IMAGE-Y2:703 X-BEDEWORK-IMAGE-CROP-WIDTH:1054.5 X-BEDEWORK-IMAGE-CROP-HEIGHT:703 X-BEDEWORK-IMAGE-ALT-TEXT:Prof. Podolskiy headshot X-BEDEWORK-SUBMITTEDBY:lmi3 for Duke Materials Initiative (agrp_Institutes _MaterialsScienceandEngineering) X-BEDEWORK-IMAGE:/public/Images/Duke calendar_20230822020742PM.png X-BEDEWORK-THUMB-IMAGE:/public/Images/Duke calendar_20230822020742PM-thumb .png END:VEVENT BEGIN:VEVENT CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Panel/Seminar/Colloquium CATEGORIES:Main CONTACT;X-BEDEWORK-UID=8a0183a7-83184018-0184-87170e31-00006277:Hinz\, Nic olle CREATED:20230908T140611Z DESCRIPTION:We consider viscous and depth-averaged models of non-hydrostat ic coastal wave propagation through vegetation. Our aim is to model wave height attenuation and momentum dissipation through marsh vegetation. Eac h model requires a significantly different set of numerical methods to ac hieve higher-order accuracy in a robust manner\, and we will discuss seve ral of these\, including CutFEM and multiscale methods. Finally we presen t results on experimental data obtained from physical models of wave/stru cture interaction. DURATION:PT1H DTSTAMP:20230908T140611Z DTSTART;TZID=America/New_York:20231002T120000 LAST-MODIFIED:20230908T140611Z LOCATION;X-BEDEWORK-UID=18832e99-20476e5b-0120-58864347-000000be:Fitzpatri ck Center Schiciano Auditorium Side A\, room 1464 STATUS:CONFIRMED SUMMARY:CEE Seminar Application of CutFEM to the modeling of coastal proce sses through vegetation UID:CAL-8a02906b-8a0a73d8-018a-751d5829-00003562demobedework@mysite.edu URL:http://cee.duke.edu X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Main:/user/public-user/Utili ties/Main X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Panel_Seminar_Colloquium:/us er/public-user/Lectures_Conferences/Panel_Seminar_Colloquium X-BEDEWORK-SPEAKER:Christopher E. Kees\, PhD\, PE\, CSRS Distinguished Pro fessor in Coastal Engineering\, Director\, LSU Coastal Ecosystem Design S tudio\, Louisiana State University X-BEDEWORK-DUKE-SERIES:CEE Fall Seminar Series 2023 X-BEDEWORK-SUBMITTEDBY:nh143 for Civil and Environmental Engineering (CEE) (agrp_PrattSchool_CEE) END:VEVENT BEGIN:VEVENT CATEGORIES:Utilities CATEGORIES:Main CONTACT;X-BEDEWORK-UID=8a0290b4-860465b2-0186-32feb568-0000477d:Spaulding\ , Amy CREATED:20230508T141931Z DESCRIPTION:Thomas Lord Department of Mechanical Engineering & Materials S cience\nFall 2023 Seminar Series with Professor Richard James\, Professor of Aerospace Engineering Mechanics at the University of Minnesota.\n\n"C oncepts for the direct conversion of heat to electricity using multiferro ics" \n\nWe describe progress on materials and devices for the direct con version of heat to electricity applicable to the small temperature differ ence regime\, 10-200 C. This regime includes abundant natural and waste heat sources\, but there is currently no reasonable method to harvest the energy. We are pursuing an idea \nbased on the use of first order phase transformations with either an abrupt change of magnetization or \npolar ization at the transformation. In the ferromagnetic case the electricity is harvested by induction\; in the ferroelectric case\, by capacitance. It is a "direct" method in the sense that there is no separate electrica l \ngenerator. We survey the theory of this method\, the design of the m aterials and devices\, and the analysis of various cycles. We compare th eoretical predictions and the behavior of a prototype under cyclic heatin g/cooling. \nThese devices provide interesting possible ways to recover the vast amounts of energy stored on earth at small temperature differenc e. They move heat produced by natural and man-made sources from higher to lower temperature and therefore contribute negatively to global warming. Joint work with Bharat Jalan and \nAshley Bucsek.\n\nRICHARD D. JAMES is Distinguished McKnight University Professor in the Department of Aerospa ce Engineering and Mechanics at the University of Minnesota. He has a Sc. B. in Engineering from Brown University and a Ph.D. in \nMechanical Engin eering from the Johns Hopkins University. James' current research concern s prediction of the effect of stress on the \nsuperconducting transition temperature\, links between non-adiabatic quantum mechanics\, molecular d ynamics and continuum mechanics\, the search for a shape memory ceramic m aterial\, the origins of soft magnetism\, structural origami design\, and new methods for the direct conversion of heat to electricity using phase transformations in multiferroic materials. For more \ninformation see h ttps://dept.aem.umn.edu/~james/research / DURATION:PT1H DTSTAMP:20230705T200737Z DTSTART;TZID=America/New_York:20231004T120000 LAST-MODIFIED:20230705T200737Z LOCATION;X-BEDEWORK-UID=18832e99-20476e5b-0120-58864347-000000be:Fitzpatri ck Center Schiciano Auditorium Side A\, room 1464 STATUS:CONFIRMED SUMMARY:MEMS Seminar: "Concepts for the direct conversion of heat to elect ricity with multiferroics" UID:CAL-8a008ffd-87f91753-0187-fbbb57a5-00001444demobedework@mysite.edu X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Main:/user/public-user/Utili ties/Main X-BEDEWORK-CS;X-BEDEWORK-PARAM-DESCRIPTION="/principals/users/agrp_PrattSc hool,":Pratt School of Engineering X-BEDEWORK-SUBMITTEDBY:acs2 for Mechanical Engineering and Materials Scien ce (MEMS) (agrp_PrattSchool_MEMS) X-BEDEWORK-SPEAKER:Professor Richard James X-BEDEWORK-DUKE-SERIES:MEMS Seminar Series END:VEVENT BEGIN:VEVENT CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Panel/Seminar/Colloquium CATEGORIES:Main CONTACT;X-BEDEWORK-UID=8a0183a7-83184018-0184-87170e31-00006277:Hinz\, Nic olle CREATED:20230908T141602Z DESCRIPTION:Recent developments in sensing have enabled insights into stru ctural behavior that would have been impossible even a decade ago. This t alk will introduce the concept of distributed sensing using technologies such as digital image correlation (DIC) and distributed fiber optic sensi ng (DFOS). A series of infrastructure monitoring case studies involving b oth reinforced concrete and steel structures will be used to illustrate h ow these distributed sensing technologies can provide insights into struc tural behavior that have never before been possible. Three case studies w ill be used to demonstrate how these new insights can be used in the desi gn of new structures and the assessment of existing structures to keep th em in service longer thus reducing their carbon footprint. In the first c ase study\, the use of distributed data to analyze the behavior of reinfo rced concrete beams in a way that has never before been possible will be introduced. The second case study will look at how distributed sensors mi ght be used to detect thermal buckling in rail tracks while at the same t ime illustrating that there are also challenges that come with having suc h robust data sets that must be overcome. The final case study will bring together field monitoring and lab data to better understand the performa nce of buried corrugated steel culverts under vehicle load and highlight how current design procedures do not capture this behavior. DURATION:PT1H DTSTAMP:20230908T141602Z DTSTART;TZID=America/New_York:20231009T120000 LAST-MODIFIED:20230908T141602Z LOCATION;X-BEDEWORK-UID=18832e99-20476e5b-0120-58864347-000000be:Fitzpatri ck Center Schiciano Auditorium Side A\, room 1464 STATUS:CONFIRMED SUMMARY:CEE Seminar Distributed Sensing – Providing New Insights into Fund amental Infrastructure Behavior UID:CAL-8a02906b-8a0a73d8-018a-75265b0b-000035c3demobedework@mysite.edu URL:http://cee.duke.edu X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Main:/user/public-user/Utili ties/Main X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Panel_Seminar_Colloquium:/us er/public-user/Lectures_Conferences/Panel_Seminar_Colloquium X-BEDEWORK-SPEAKER:Neil Hoult PhD\, Professor in the Department of Civil E ngineering at Queen’s University X-BEDEWORK-DUKE-SERIES:CEE Fall Seminar Series 2023 X-BEDEWORK-SUBMITTEDBY:nh143 for Civil and Environmental Engineering (CEE) (agrp_PrattSchool_CEE) END:VEVENT BEGIN:VEVENT CATEGORIES:Engineering CATEGORIES:Lectures/Conferences CATEGORIES:Other CATEGORIES:Utilities CATEGORIES:Lecture/Talk CATEGORIES:Meeting CATEGORIES:Main CONTACT;X-BEDEWORK-UID=8a0290b4-860465b2-0186-32feb568-0000477d:Spaulding\ , Amy CREATED:20230508T143331Z DESCRIPTION:Thomas Lord Department of Mechanical Engineering & Materials S cience\, Fall 2023 Seminar Series with Dieter Fox\, Professor of Computer Science & Engineering at the University of Washington\n\n"Toward Foundat ional Robot Manipulation Skills" \n \nThe last years have seen astonishin g progress in the capabilities of generative AI techniques\, particularly in the areas of language modeling and image generation. Key to the succe ss of these techniques is the availability of very large sets of images a nd text along with models that are able to digest such large datasets. Un fortunately\, we have not been able to replicate the success of generativ e AI models in the context of robotics. An important problem is the lack of data suitable to train powerful\, general models for robot decision ma king and control. \nIn this talk\, I will discuss our ongoing efforts to ward developing the models and generating the kind of data that might lea d to foundational manipulation skills for robotics. To generate large am ounts of data\, we sample many object rearrangement tasks in physically r ealistic simulation environments and apply task and motion planning to ge nerate high quality solutions for them. We will then train manipulation skills so that they can be used across a broad range of object rearrangem ent tasks in unknown\, real-world environments. We believe that such ski lls could provide the glue between generative AI reasoning and robust exe cution in the real world.\n \nDIETER FOX is Senior Director of Robotics R esearch at NVIDIA and Professor in the Paul G. Allen School of Computer S cience & Engineering at the University of Washington\, where he heads the UW Robotics and State Estimation Lab. DURATION:PT1H DTSTAMP:20230705T200652Z DTSTART;TZID=America/New_York:20231011T120000 LAST-MODIFIED:20230705T200652Z LOCATION;X-BEDEWORK-UID=18832e99-20476e5b-0120-58864347-000000be:Fitzpatri ck Center Schiciano Auditorium Side A\, room 1464 STATUS:CONFIRMED SUMMARY:MEMS Seminar: "Toward Foundational Robot Manipulation Skills" UID:CAL-8a008ffd-87f91753-0187-fbc8287f-0000174cdemobedework@mysite.edu X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Main:/user/public-user/Utili ties/Main X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Lecture_Talk:/user/public-us er/Lectures_Conferences/Lecture_Talk X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Meeting:/user/public-user/Ot her/Meeting X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Engineering:/user/public-use r/Topics/Engineering X-BEDEWORK-CS;X-BEDEWORK-PARAM-DESCRIPTION="/principals/users/agrp_PrattSc hool,":Pratt School of Engineering X-BEDEWORK-DUKE-SERIES:MEMS Seminar Series X-BEDEWORK-SUBMITTEDBY:acs2 for Mechanical Engineering and Materials Scien ce (MEMS) (agrp_PrattSchool_MEMS) X-BEDEWORK-SPEAKER:Professor Dieter Fox END:VEVENT BEGIN:VEVENT CATEGORIES:Engineering CATEGORIES:Lectures/Conferences CATEGORIES:Other CATEGORIES:Utilities CATEGORIES:Lecture/Talk CATEGORIES:Meeting CATEGORIES:Main CONTACT;X-BEDEWORK-UID=8a0290b4-860465b2-0186-32feb568-0000477d:Spaulding\ , Amy CREATED:20230508T143446Z DESCRIPTION:Thomas Lord Department of Mechanical Engineering & Materials S cience\, Fall 2023 Seminar Series with Professor Ivan I. Smalyukh\, Profe ssor of Physics\, University of Colorado Boulder. Professor Smalyukh will give a talk on "Knotted Chiral Meta Matter." ABSTRACT: Topological order and phases represent an exciting research frontier\, but knots in fields were postulated to behave like particles already starting from Gauss and Kelvin. Experimentally knots in order parameter fields were found only a s transient features and could not self-assemble into three-dimensional c rystals. I will describe energetically stable solitonic knots and knotted vortices that emerge in the physical fields of chiral liquid crystals an d magnets. While spatially localized and freely diffusing in all directio ns\, they behave like colloidal particles and atoms\, self-assembling int o crystalline lattices with open and closed structures\, as well as formi ng low-symmetry mesophases and gas- or liquid-like states. A combination of energy-minimizing numerical modeling and nonlinear optical imaging unc overs the internal structure and topology of individual solitonic knots a nd the various hierarchical crystalline and other organizations that they form. These solitonic knots are robust and topologically distinct from t he host medium\, though they can be morphed and reconfigured by weak stim uli like electric or magnetic fields. I will discuss their stability in m olecular and colloidal liquid crystals of different symmetries and will s how how low-voltage electric fields can switch between the heliknoton and hopfion embodiments of such knot solitons while preserving their topolog y. Finally\, I will discuss how this emergent paradigm of knotted soliton ic matter could allow for imparting new designable material properties an d for realizing phases of matter that so far could not be found in natura lly occurring materials.\n\nIVAN I. SMALYUKH is a full professor at the D epartment of Physics at CU-Boulder. He is also a founding fellow of Renew able Sustainable Energy Institute (a joint institute of CU-Boulder and NR EL) and Materials Science Engineering Program. He directs the Soft Matter Physics Research Group at CU-Boulder. He is also the director of the Int ernational Institute for Sustainability with Knotted Chiral Meta Matter. Prof. Smalyukh's research focuses on soft condensed matter\, materials an d biological systems\, including liquid crystals\, colloids\, polymers\, b DURATION:PT1H DTSTAMP:20230822T144836Z DTSTART;TZID=America/New_York:20231018T120000 LAST-MODIFIED:20230822T144836Z LOCATION;X-BEDEWORK-UID=18832e99-20476e5b-0120-58864347-000000be:Fitzpatri ck Center Schiciano Auditorium Side A\, room 1464 STATUS:CONFIRMED SUMMARY:MEMS Seminar: "Knotted Chiral Meta Matter" UID:CAL-8a008ffd-87f91753-0187-fbc94f89-0000174ddemobedework@mysite.edu X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Main:/user/public-user/Utili ties/Main X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Lecture_Talk:/user/public-us er/Lectures_Conferences/Lecture_Talk X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Meeting:/user/public-user/Ot her/Meeting X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Engineering:/user/public-use r/Topics/Engineering X-BEDEWORK-CS;X-BEDEWORK-PARAM-DESCRIPTION="/principals/users/agrp_PrattSc hool,":Pratt School of Engineering X-BEDEWORK-DUKE-SERIES:MEMS Seminar Series X-BEDEWORK-SUBMITTEDBY:acs2 for Mechanical Engineering and Materials Scien ce (MEMS) (agrp_PrattSchool_MEMS) X-BEDEWORK-SPEAKER:Professor Ivan I. Smalyukh END:VEVENT BEGIN:VEVENT CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Panel/Seminar/Colloquium CATEGORIES:Main CONTACT;X-BEDEWORK-UID=8a0183a7-83184018-0184-87170e31-00006277:Hinz\, Nic olle CREATED:20231009T150050Z DESCRIPTION:Both beneficial and detrimental impacts to human health can re sult from microbial exposures in the built environment. Human exposures t o indoor bacteria\, fungi\, and viruses are mediated by physical processe s including inhalation\, deposition\, resuspension\, surface contact\, an d human and animal interactions. As the identities and functions of benef icial human microbes emerge and are added to the list of known detrimenta l/pathogenic microbes\, the consequences of building design\, operation\, and function in mediating human microbial exposure must be better unders tood in order to maintain the health of building occupants. DURATION:PT1H DTSTAMP:20231009T150050Z DTSTART;TZID=America/New_York:20231023T120000 LAST-MODIFIED:20231009T150050Z LOCATION;X-BEDEWORK-UID=18832e99-20476e5b-0120-58864347-000000be:Fitzpatri ck Center Schiciano Auditorium Side A\, room 1464 STATUS:CONFIRMED SUMMARY:CEE Seminar - Building Microbiomes UID:CAL-8a03932d-8a96243a-018b-14f48555-000016e3demobedework@mysite.edu URL:http://cee.duke.edu X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Main:/user/public-user/Utili ties/Main X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Panel_Seminar_Colloquium:/us er/public-user/Lectures_Conferences/Panel_Seminar_Colloquium X-BEDEWORK-SPEAKER:Jordan Peccia\, Yale University\,Thomas E. Golden Profe ssor of Environmental Engineering at Yale University and the Head of Yale ’s Benjamin Franklin College. X-BEDEWORK-DUKE-SERIES:CEE Fall Seminar Series 2023 X-BEDEWORK-IMAGE-X1:553 X-BEDEWORK-IMAGE-Y1:55 X-BEDEWORK-IMAGE-X2:3415 X-BEDEWORK-IMAGE-Y2:1963 X-BEDEWORK-IMAGE-CROP-WIDTH:2862 X-BEDEWORK-IMAGE-CROP-HEIGHT:1908 X-BEDEWORK-IMAGE-ALT-TEXT:Jordan Peccia X-BEDEWORK-SUBMITTEDBY:nh143 for Civil and Environmental Engineering (CEE) (agrp_PrattSchool_CEE) X-BEDEWORK-IMAGE:/public/Images/Yale Jordan Peccia 2[75] copy_202310090259 46PM.jpeg X-BEDEWORK-THUMB-IMAGE:/public/Images/Yale Jordan Peccia 2[75] copy_202310 09025946PM-thumb.png END:VEVENT BEGIN:VEVENT CATEGORIES:Engineering CATEGORIES:Lectures/Conferences CATEGORIES:Other CATEGORIES:Utilities CATEGORIES:Lecture/Talk CATEGORIES:Meeting CATEGORIES:Main CONTACT;X-BEDEWORK-UID=8a0290b4-860465b2-0186-32feb568-0000477d:Spaulding\ , Amy CREATED:20230508T143612Z DESCRIPTION:Thomas Lord Department of Mechanical Engineering & Materials S cience\nFall 2023 Seminar Series with Gregg Abate\, Program Officer at Ai r Force Office of Scientific Research (AFOSR). Dr. Abate's presentation w ill provide an overview of the Air Force Research Laboratory (AFRL) and A FOSR including insights in doing business with the organization. He will also provide an overview of his program and present selected highlights f rom research he is funding. The Unsteady Aerodynamics and Turbulent Flows Program supports basic research into the dynamics and control of aerodyn amic shear flows\, including the interactions of these flows with rigid a nd flexible surfaces in motion. The Program is interested in aerodynamic flows arising in both internal and external configurations extending over a wide range of Reynolds numbers. The Program emphasizes the characteriz ation\, modeling\, prediction and control of flow instabilities\, turbule nt flows\, and aerodynamic interactions with a focus on the understanding of the fundamental flow physics. The Program is motivated by an interest in developing physically based predictive models and innovative control concepts for these flows that are relevant to Air Force interests.\n\nDR. GREGG L. ABATE is the Program Officer for Unsteady Aerodynamics and\nTur bulent Flows at the Air Force Office of Scientific Research (AFOSR)\, whe re he manages ~50 active grants in his portfolio focused on aerodynamic f lowfield physics and its interactions with air vehicle structures. Dr. Ab ate coordinates his program with technical experts in AFRL's Technical Di rectorates (TDs) to insure the program is relevant to Air Force mission n eeds. He also collaborates with the Army Research Office\, the Office of Naval Research\, DARPA\, NASA\, and the National Science Foundation (NSF) in executing the program. Prior to his current position\, Dr. Abate was a Distinguished Visiting Scholar at the Department of Aeronautics\, Unite d States Air Force Academy (USAFA). He taught classes in advanced aerodyn amics\, missile aerodynamics and hypersonics. Preceding this assignment\, Dr. Abate was both the Technical Advisor and Program Officer for Aeronau tics at the European Office of Aerospace Research and Development (EOARD) \, London\, UK. DURATION:PT1H DTSTAMP:20230821T185058Z DTSTART;TZID=America/New_York:20231101T120000 LAST-MODIFIED:20230821T185058Z LOCATION;X-BEDEWORK-UID=18832e99-20476e5b-0120-58864347-000000be:Fitzpatri ck Center Schiciano Auditorium Side A\, room 1464 STATUS:CONFIRMED SUMMARY:MEMS Seminar: "AFOSR Overview and Highlights from the Unsteady Aer odynamics and Turbulent Flows Program" UID:CAL-8a008ffd-87f91753-0187-fbca9cf6-0000174edemobedework@mysite.edu X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Main:/user/public-user/Utili ties/Main X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Lecture_Talk:/user/public-us er/Lectures_Conferences/Lecture_Talk X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Meeting:/user/public-user/Ot her/Meeting X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Engineering:/user/public-use r/Topics/Engineering X-BEDEWORK-CS;X-BEDEWORK-PARAM-DESCRIPTION="/principals/users/agrp_PrattSc hool,":Pratt School of Engineering X-BEDEWORK-DUKE-SERIES:MEMS Seminar Series X-BEDEWORK-SUBMITTEDBY:acs2 for Mechanical Engineering and Materials Scien ce (MEMS) (agrp_PrattSchool_MEMS) X-BEDEWORK-SPEAKER:Professor Gregg Abate END:VEVENT BEGIN:VEVENT CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Panel/Seminar/Colloquium CATEGORIES:Main CONTACT;X-BEDEWORK-UID=8a0183a7-83184018-0184-87170e31-00006277:Hinz\, Nic olle CREATED:20231009T150555Z DESCRIPTION:Over the past decade\, there has been a growing interest in le veraging machine learning techniques to model complex mechanical systems. Compellingly\, these techniques have become invaluable tools for applica tions ranging from topology optimization\, to uncertainty quantification\ , to real-time prediction\, to multi-scale modeling and beyond. Typically \, researchers take either a "problem-centric" or "model-centric" approac h to this work. Namely\, they focus on either an overarching engineering challenge\, or they focus on developing machine learning methods and mode l architectures. In this talk\, we will present a "data-centric" approach to data driven modeling of mechanical systems. Specifically\, we will di scuss work where we focus on defining and curating datasets as our top pr iority [1]. First\, we will share our work in developing and disseminatin g benchmark datasets for engineering mechanics problems [2\, 3]. In addit ion to describing these datasets\, we will also discuss our recent work i n investigating deep learning model calibration [4]. Then\, we will share our work in defining an open science based methodological foundation for data driven modeling of (bio)mechanical systems. In brief\, we envision a methodological framework with three essential components: (1) open acce ss datasets\, (2) open source software to extract interpretable quantitie s of interest from these data\, and (3) combined mechanistic and statisti cal models of (bio)mechanical behavior informed by these data. As an illu strative example\, we will discuss our recent collaborative work in cardi ac tissue engineering [5\, 6]. Overall\, the goal of this talk is to spar k discussion and inspire future work on "data-centric" approaches to mech anical modeling. \n\n[1] https://imechanica.org/node/25935 \n[2] https:// open.bu.edu/handle/2144/39371\n[3] https://elejeune11.github.io/\n[4] htt ps://doi.org/10.1016/j.mechmat.2023.104749\n[5] https://joss.theoj.org/pa pers/10.21105/joss.05322\n[6] https://arxiv.org/abs/2308.04610 DURATION:PT1H DTSTAMP:20231009T150555Z DTSTART;TZID=America/New_York:20231106T120000 LAST-MODIFIED:20231009T150555Z LOCATION;X-BEDEWORK-UID=18832e99-20476e5b-0120-58864347-000000be:Fitzpatri ck Center Schiciano Auditorium Side A\, room 1464 STATUS:CONFIRMED SUMMARY:CEE Seminar - Data driven modeling of mechanical systems UID:CAL-8a03932d-8a96243a-018b-14f92cd9-00001729demobedework@mysite.edu URL:http://cee.duke.edu X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Main:/user/public-user/Utili ties/Main X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Panel_Seminar_Colloquium:/us er/public-user/Lectures_Conferences/Panel_Seminar_Colloquium X-BEDEWORK-SPEAKER:Emma Lejeune\, Boston University\, Assistant Professor in the Mechanical Engineering Department X-BEDEWORK-DUKE-SERIES:CEE Fall Seminar Series 2023 X-BEDEWORK-IMAGE-X1:0 X-BEDEWORK-IMAGE-Y1:32 X-BEDEWORK-IMAGE-X2:758 X-BEDEWORK-IMAGE-Y2:537.3333333333333 X-BEDEWORK-IMAGE-CROP-WIDTH:758 X-BEDEWORK-IMAGE-CROP-HEIGHT:505.33333333333326 X-BEDEWORK-IMAGE-ALT-TEXT:Emma Lejeune X-BEDEWORK-SUBMITTEDBY:nh143 for Civil and Environmental Engineering (CEE) (agrp_PrattSchool_CEE) X-BEDEWORK-IMAGE:/public/Images/Lejeune_headshot[47]_20231009030555PM.jpg X-BEDEWORK-THUMB-IMAGE:/public/Images/Lejeune_headshot[47]_20231009030555P M-thumb.png END:VEVENT BEGIN:VEVENT CATEGORIES:Engineering CATEGORIES:Lectures/Conferences CATEGORIES:Other CATEGORIES:Utilities CATEGORIES:Lecture/Talk CATEGORIES:Meeting CATEGORIES:Main CONTACT;X-BEDEWORK-UID=8a0290b4-860465b2-0186-32feb568-0000477d:Spaulding\ , Amy CREATED:20230508T143737Z DESCRIPTION:Thomas Lord Department of Mechanical Engineering & Materials S cience\nFall 2023 Seminar Series with Brian Holm-Hansen\, Program Officer \, Flight Dynamics & Control\, Office of Naval Research. \n\nTitle: "Nava l Flight Dynamics & Control Research"\n\nAbstract: The Office of Naval Re search (ONR) funds academia\, industry and government to advance scientif ic research and technology for the U.S. Navy and Marine Corps. The Fligh t Dynamics & Control portfolio invests in research relevant to Navy and M arine Corp unique aspects of aviation\, such as operating aircraft from s hips. The talk ranges from guidance that drives our research to specific research projects. Our projects range from flight controls to control l aw synthesis to advanced human/machine dynamics. Finally\, we will cover an example case outlining the discovery process from theory to analysis to experimentation.\n\nBIO: Brian Holm-Hansen brings over 20 years of eng ineering & research experience in controls\, test and experimentation in fields ranging from rail transportation to advanced aircraft. Since 2016 he has held the position of Flight Dynamics and Control Program Officer a t the Office of Naval Research\, where he has built a portfolio of world- renowned investigators to conduct fundamental research in areas ranging f rom complex multi-body dynamics and control to undiscovered coupling mech anisms in human/machine systems. \n\nPrior to government service\, Dr. Ho lm-Hansen's industrial experience included over a decade developing and f light-testing unique air vehicles at Lockheed Martin Skunk Works. The Eng ineer's Council has honored Dr. Holm-Hansen with three Distinguished Engi neering Project Achievement awards for his work on integrated flight and structural control as well as advanced experimental aircraft design and t est. The American Institute of Aeronautics and Astronautics (AIAA) induct ed him as an Associate Fellow for his contributions and service to the fi eld of aeronautics. He served as a Fellow in the White House Leadership D evelopment Program (WHLDP). He received his Bachelor and Master of Scienc e degrees from the University of Connecticut and his Doctor of Philosophy from the University of Massachusetts at Amherst\, all in Mechanical Engi neering. DURATION:PT1H DTSTAMP:20230913T143732Z DTSTART;TZID=America/New_York:20231108T120000 LAST-MODIFIED:20230913T143732Z LOCATION;X-BEDEWORK-UID=18832e99-20476e5b-0120-58864347-000000be:Fitzpatri ck Center Schiciano Auditorium Side A\, room 1464 STATUS:CONFIRMED SUMMARY:MEMS Seminar: “Naval Flight Dynamics & Control Research” UID:CAL-8a008ffd-87f91753-0187-fbcbea07-0000174fdemobedework@mysite.edu X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Main:/user/public-user/Utili ties/Main X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Lecture_Talk:/user/public-us er/Lectures_Conferences/Lecture_Talk X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Meeting:/user/public-user/Ot her/Meeting X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Engineering:/user/public-use r/Topics/Engineering X-BEDEWORK-CS;X-BEDEWORK-PARAM-DESCRIPTION="/principals/users/agrp_PrattSc hool,":Pratt School of Engineering X-BEDEWORK-DUKE-SERIES:MEMS Seminar Series X-BEDEWORK-SUBMITTEDBY:acs2 for Mechanical Engineering and Materials Scien ce (MEMS) (agrp_PrattSchool_MEMS) X-BEDEWORK-SPEAKER:Brian Holm-Hansen END:VEVENT BEGIN:VEVENT CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Panel/Seminar/Colloquium CATEGORIES:Main CONTACT;X-BEDEWORK-UID=8a0183a7-83184018-0184-87170e31-00006277:Hinz\, Nic olle CREATED:20231106T155719Z DESCRIPTION:There is a growing recognition that the built environment can substantially impact occupant well-being. However\, pinpointing the speci fic impacts of design features proves to be challenging. While significan t advancements have been made using sensing\, feedback\, and control in " smart buildings"\, outcomes have focused primarily on energy savings\, th ermal comfort\, and security. Buildings of the future should go beyond th is to infer and support the mental and physical well-being of the occupan ts. A scientific approach to designing buildings for wellbeing can both c reate knowledge as well as improve the physical and mental health of larg e populations. Our team with expertise in architecture\, structural and m aterials engineering\, human-computer interaction\, psychology\, environm ental behavior\, and security\, privacy\, and law is examining how interi or features (e.g.\, materials\, lighting\, and artwork representing diver se identities) relate to multifaceted dimensions of well-being. Through o nline studies\, controlled laboratory experiments\, and virtual reality s tudies\, we have been exploring the effects of these varied features on b iopsychosocial indicators of well-being including belonging\, stress\, cr eativity\, and pro-environmental concern\, measured through physiological sensors and self-reported assessments. The results of several related st udies and their implications will be presented\, as well as methodologica l challenges surrounding the design\, experimentation\, and operation of human-centered built environments. DURATION:PT1H DTSTAMP:20231106T155719Z DTSTART;TZID=America/New_York:20231113T120000 LAST-MODIFIED:20231106T155719Z LOCATION;X-BEDEWORK-UID=18832e99-20476e5b-0120-58864347-000000be:Fitzpatri ck Center Schiciano Auditorium Side A\, room 1464 STATUS:CONFIRMED SUMMARY:CEE Seminar - Hybrid Physical + Digital Spaces for Enhanced Sustai nability and Wellbeing UID:CAL-8a018ccf-8b87f80e-018b-a55a4886-000012e0demobedework@mysite.edu URL:http://cee.duke.edu X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Main:/user/public-user/Utili ties/Main X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Panel_Seminar_Colloquium:/us er/public-user/Lectures_Conferences/Panel_Seminar_Colloquium X-BEDEWORK-SPEAKER:Prof. Sarah Billington - Chair\, UPS Foundation Profess or\, Dept. of Civil & Environmental Engineering\, Stanford University X-BEDEWORK-DUKE-SERIES:CEE Fall Seminar Series 2023 X-BEDEWORK-SUBMITTEDBY:nh143 for Civil and Environmental Engineering (CEE) (agrp_PrattSchool_CEE) END:VEVENT BEGIN:VEVENT CATEGORIES:Engineering CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Panel/Seminar/Colloquium CATEGORIES:Research CATEGORIES:Main CONTACT;X-BEDEWORK-UID=00f1fcdb-0f068baf-010f-068baf83-00000004:None CREATED:20231011T173906Z DESCRIPTION:Abstract:\nLight-responsive materials hold immense potential i n revolutionizing various fields including solar energy conversion and st orage\, recyclable catalysis\, single-molecule sensing\, and reversible n anomaterial assembly. These materials exhibit phase transitions\, changes in solubility\, and nanoscale mechanical alterations triggered by extern al stimuli\, particularly light\, through molecular-level structural chan ges. While the photo-switching of molecules has primarily been studied in dilute solutions\, understanding this process in condensed liquid or sol id environments is crucial for successful real-world applications. Curren tly\, there is a lack of fundamental knowledge regarding the interaction between light and molecules in condensed phases\, as well as the impact o f photomechanical switching on intermolecular interactions.\n\nThis prese ntation aims to elucidate the design principles behind optically-controll able materials that integrate organic photoswitches\, ranging from azoben zenes to hydrazones. Extensive exploration of various photochromic core s tructures and functional groups has been conducted to gain insights into the structure-property relationship of these stimuli-responsive material systems. Additionally\, the talk will delve into the application of photo -controlled materials in solar photon and thermal energy storage\, as wel l as sustainable catalysis. DURATION:PT1H DTSTAMP:20231011T173906Z DTSTART;TZID=America/New_York:20231115T120000 LAST-MODIFIED:20231011T173906Z LOCATION;X-BEDEWORK-UID=18832e99-20476e5b-0120-58864347-000000be:Fitzpatri ck Center Schiciano Auditorium Side A\, room 1464 STATUS:CONFIRMED SUMMARY:DMI/MEMS Seminar Presented by Prof. Grace Han UID:CAL-8a03932d-8a96243a-018b-1fd22280-000014c3demobedework@mysite.edu X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Main:/user/public-user/Utili ties/Main X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Panel_Seminar_Colloquium:/us er/public-user/Lectures_Conferences/Panel_Seminar_Colloquium X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Engineering:/user/public-use r/Topics/Engineering X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Research:/user/public-user/T opics/Research X-BEDEWORK-CS;X-BEDEWORK-PARAM-DESCRIPTION="/principals/users/agrp_Artsand Sciences_Biology,/principals/users/agrp_PrattSchool_BME,/principals/users /agrp_ArtsandSciences_Chemistry,/principals/users/agrp_PrattSchool_CEE,/p rincipals/users/agrp_PrattSchool_ECE,/principals/users/agrp_FitzpatrickIn stitute,/principals/users/agrp__ArtsandSciences_Mathematics,/principals/u sers/agrp_PrattSchool_MEMS,/principals/users/agrp__ArtsandSciences_Physic s,/principals/users/agrp_PrattSchool,":Biology\,Biomedical Engineering (B ME)\,Chemistry\,Civil and Environmental Engineering (CEE)\,Electrical and Computer Engineering (ECE)\,Fitzpatrick Institute for Photonics (FIP)\,M athematics\,Mechanical Engineering and Materials Science (MEMS)\,Physics\ ,Pratt School of Engineering X-BEDEWORK-SPEAKER:Grace Han X-BEDEWORK-STUDENT-CONTACT;X-BEDEWORK-PARAM-EMAIL=liana.igescu@duke.edu:Li ana Igescu X-BEDEWORK-IMAGE-X1:0 X-BEDEWORK-IMAGE-Y1:0 X-BEDEWORK-IMAGE-X2:1054.5 X-BEDEWORK-IMAGE-Y2:703 X-BEDEWORK-IMAGE-CROP-WIDTH:1054.5 X-BEDEWORK-IMAGE-CROP-HEIGHT:703 X-BEDEWORK-IMAGE-ALT-TEXT:Speaker Headshot X-BEDEWORK-SUBMITTEDBY:lmi3 for Duke Materials Initiative (agrp_Institutes _MaterialsScienceandEngineering) X-BEDEWORK-IMAGE:/public/Images/Untitled design (3)_20231011053906PM.png X-BEDEWORK-THUMB-IMAGE:/public/Images/Untitled design (3)_20231011053906PM -thumb.png END:VEVENT BEGIN:VEVENT CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Panel/Seminar/Colloquium CATEGORIES:Main CONTACT;X-BEDEWORK-UID=8a0183a7-83184018-0184-87170e31-00006277:Hinz\, Nic olle CREATED:20231110T142142Z DESCRIPTION:Cyber-physical systems (CPSs) have radically transformed engin eering solutions over the last decade and garnered considerable attention \, improving infrastructure performance through the combination of sensin g\, computing\, and control. CPSs have even expanded to include human-in -the-loop control\, where humans serve as operators or supervisors. Whil e these paradigms have been wildly successful for the design and operatio n of physical systems decoupled from-or weakly coupled to-human social co ntexts\, there are entirely unexplored human benefits derived from infras tructure that have yet to be scientifically understood and exploited. Th is is based on the hypothesis that the design and management of infrastru cture plays a role in shaping human behavior\, which has been more qualit atively explored in urban design and social science settings. For instan ce\, social infrastructure (i.e.\, infrastructure supporting social inter action) is not social capital itself\, but rather the physical space and infrastructure that determines whether social capital develops. There is an urgent need to reimagine current CPS theory\, tools\, and frameworks to even make it possible to address systems where human behavior is centr al. This talk proposes that the existing CPS paradigm be radically alter ed such that physical infrastructure is controlled to meet social\, or hu man-centered objectives. This work deviates from existing-and highly lim iting-agent-based modeling (ABM) approaches by proposing the use of data- driven\, intelligent agents to mimic human behavior\, including human-hum an and human-infrastructure interactions. We advocate for a hybrid appro ach\, hierarchical imitation and reinforcement learning (HILRL)\, that be tter reflects human decision-making processes. HILRL leverages reinforce ment learning's capacity to mirror human decision-making behavior while b enefiting from imitation learning's capacity to incorporate real-world da ta. We demonstrate the effectiveness of this hybrid approach through a s imulated conference room case study\, illustrating the cooperative intera ctions of human agents in a social setting and offering insights into the ir collaborative behaviors. DURATION:PT1H DTSTAMP:20231110T142142Z DTSTART;TZID=America/New_York:20231120T120000 LAST-MODIFIED:20231110T142142Z LOCATION;X-BEDEWORK-UID=18832e99-20476e5b-0120-58864347-000000be:Fitzpatri ck Center Schiciano Auditorium Side A\, room 1464 STATUS:CONFIRMED SUMMARY:CEE Seminar - Infrastructure as a Driver of Human Behavior and Soc ial Benefits: A New Cyber-Physical-Social System Frontier UID:CAL-8a018ccf-8b87f80e-018b-b99c2e47-000076b6demobedework@mysite.edu X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Main:/user/public-user/Utili ties/Main X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Panel_Seminar_Colloquium:/us er/public-user/Lectures_Conferences/Panel_Seminar_Colloquium X-BEDEWORK-SPEAKER:Katherine Flanigan\, Assistant Professor in the Departm ent of Civil and Environmental Engineering\, Carnegie Mellon University X-BEDEWORK-DUKE-SERIES:CEE Spring Seminar Series 2023 X-BEDEWORK-SUBMITTEDBY:nh143 for Civil and Environmental Engineering (CEE) (agrp_PrattSchool_CEE) END:VEVENT BEGIN:VEVENT CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Panel/Seminar/Colloquium CATEGORIES:Main CONTACT;X-BEDEWORK-UID=8a0183a7-83184018-0184-87170e31-00006277:Hinz\, Nic olle CREATED:20231009T152044Z DESCRIPTION:We are increasingly conscious of the environmental challenges we face: solid\, liquid\, and airborne waste streams\; shortages of water \, select materials\, and energy resources\; and climate change. Manufact uring produces and supplies the goods and services needed by society and is an engine of prosperity. However\, like many other aspects of enginee ring\, fundamental changes are needed to manufacturing to put us on a cou rse to being environmentally sustainable. The origins of environmentally responsible manufacturing (often referred to as sustainable manufacturing ) will be discussed. In particular\, work related to reducing cutting flu ids in machining operations\, remanufacturing\, and economic and environm ental evaluation of life cycles will be reviewed. Promising directions fo r future research and development will also be provided such as circular economy\, greener processes and products\, smart/sustainable manufacturin g\, critical material challenges for clean energy technologies\, and gree n manufacturing planning. DURATION:PT1H DTSTAMP:20231009T152044Z DTSTART;TZID=America/New_York:20231127T120000 LAST-MODIFIED:20231009T152044Z LOCATION;X-BEDEWORK-UID=18832e99-20476e5b-0120-58864347-000000be:Fitzpatri ck Center Schiciano Auditorium Side A\, room 1464 STATUS:CONFIRMED SUMMARY:CEE Seminar - Environmentally Responsible Manufacturing: Origins a nd Thoughts for the Future UID:CAL-8a03932d-8a96243a-018b-1506bd16-00001a24demobedework@mysite.edu URL:http://cee.duke.edu X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Main:/user/public-user/Utili ties/Main X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Panel_Seminar_Colloquium:/us er/public-user/Lectures_Conferences/Panel_Seminar_Colloquium X-BEDEWORK-SPEAKER:John W. Sutherland\, Ph.D.\, Purdue University\, Profes sor and Fehsenfeld Family Head Environmental and Ecological Engineering X-BEDEWORK-DUKE-SERIES:CEE Fall Seminar Series 2023 X-BEDEWORK-SUBMITTEDBY:nh143 for Civil and Environmental Engineering (CEE) (agrp_PrattSchool_CEE) END:VEVENT BEGIN:VEVENT CATEGORIES:Engineering CATEGORIES:Lectures/Conferences CATEGORIES:Other CATEGORIES:Utilities CATEGORIES:Lecture/Talk CATEGORIES:Meeting CATEGORIES:Main CONTACT;X-BEDEWORK-UID=8a0290b4-860465b2-0186-32feb568-0000477d:Spaulding\ , Amy CREATED:20230508T144017Z DESCRIPTION:Thomas Lord Department of Mechanical Engineering & Materials S cience\, Fall 2023 Seminar Series with Anil V. Rao\, PhD\, Professor of M echanical and Aerospace Engineering\, University of Florida. Title: "A No vel Computational Framework for the Numerical Solution of Complex Constra ined Optimal Control Problems." Abstract: A novel computational framework is described for solving complex constrained nonlinear optimal control p roblems. The framework has a wide variety of applications in aerospace an d mechanical engineering. The basis of the framework is the new class of hp-adaptive Gaussian quadrature methods that transcribe the continuous op timal control problem to a finite-dimensional nonlinear optimization prob lem. The hp-adaptive methods have the feature that high accuracy can be o btained with a significantly smaller mesh when compared with traditional fixed-order methods while accurately capturing nonsmoothness or rapidly c hanging behavior. The hp-adaptive methods employed using advanced sparse nonlinear programming (NLP) solvers. The derivatives required by the NLP solvers are obtained using a new approach to algorithmic differentiation where efficient derivative source code is produced through a method that combines operator overloading with source transformation. The mathematica l foundation of the framework is provided and examples are given that dem onstrate the improvement over previously developed approaches. Finally\, future directions of the approach are discussed.\n\nANIL V. Rao (BS\, mec hanical engineering\, Cornell\; AB\, mathematics with distinction\, Corne ll\; MSE\, aerospace engineering\, Univ. of Michigan\; MA & PhD\, Princet on. After earning his PhD\, Dr. Rao joined The Aerospace Corp. in Los Ang eles. Subsequently\, he was a Senior Member of the Technical Staff at The Charles Stark Draper Lab. in Cambridge\, MA. While at Draper\, from 200 1 to 2006\, he was an adjunct faculty in the Dept. of Aerospace & Mechani cal Engineering at Boston Univ. where he taught the core undergrad dynami cs course. Since 2006 he has been on faculty in the Dept. of Mechanical & Aerospace Engineering at the Univ. of Florida\, where he is a Professor and the Director of the Vehicle Dynamics and Optimization Lab. His resear ch interests include computational methods for optimal control and trajec tory optimization\, nonlinear optimization\, space flight mechanics\, orb ital mechanics\, guidance\, and navigation. DURATION:PT1H DTSTAMP:20231005T161845Z DTSTART;TZID=America/New_York:20231129T120000 LAST-MODIFIED:20231005T161845Z LOCATION;X-BEDEWORK-UID=18832e99-20476e5b-0120-58864347-000000be:Fitzpatri ck Center Schiciano Auditorium Side A\, room 1464 STATUS:CONFIRMED SUMMARY:MEMS Seminar: “A Novel Computational Framework for the Numerical S olution of Complex Constrained Optimal Control Problems” UID:CAL-8a008ffd-87f91753-0187-fbce59ed-00001751demobedework@mysite.edu X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Main:/user/public-user/Utili ties/Main X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Lecture_Talk:/user/public-us er/Lectures_Conferences/Lecture_Talk X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Meeting:/user/public-user/Ot her/Meeting X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Engineering:/user/public-use r/Topics/Engineering X-BEDEWORK-CS;X-BEDEWORK-PARAM-DESCRIPTION="/principals/users/agrp_PrattSc hool,":Pratt School of Engineering X-BEDEWORK-DUKE-SERIES:MEMS Seminar Series X-BEDEWORK-SUBMITTEDBY:acs2 for Mechanical Engineering and Materials Scien ce (MEMS) (agrp_PrattSchool_MEMS) X-BEDEWORK-SPEAKER:Anil V. Rao END:VEVENT BEGIN:VEVENT CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Panel/Seminar/Colloquium CATEGORIES:Main CONTACT;X-BEDEWORK-UID=8a0183a7-83184018-0184-87170e31-00006277:Hinz\, Nic olle CREATED:20230908T142450Z DESCRIPTION:It is well known that bacteria can survive in a growth-arreste d state for long periods of time\, on the order of months or even years. How is such longevity possible? What is the molecular basis of such longe vity? The physiology of fast-growing bacteria is well characterized\, but relatively little is understood about how bacteria stay alive when they are not growing. We have been studying this crucial phase of the bacteri al life cycle. This is not just an academic exercise\; non-growing bacter ia can be useful. For example\, they are excellent biocatalysts because t hey can convert substrates that might be used for growth to value-added p roducts. Our work is with a phototrophic bacterium that is an excellent b iocatalyst for biofuel production when in growth arrest. I will describe our work on molecular mechanisms of longevity in this bacterium\, which i s named Rhodopseudomonas palustris. DURATION:PT1H DTSTAMP:20231009T150641Z DTSTART;TZID=America/New_York:20231204T120000 LAST-MODIFIED:20231009T150641Z LOCATION;X-BEDEWORK-UID=18832e99-20476e5b-0120-58864347-000000be:Fitzpatri ck Center Schiciano Auditorium Side A\, room 1464 STATUS:CONFIRMED SUMMARY:CEE Seminar Bacterial Longevity UID:CAL-8a02906b-8a0a73d8-018a-752e69a4-000035c4demobedework@mysite.edu X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Main:/user/public-user/Utili ties/Main X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Panel_Seminar_Colloquium:/us er/public-user/Lectures_Conferences/Panel_Seminar_Colloquium X-BEDEWORK-SPEAKER:Caroline Harwood\, Gerald and Lyn Grinstein Professor o f Microbiology X-BEDEWORK-DUKE-SERIES:CEE Fall Seminar Series 2023 X-BEDEWORK-IMAGE-ALT-TEXT:http://cee.duke.edu X-BEDEWORK-SUBMITTEDBY:nh143 for Civil and Environmental Engineering (CEE) (agrp_PrattSchool_CEE) END:VEVENT BEGIN:VEVENT CATEGORIES:Engineering CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Panel/Seminar/Colloquium CATEGORIES:Research CATEGORIES:Main CONTACT;X-BEDEWORK-UID=00f1fcdb-0f068baf-010f-068baf83-00000004:None CREATED:20231027T191600Z DESCRIPTION:Abstract:\n\nThis talk will describe the use of biological sys tems to degrade common environmental pollutants from the plastic industry that are highly detrimental ecologically. Our solution to this problem i s "Engineered Living Materials"\, materials in which biological organisms are embedded within traditional plastic materials. The biological compon ent is programmed to carry out a complex function\, in this case\, enviro nmental remediation. Two projects will be described here: 1) using cyanob acteria as a source for pollutant decontamination and 2) embedding bacter ial spores in plastics as a catalyst for biodegradation. In the first pro ject\, we program the cyanobacteria to express a laccase enzyme that is a degrader of common organic pollutants. The cyanobacteria are then embedd ed in a hydrogel allowing them to filter and clean the water from the pol lutant. The second project uses evolution to make spore forming bacteria amenable to polymer melt processing for incorporation into thermoplastic polyurethanes. These bacteria can germinate and then biodegrade the polym er at of the plastics' life cycle. These two projects demonstrate the bea uty of repackaging natural biosynthetic functions to improve the environm ent. DURATION:PT1H DTSTAMP:20231027T191600Z DTSTART;TZID=America/New_York:20231206T120000 LAST-MODIFIED:20231027T191600Z LOCATION;X-BEDEWORK-UID=18832e99-20476e5b-0120-58864347-000000be:Fitzpatri ck Center Schiciano Auditorium Side A\, room 1464 STATUS:CONFIRMED SUMMARY:DMI Seminar Presented By Prof. Pokorski UID:CAL-8a018d0d-8b5366bc-018b-72909998-00001599demobedework@mysite.edu X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Main:/user/public-user/Utili ties/Main X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Panel_Seminar_Colloquium:/us er/public-user/Lectures_Conferences/Panel_Seminar_Colloquium X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Engineering:/user/public-use r/Topics/Engineering X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Research:/user/public-user/T opics/Research X-BEDEWORK-CS;X-BEDEWORK-PARAM-DESCRIPTION="/principals/users/agrp_Artsand Sciences_Biology,/principals/users/agrp_PrattSchool_BME,/principals/users /agrp_ArtsandSciences_Chemistry,/principals/users/agrp_PrattSchool_CEE,/p rincipals/users/agrp_PrattSchool_ECE,/principals/users/agrp_FitzpatrickIn stitute,/principals/users/agrp__ArtsandSciences_Mathematics,/principals/u sers/agrp_PrattSchool_MEMS,/principals/users/agrp__ArtsandSciences_Physic s,/principals/users/agrp_PrattSchool,":Biology\,Biomedical Engineering (B ME)\,Chemistry\,Civil and Environmental Engineering (CEE)\,Electrical and Computer Engineering (ECE)\,Fitzpatrick Institute for Photonics (FIP)\,M athematics\,Mechanical Engineering and Materials Science (MEMS)\,Physics\ ,Pratt School of Engineering X-BEDEWORK-SPEAKER:Jon Pokorski X-BEDEWORK-STUDENT-CONTACT;X-BEDEWORK-PARAM-EMAIL=liana.igescu@duke.edu:Li ana Igescu X-BEDEWORK-IMAGE-X1:0 X-BEDEWORK-IMAGE-Y1:0 X-BEDEWORK-IMAGE-X2:1054.5 X-BEDEWORK-IMAGE-Y2:703 X-BEDEWORK-IMAGE-CROP-WIDTH:1054.5 X-BEDEWORK-IMAGE-CROP-HEIGHT:703 X-BEDEWORK-IMAGE-ALT-TEXT:Pokorski Headshot X-BEDEWORK-SUBMITTEDBY:lmi3 for Duke Materials Initiative (agrp_Institutes _MaterialsScienceandEngineering) X-BEDEWORK-IMAGE:/public/Images/Duke Calendar_20231027071600PM.png X-BEDEWORK-THUMB-IMAGE:/public/Images/Duke Calendar_20231027071600PM-thumb .png END:VEVENT BEGIN:VEVENT CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Panel/Seminar/Colloquium CATEGORIES:Main CONTACT;X-BEDEWORK-UID=00f1fcdb-0f068baf-010f-068baf83-00000004:None CREATED:20231128T141520Z DESCRIPTION:Abstract: Machine learning and computer vision and their limit ations can impact several application fields where machines and humans in teract. In domains such as intelligent vehicles and AI-assisted surgery\, neural models and representations that leverage human-centric and task-c entric insights can have a profound effect. In this talk\, I will survey recent works where the case for such representations is evident. \nIn the field of intelligent vehicles\, I will show recent results on how we pre dict road agents' behavior and infer the drivers' attended awareness and other cognitive factors. \nIn artificial intelligence for surgery\, I wil l show our recent works on predicting surgical workflow and estimating su rgical concepts\, such as the critical view of safety or tool-tissue inte ractions\, within a graph neural network framework. I will discuss how un certainty and domain knowledge representations play a role in these model s and efforts. \nFinally\, I will contrast these fields regarding how mac hine learning can understand and assist humans and highlight some future surgical AI directions we are pursuing at the SAIIL lab.\n \nBio: Guy Rosman is a research team manager and senior research scientist at Toyota Research Institute (TRI) in Cambridge\, where he explores uncertainty an d risk in human driver behavior modeling and assistance. At the Massachus etts General Hospital\, he is the associate director of computation resea rch at the Surgical AI and Innovation Lab and assistant investigator.\nDu ring his postdoc at MIT/CSAIL\, he received the Technion-MIT post-doctora l Fellowship and worked with the Distributed Robotics Lab and the Sensing \, Learning\, and Inference group. His research interests include neural probabilistic representations that encode the domain knowledge\, uncertai nties relating to the inference problem\, and their relation to the task and utility. \nHe obtained in 2004 his BSc Summa Cum Laude\, in 2008 MSc Cum Laude\, and in 2013 PhD at the Technion (with the Jacobs-Qualcomm fel lowship)\, in the Computer Science Department. Prior to TRI\, he has work ed at several companies\, including IBM research\, RAFAEL Ltd.\, Medicvis ion\, and Invision Biometrics (now Intel Realsense).\n\nZoom: https://duk e.zoom.us/s/8754663361 \nPasscode: 121523 DURATION:PT1H DTSTAMP:20231201T162255Z DTSTART;TZID=America/New_York:20231215T140000 LAST-MODIFIED:20231201T162255Z LOCATION;X-BEDEWORK-UID=18832e99-20476e5b-0120-58864347-000000be:Fitzpatri ck Center Schiciano Auditorium Side A\, room 1464 STATUS:CONFIRMED SUMMARY:AI to Understand Humans\, on the Road and in the Operating Room UID:CAL-8a018ccf-8b87f80e-018c-1648d3e1-00006a50demobedework@mysite.edu X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Main:/user/public-user/Utili ties/Main X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Panel_Seminar_Colloquium:/us er/public-user/Lectures_Conferences/Panel_Seminar_Colloquium X-BEDEWORK-CS;X-BEDEWORK-PARAM-DESCRIPTION="/principals/users/agrp_PrattSc hool_ECE,":Electrical and Computer Engineering (ECE) X-BEDEWORK-STUDENT-CONTACT;X-BEDEWORK-PARAM-EMAIL=lcarin@duke.edu:Lawrence Carin X-BEDEWORK-SPEAKER:Guy Rosman\, PhD X-BEDEWORK-DUKE-WEBCAST:https://duke.zoom.us/s/8754663361 X-BEDEWORK-IMAGE-X1:83 X-BEDEWORK-IMAGE-Y1:48 X-BEDEWORK-IMAGE-X2:613 X-BEDEWORK-IMAGE-Y2:401.3333333333333 X-BEDEWORK-IMAGE-CROP-WIDTH:530 X-BEDEWORK-IMAGE-CROP-HEIGHT:353.3333333333333 X-BEDEWORK-IMAGE-ALT-TEXT:Guy Rosman\, Presenter X-BEDEWORK-SUBMITTEDBY:jaa94 for Biostatistics and Bioinformatics (agrp_Sc hoolofMedicine_BiostatisticsandBioinformatics) X-BEDEWORK-IMAGE:/public/Images/Rosman.Guy-r_12.15.23.jpg_20231128021520PM .png X-BEDEWORK-THUMB-IMAGE:/public/Images/Rosman.Guy-r_12.15.23.jpg_2023112802 1520PM-thumb.png END:VEVENT BEGIN:VEVENT CATEGORIES:Engineering CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Lecture/Talk CATEGORIES:Research CATEGORIES:Main CONTACT;X-BEDEWORK-UID=00f1fcdb-0f068baf-010f-068baf83-00000004:None CREATED:20231221T183426Z DESCRIPTION:Abstract:\n\nMore often than not\, scientists are challenged w ith the daunting problem of measuring or computing astronomically small q uantities that are related to the occurrence of rare events. A phenomenon is called a rare event when the amount of time that elapses before its o ccurrence is orders of magnitude longer than the time needed for its comp letion. Rare events are ubiquitous in nature and span a wide range of phe nomena such as earthquakes\, telecommunication and power grid failures\, protein folding\, genetic mutations\, and crystallization. Capturing the statistical nature of such events is key in many applications\, including materials synthesis\, climate modeling\, bioengineering and medicine. Un fortunately\, achieving this with conventional experiments or simulations is inefficient at best as the waiting times for observing a single rare event can surpass the experimentally or computationally accessible timesc ales by several orders of magnitude. This becomes an almost impossible un dertaking when the rate of occurrence of a rare event is astronomically s mall. Under such circumstances\, specialized sampling techniques are nece ssary for capturing the statistical features of the corresponding rare ev ent.\n\nThis presentation will be dedicated to showcasing our work on cha racterizing rare events using an advance sampling technique known as forw ard flux sampling (FFS)\, alongside a brief discussion of a novel variant of FFS recently developed in my group suited for studying aggregation ph enomena such as nucleation. I will\, in particular\, discuss our applicat ion of FFS to probe the kinetics and microscopic mechanism of two scienti fically and practically important rare events\, namely heterogeneous crys tal nucleation\, and ion and solute transport through semipermeable nanop orous membranes. An emphasis will be put on not only the ability of FFS t o characterize their kinetics\, but also its power to provide molecular i nsights into the underlying mechanisms of these processes DURATION:PT1H DTSTAMP:20231221T183426Z DTSTART;TZID=America/New_York:20240117T120000 LAST-MODIFIED:20231221T183426Z LOCATION;X-BEDEWORK-UID=18832e99-20476e5b-0120-58864347-000000be:Fitzpatri ck Center Schiciano Auditorium Side A\, room 1464 STATUS:CONFIRMED SUMMARY:DMI/MEMS Seminar Presented by Prof. Amir Haji-Akbari UID:CAL-8a018ccf-8b87f80e-018c-8da84df5-000056a1demobedework@mysite.edu X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Main:/user/public-user/Utili ties/Main X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Lecture_Talk:/user/public-us er/Lectures_Conferences/Lecture_Talk X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Engineering:/user/public-use r/Topics/Engineering X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Research:/user/public-user/T opics/Research X-BEDEWORK-CS;X-BEDEWORK-PARAM-DESCRIPTION="/principals/users/agrp_Artsand Sciences_Biology,/principals/users/agrp_PrattSchool_BME,/principals/users /agrp_ArtsandSciences_Chemistry,/principals/users/agrp_PrattSchool_CEE,/p rincipals/users/agrp_PrattSchool_ECE,/principals/users/agrp_FitzpatrickIn stitute,/principals/users/agrp__ArtsandSciences_Mathematics,/principals/u sers/agrp_PrattSchool_MEMS,/principals/users/agrp__ArtsandSciences_Physic s,/principals/users/agrp_PrattSchool,":Biology\,Biomedical Engineering (B ME)\,Chemistry\,Civil and Environmental Engineering (CEE)\,Electrical and Computer Engineering (ECE)\,Fitzpatrick Institute for Photonics (FIP)\,M athematics\,Mechanical Engineering and Materials Science (MEMS)\,Physics\ ,Pratt School of Engineering X-BEDEWORK-SPEAKER: Prof. Amir Haji-Akbari X-BEDEWORK-STUDENT-CONTACT;X-BEDEWORK-PARAM-EMAIL=liana.igescu@duke.edu:Li ana Igescu X-BEDEWORK-IMAGE-X1:0 X-BEDEWORK-IMAGE-Y1:0 X-BEDEWORK-IMAGE-X2:1054.5 X-BEDEWORK-IMAGE-Y2:703 X-BEDEWORK-IMAGE-CROP-WIDTH:1054.5 X-BEDEWORK-IMAGE-CROP-HEIGHT:703 X-BEDEWORK-IMAGE-ALT-TEXT:speaker headshot X-BEDEWORK-SUBMITTEDBY:lmi3 for Duke Materials Initiative (agrp_Institutes _MaterialsScienceandEngineering) X-BEDEWORK-IMAGE:/public/Images/Amir_calendar_20231221063426PM.png X-BEDEWORK-THUMB-IMAGE:/public/Images/Amir_calendar_20231221063426PM-thumb .png END:VEVENT BEGIN:VEVENT CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Panel/Seminar/Colloquium CATEGORIES:Main CONTACT;X-BEDEWORK-UID=8a0183a7-83184018-0184-87170e31-00006277:Hinz\, Nic olle CREATED:20240118T180538Z DESCRIPTION:About 25% of the Earth's land-surface is covered by forests\, however the accuracy in which these are represented in Earth System Model s (ESMs\, e.g. Numerical Weather Predictions and Climate models) is quite limited. Given the generally coarse resolution employed in ESMs (e.g. Δ~ O(10^2 )m or larger) trees cannot be individually represented. Instead\, their integral effect on the mean flow and turbulence statistics near the surface is imposed through universal functions. However\, these universa l functions were initially developed for atmospheric flows over flat and homogenous conditions with the goal to characterize the so-called inertia l sublayer. It is only later that they were adjusted to include the repre sentation of vegetated canopies through changes in the so-called surface roughness parameter and displacement height. While this approach had the advantage of being computationally efficient and provided a simple recipe for representing near-surface flows over all types of land surface cover s\, it was later shown to underestimate the turbulent exchanges taking pl ace within and above the vegetated canopies. This is because it neglects the more complex turbulence mixing induced by the vegetated cover\, chara cteristic of the so-called roughness sublayer. To better capture the enh anced momentum\, energy\, and mass exchanges characteristic of vegetated canopies\, additional correction functions for implementation in ESMs had to be developed that would therefore better represent the hand-sake betw een the near-surface and canopy process with the inertial sublayer above. In this work we further explore the characteristics of the flow within t he roughness sublayer where these new roughness sublayer correction funct ions have been defined. For this purpose\, we study the flow over a serie s of vegetated canopies with different degrees of cover heterogeneity and forcing conditions. For the analysis\, we leverage some recent developme nts where the metric of turbulence anisotropy has been introduced as an a dditional non-dimensional parameter in traditional atmospheric surface la yer scaling relations as a means to generate new insight on the turbulenc e mixing processes immediately above the forested canopies. Results illu strate that while some type of turbulence exhibit the traditional roughne ss sublayer structure\, other types of turbulence exhibit a departure fro m it. DURATION:PT1H DTSTAMP:20240118T180538Z DTSTART;TZID=America/New_York:20240126T120000 LAST-MODIFIED:20240118T180538Z LOCATION;X-BEDEWORK-UID=18832e99-20476e5b-0120-58864347-000000be:Fitzpatri ck Center Schiciano Auditorium Side A\, room 1464 STATUS:CONFIRMED SUMMARY:CEE Seminar Insights from Turbulence Anisotropy on flows over vege tated canopies UID:CAL-8a0292fd-8d13410f-018d-1dc00067-00002ccademobedework@mysite.edu URL:http://cee.duke.edu X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Main:/user/public-user/Utili ties/Main X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Panel_Seminar_Colloquium:/us er/public-user/Lectures_Conferences/Panel_Seminar_Colloquium X-BEDEWORK-SPEAKER:Marc Calaf\, Associate Professor\, Department Mechanica l Engineering\, University of Utah X-BEDEWORK-DUKE-SERIES:CEE Spring Seminar Series 2024 X-BEDEWORK-SUBMITTEDBY:nh143 for Civil and Environmental Engineering (CEE) (agrp_PrattSchool_CEE) END:VEVENT BEGIN:VEVENT CATEGORIES:Engineering CATEGORIES:Lectures/Conferences CATEGORIES:Other CATEGORIES:Utilities CATEGORIES:Lecture/Talk CATEGORIES:Panel/Seminar/Colloquium CATEGORIES:Conference/Symposium CATEGORIES:Meeting CATEGORIES:Main CONTACT;X-BEDEWORK-UID=00f1fcdb-0f068baf-010f-068baf83-00000004:None CREATED:20200301T195518Z DESCRIPTION:Thomas Lord Department of Mechanical Engineering & Materials S cience SPRING 2024 Seminar Series with Dr. Helen Huang\, Professor in the Joint Department of Biomedical Engineering at North Carolina State Unive rsity (NC State) and the University of North Carolina at Chapel Hill (UNC )\n\nABSTRACT: As the population with limb loss in the U.S. grows to mill ions\, there is an urgent need for new prosthetics technologies that can provide this large population with the best restoration of normal functio n possible. Advanced robotic prostheses\, such as dexterous prosthetic ha nds and motorized prosthetic legs\, have become commercially available. H owever\, the function of these robotic devices is still limited due to la ck of neural control and device adaptation.\nIn this talk\, Dr. Huang wil l focus on the research of her lab towards building a symbiotic relations hip between humans and wearable lower limb robotic prostheses. She and he r team have developed neural-machine interfaces and learning-based contro l to enable prosthesis adaptation to its amputee users\, environments\, a nd task contexts. They aim to further advance the function of modern pros theses and significantly improve the quality of life of individuals with limb amputations.\n\nBio: DR. HELEN HUANG is the Jackson Family Distingui shed Professor in the Joint Department of Biomedical Engineering at North Carolina State University (NC State) and the University of North Carolin a at Chapel Hill (UNC) and the Director of the Closed-Loop Engineering fo r Advanced Rehabilitation (CLEAR) core. She is also the co-director of NI DILRR funded Rehabilitation Engineering Research Center. Her research int erest lies in neural-machine interfaces\, wearable robotics (robotic pros thetics and exoskeletons)\, learning-based wearable robot control\, weare r-robot interaction and co-adaptation\, and human motor control/biomechan ics. She was a recipient of the Delsys Prize for Innovation in Electromyo graphy\, NIDILRR Switzer Fellowship\, NSF CAREER Award\, ASA Statistics i n Physical Engineering Sciences Award\, and NC State ALCOA Foundation Dis tinguished Engineering Research Award. She is a Fellow of AIMBE\, Fellow of IEEE\, NC State faculty scholar\, and member of the Society for Neuros cience\, BMES\, American Society of Biomechanics\, and AAAS. She is the E ditor-in-Chief for the IEEE Transactions on Neural Systems and Rehabilita tion Engineering and an Editorial Board Member for IEEE Transactions on B iomedical Engineering. DURATION:PT1H DTSTAMP:20240104T215304Z DTSTART;TZID=America/New_York:20240131T120000 LAST-MODIFIED:20240104T215304Z LOCATION;X-BEDEWORK-UID=18832e99-20476e5b-0120-58864347-000000be:Fitzpatri ck Center Schiciano Auditorium Side A\, room 1464 STATUS:CONFIRMED SUMMARY:MEMS SEMINAR: Helen Huang\, "Restoring Motor Function of Individua ls with Limb Loss via Bionic Prostheses" UID:CAL-2c918085-70948125-0170-97aacdb7-000009ecdemobedework@mysite.edu X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Main:/user/public-user/Utili ties/Main X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Engineering:/user/public-use r/Topics/Engineering X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Lecture_Talk:/user/public-us er/Lectures_Conferences/Lecture_Talk X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Meeting:/user/public-user/Ot her/Meeting X-BEDEWORK-CS;X-BEDEWORK-PARAM-DESCRIPTION="/principals/users/agrp_PrattSc hool,":Pratt School of Engineering X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Conference_Symposium:/user/p ublic-user/Lectures_Conferences/Conference_Symposium X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Panel_Seminar_Colloquium:/us er/public-user/Lectures_Conferences/Panel_Seminar_Colloquium X-BEDEWORK-SPEAKER:Helen Huang X-BEDEWORK-DUKE-SERIES:MEMS Seminar Spring 2024 Speaker Series X-BEDEWORK-SUBMITTEDBY:acs2 for Mechanical Engineering and Materials Scien ce (MEMS) (agrp_PrattSchool_MEMS) END:VEVENT BEGIN:VEVENT CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Panel/Seminar/Colloquium CATEGORIES:Main CONTACT;X-BEDEWORK-UID=8a0183a7-83184018-0184-87170e31-00006277:Hinz\, Nic olle CREATED:20240118T180906Z DESCRIPTION:The design and analysis of mechanism-based mechanical metamate rials is a \nrelatively new and rapidly growing research area. It studies artificial \n"materials" that take advantage of "mechanisms" (that is\, nontrivial \nenergy-free deformations) to achieve interesting macroscopic behavior. \nThe relevant mechanics is nonlinear\, since mechanisms invol ve large \nrotations. While there have been insightful studies of specifi c \nexamples\, some fundamental issues remain poorly understood. This tal k \nwill address two of them\, namely (a) how to analyze a metamaterial's \nmacroscopic behavior\, and (b) whether linear elastic calculations can \nstill be of use in the analysis of such systems\, despite the fact tha t \ntheir mechanisms involve large rotations? My talk will start with a \ nbroad introduction to this area\; then I'll discuss some recent work wit h \nXuenan Li\, which focuses on a particular (very rich) example -- the \nKagome metamaterial. This system is interesting because it has \ninfini tely many mechanisms\, yet it behaves macroscopically as a \nnonlinear el astic material whose stress-free states are compressive \nconformal maps. DURATION:PT1H DTSTAMP:20240118T180906Z DTSTART;TZID=America/New_York:20240202T120000 LAST-MODIFIED:20240118T180906Z LOCATION;X-BEDEWORK-UID=18832e99-20476e5b-0120-58864347-000000be:Fitzpatri ck Center Schiciano Auditorium Side A\, room 1464 STATUS:CONFIRMED SUMMARY:CEE Seminar Mechanism-based mechanical metamaterials UID:CAL-8a0292fd-8d13410f-018d-1dc32c4f-00002eacdemobedework@mysite.edu URL:http://cee.duke.edu X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Main:/user/public-user/Utili ties/Main X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Panel_Seminar_Colloquium:/us er/public-user/Lectures_Conferences/Panel_Seminar_Colloquium X-BEDEWORK-SPEAKER:Robert V. Kohn\, Courant Institute of Mathematical Scie nces\, New York University X-BEDEWORK-DUKE-SERIES:CEE Spring Seminar Series 2024 X-BEDEWORK-SUBMITTEDBY:nh143 for Civil and Environmental Engineering (CEE) (agrp_PrattSchool_CEE) END:VEVENT BEGIN:VEVENT CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Panel/Seminar/Colloquium CATEGORIES:Main CONTACT;X-BEDEWORK-UID=8a0183a7-83184018-0184-87170e31-00006277:Hinz\, Nic olle CREATED:20240201T185351Z DESCRIPTION:Dynamic earth pressure coefficients are widely used in the sei smic engineering design of earth retaining structures. Nevertheless\, the re remains confusion about their validity\, with past studies conflicting ly arguing that the same estimates can be either conservative or un-conse rvative. In this seminar\, a combination of centrifuge and numerical mode ling is used to explore the dynamic response of simple and complex earth retaining systems. \n\nThe complex case of dual row retaining walls is in itially studied to investigate their potential use as tsunami defence aga inst multi-hazard events\, e.g.\, combined earthquake and tsunami loading and liquefaction of the foundation soil. The combination of dynamic cent rifuge modeling and numerical analyses informed the different mechanisms governing the dynamic response when the system was founded in dry and liq uefiable soils. Insights made into the dynamic response of the retained s oil highlighted the importance of soil rocking under horizontal shaking. This hinted at a solution to the past confusion surrounding the seismic l imit state of retained soil.\n\nA simpler case of a level bed of retained soil is used to generalize the findings from the dual row walls. The com bination of dynamic centrifuge modeling and numerical analyses exposes th e importance of dynamic normal vertical effective stresses. This allows f or a more fundamental interpretation of the limiting dynamic stress state of geomaterials. Finally\, simplified analytical methods to estimate the limiting distribution and time histories of stresses in retained soil ar e proposed. Validation of these against the numerical predictions illustr ates a path forward to estimate the limiting horizontal stresses\, and th us forces\, for the improved seismic limit state design of earth retainin g structures. DURATION:PT1H DTSTAMP:20240201T185351Z DTSTART;TZID=America/New_York:20240209T120000 LAST-MODIFIED:20240201T185351Z LOCATION;X-BEDEWORK-UID=18832e99-20476e5b-0120-58864347-000000be:Fitzpatri ck Center Schiciano Auditorium Side A\, room 1464 STATUS:CONFIRMED SUMMARY:CEE Seminar - An Alternative Approach to Dynamic Earth Pressure Co efficients to Improve the Seismic Limit State Design of Earth Retaining S tructures UID:CAL-8a0292fd-8d13410f-018d-66052e36-00006d02demobedework@mysite.edu URL:http://cee.duke.edu X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Main:/user/public-user/Utili ties/Main X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Panel_Seminar_Colloquium:/us er/public-user/Lectures_Conferences/Panel_Seminar_Colloquium X-BEDEWORK-SPEAKER:Dr. Srikanth Madabhushi\, Associate Professor\, Geotech nical Engineering & Geomechanics\, University of Colorado Boulder X-BEDEWORK-DUKE-SERIES:CEE Spring Seminar Series 2024 X-BEDEWORK-SUBMITTEDBY:nh143 for Civil and Environmental Engineering (CEE) (agrp_PrattSchool_CEE) END:VEVENT BEGIN:VEVENT CATEGORIES:Engineering CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Panel/Seminar/Colloquium CATEGORIES:Conference/Symposium CATEGORIES:Main CONTACT;X-BEDEWORK-UID=8a0290b4-860465b2-0186-32f30301-00004779:Rice\, Cyn thia CREATED:20240130T163259Z DESCRIPTION:Title: Nano-optics for smart sensing and display\nAbstract: Na no-optical systems provide unprecedented control of light. These systems are ultra-compact and lightweight\, enabling new optical functionalities beyond conventional optics. In this talk\, I will focus on two applicatio ns: multifunctional metasurfaces for efficient computational depth sensor s\; and photonic integrated circuits (PICs) for high-performance laser di splays. The combination of nano-optics with computational approaches and active platforms will be discussed. These examples demonstrate the potent ial of nano-optics in enabling the next generation of smart sensors and d isplays\, particularly for small\, low-power platforms such as augmented reality devices\, internet of things (IoT)\, and more.\nBio: Zhujun Shi i s currently an optical research scientist at Reality Labs at Meta. Prior to that\, she was a research assistant in Prof. Federico Capasso's group at Harvard University. Her research focuses on nanophotonics and nano-opt ics. By engineering the interaction of light and structured materials at the subwavelength scale\, she develops nano-optical systems for various i maging\, sensing and display applications.\nEducation: \nPhD in Physics\, 2020\, Harvard University.\nBS in Physics\, 2015\, Tsinghua University. DURATION:PT1H DTSTAMP:20240208T170953Z DTSTART;TZID=America/New_York:20240209T140000 LAST-MODIFIED:20240208T170953Z LOCATION;X-BEDEWORK-UID=18832e99-20476e5b-0120-58864347-000000be:Fitzpatri ck Center Schiciano Auditorium Side A\, room 1464 STATUS:CONFIRMED SUMMARY:ECE Seminar - Nano-optics for Smart Sensing and Display UID:CAL-8a0292fd-8d13410f-018d-5b377f66-00006996demobedework@mysite.edu X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Main:/user/public-user/Utili ties/Main X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Conference_Symposium:/user/p ublic-user/Lectures_Conferences/Conference_Symposium X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Panel_Seminar_Colloquium:/us er/public-user/Lectures_Conferences/Panel_Seminar_Colloquium X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Engineering:/user/public-use r/Topics/Engineering X-BEDEWORK-SPEAKER:Zhujun Shi X-BEDEWORK-IMAGE-X1:0 X-BEDEWORK-IMAGE-Y1:0 X-BEDEWORK-IMAGE-X2:1024 X-BEDEWORK-IMAGE-Y2:682.6666666666666 X-BEDEWORK-IMAGE-CROP-WIDTH:1024 X-BEDEWORK-IMAGE-CROP-HEIGHT:682.6666666666666 X-BEDEWORK-IMAGE-ALT-TEXT:Zhujun Shi X-BEDEWORK-SUBMITTEDBY:cpr24 for Electrical and Computer Engineering (ECE) (agrp_PrattSchool_ECE) X-BEDEWORK-IMAGE:/public/Images/Zhujun Shi_20240130043259PM_20240208050953 PM.jpg X-BEDEWORK-THUMB-IMAGE:/public/Images/Zhujun Shi_20240130043259PM_20240208 050953PM-thumb.png END:VEVENT BEGIN:VEVENT CATEGORIES:Engineering CATEGORIES:Lectures/Conferences CATEGORIES:Other CATEGORIES:Utilities CATEGORIES:Lecture/Talk CATEGORIES:Panel/Seminar/Colloquium CATEGORIES:Conference/Symposium CATEGORIES:Meeting CATEGORIES:Main CONTACT;X-BEDEWORK-UID=8a0290b4-860465b2-0186-32feb568-0000477d:Spaulding\ , Amy CREATED:20240104T174353Z DESCRIPTION:Thomas Lord Department of Mechanical Engineering & Materials S cience SPRING 2024 Seminar Series with Dr. Sergio Pellegrino\, Professor Professor of Aerospace and Civil Engineering at California Institute of T echnology.\n\nABSTRACT: Since the beginning of space exploration\, large space structures have been built on the Earth\, packaged for launch in a rocket\, and unfolded in orbit. However\, recent advances in autonomous robotic systems and advanced manufacturing have made it feasible to launc h sets of modular parts to be put together by robots\, or even to launch the raw materials or unfinished components and manufacture the needed par ts in space. This talk will present two examples that illustrate the pote ntial benefits of this new approach\, as well as the practical challenges it poses. The first example is a segmented optical telescope with an ape rture diameter of 100 m\, whose modular structural architecture allows it s assembly in space by general purpose\, crawling robots. The second exam ple is a scalable reflector antenna based on the "tension truss" architec ture. In this case\, the modules of the structure are assembled or manufa ctured within a self-contained facility that is launched in a rocket\, wi thout any additional robotic systems. Apertures of hundreds of meters can be launched within currently existing launchers. A proof-of-concept demo nstration of the proposed concept will be presented. \n\nBIO: SERGIO PELL EGRINO is the Joyce and Kent Kresa Professor of Aerospace and Civil Engin eering at Caltech\, JPL Senior Research Scientist and Co-Director of the Caltech Space Solar Power Project. He is a Fellow of the Royal Academy of Engineering\, a Fellow of AIAA and a Chartered Structural Engineer. He h as been President of the International Association for Shell and Spatial Structures (IASS) and the founding chair of the AIAA Spacecraft Structure s Technical Committee. Pellegrino has received a Pioneers' Award in 2002 from the Space Structures Research Center\, University of Surrey\, NASA R obert H. Goddard Exceptional Achievement Team Awards in 2009 and 2016\, a nd the IASS Torroja Medal in 2022. DURATION:PT1H DTSTAMP:20240108T222148Z DTSTART;TZID=America/New_York:20240214T120000 LAST-MODIFIED:20240108T222148Z LOCATION;X-BEDEWORK-UID=18832e99-20476e5b-0120-58864347-000000be:Fitzpatri ck Center Schiciano Auditorium Side A\, room 1464 STATUS:CONFIRMED SUMMARY:MEMS Seminar: Sergio Pellegrino\, "Beyond Deployables: New Ways of Building Giant Space Structures" UID:CAL-8a018ccf-8b87f80e-018c-d5930f9b-0000794bdemobedework@mysite.edu X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Main:/user/public-user/Utili ties/Main X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Conference_Symposium:/user/p ublic-user/Lectures_Conferences/Conference_Symposium X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Lecture_Talk:/user/public-us er/Lectures_Conferences/Lecture_Talk X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Panel_Seminar_Colloquium:/us er/public-user/Lectures_Conferences/Panel_Seminar_Colloquium X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Meeting:/user/public-user/Ot her/Meeting X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Engineering:/user/public-use r/Topics/Engineering X-BEDEWORK-CS;X-BEDEWORK-PARAM-DESCRIPTION="/principals/users/agrp_Religio usLife_Acts2,/principals/users/agrp_PrattSchool,":Acts2 at Duke\,Pratt Sc hool of Engineering X-BEDEWORK-SPEAKER:Sergio Pellegrino X-BEDEWORK-DUKE-SERIES:MEMS Seminar Spring 2024 Speaker Series X-BEDEWORK-SUBMITTEDBY:acs2 for Mechanical Engineering and Materials Scien ce (MEMS) (agrp_PrattSchool_MEMS) END:VEVENT BEGIN:VEVENT CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Panel/Seminar/Colloquium CATEGORIES:Main CONTACT;X-BEDEWORK-UID=8a0183a7-83184018-0184-87170e31-00006277:Hinz\, Nic olle CREATED:20240209T142646Z DESCRIPTION:Protists are ubiquitous in every water compartment\, including drinking water\, surface water\, and wastewater. While many studies inve stigated the removal of pathogenic protists\, the role of non-pathogenic protists has received less attention with respect to water quality. Yet\, they are crucial in waterborne pathogens' fate throughout the food chain and host-microbe interactions.\nThe interaction between protists and wat erborne pathogens can lead to drastically different outcomes\, ranging fr om removal or loss of infectivity to protection from external stressors o r increased pathogen concentration.\nIt is critical to understand why and how one of those scenarios occurs if one wants to engineer remediation s ystems and to include protists' action in water quality predictive model tools to ensure microbial safety and prevent the spread of infectious dis eases. In this work\, we explore the abiotic and biotic factors that modu late the fate of waterborne viruses (with a focus on enteric viruses) and bacteria (with a focus on opportunistic pathogens) upon interactions wit h protists using microcosm settings. We also discuss the underlying mecha nisms leading to one positive or negative outcome for water microbial saf ety. DURATION:PT1H DTSTAMP:20240209T142646Z DTSTART;TZID=America/New_York:20240216T120000 LAST-MODIFIED:20240209T142646Z LOCATION;X-BEDEWORK-UID=18832e99-20476e5b-0120-58864347-000000be:Fitzpatri ck Center Schiciano Auditorium Side A\, room 1464 STATUS:CONFIRMED SUMMARY:CEE Seminar - The Protist Paradox: Dual Role in Waterborne Pathoge n Control UID:CAL-8a0292fd-8d13410f-018d-8e438691-00006267demobedework@mysite.edu URL:http://cee.duke.edu X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Main:/user/public-user/Utili ties/Main X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Panel_Seminar_Colloquium:/us er/public-user/Lectures_Conferences/Panel_Seminar_Colloquium X-BEDEWORK-SPEAKER:Margot Olive\, Ph.D.\, Duke University X-BEDEWORK-DUKE-SERIES:CEE Spring Seminar Series 2024 X-BEDEWORK-SUBMITTEDBY:nh143 for Civil and Environmental Engineering (CEE) (agrp_PrattSchool_CEE) END:VEVENT BEGIN:VEVENT CATEGORIES:Engineering CATEGORIES:Lectures/Conferences CATEGORIES:Other CATEGORIES:Utilities CATEGORIES:Lecture/Talk CATEGORIES:Panel/Seminar/Colloquium CATEGORIES:Conference/Symposium CATEGORIES:Meeting CATEGORIES:Main CONTACT;X-BEDEWORK-UID=8a0290b4-860465b2-0186-32feb568-0000477d:Spaulding\ , Amy CREATED:20240104T174841Z DESCRIPTION:Thomas Lord Department of Mechanical Engineering & Materials S cience SPRING 2024 Seminar Series with Dr. Jerry Qi\, Professor of Mechan ical Engineering at Georgia Institute of Technology speaks on "Multimater ial Additive Manufacturing toward \nShape Morphing Structures and 4D Prin ting."\n\nABSTRACT: 3D printing (additive manufacturing\, AM) where mater ials are deposited in a layer-by-layer manner to form a 3D solid has seen significant advances in recent decades. 3D printing has the advantage in creating a part with complex geometry from a digit file\, making them an ideal candidate for making architected materials. Multimaterial 3D print ing is an emerging field in recent years in additive manufacturing. It of fers the advantage of placement of materials with different properties in the 3D space with high resolution\, or controllable heterogeneity. In th is talk\, we present our recent progress in developing multimaterial addi tive manufacturing methods. In the first approach\, we present a new deve lopment where we integrate two AM methods\, direct-ink-write (DIW) and di git light processing (DLP) into one system. In this system\, the DLP can be used to print complex bulk parts while DIW can be used to print functi onal inks. In the second approach\, we recently developed a grayscale DLP (g-DLP) 3D printing method where we can print a part with gradient mater ial properties. We further explore how to use multimaterial 3D printing t o fabricate shape morphing structures\, including direct 4D printing of 2 D lattice structures\, lattice structures with changing shape driven by l iquid crystal elastomers\, and 3D lattice structures by gradient material s. \n\nBIO: JERRY QI is professor of Mechanical Engineering at Georgia T ech and is site director of NSF IUCRC on Science of Heterogeneous Additiv e Printing of 3D Materials (SHAP3D). He received his undergrad and gradua te degrees from Tsinghua University and a ScD degree from MIT. After one- year postdoc at MIT\, he joined Univ. of Colorado Boulder as an asst. pro fessor and moved to Georgia Tech in 2014. Prof. Qi's research is in the b road field of nonlinear mechanics of polymeric materials and focuses on d eveloping fundamental understanding of multi-field properties of soft act ive materials through experimentation and constitutive modeling then appl ying these understandings to application design. DURATION:PT1H DTSTAMP:20240104T215500Z DTSTART;TZID=America/New_York:20240221T120000 LAST-MODIFIED:20240104T215500Z LOCATION;X-BEDEWORK-UID=18832e99-20476e5b-0120-58864347-000000be:Fitzpatri ck Center Schiciano Auditorium Side A\, room 1464 STATUS:CONFIRMED SUMMARY:MEMS Seminar: Jerry Qi\, "Multimaterial Additive Manufacturing tow ard Shape Morphing Structures and 4D Printing" UID:CAL-8a018ccf-8b87f80e-018c-d597731a-00007a0ddemobedework@mysite.edu X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Main:/user/public-user/Utili ties/Main X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Conference_Symposium:/user/p ublic-user/Lectures_Conferences/Conference_Symposium X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Lecture_Talk:/user/public-us er/Lectures_Conferences/Lecture_Talk X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Panel_Seminar_Colloquium:/us er/public-user/Lectures_Conferences/Panel_Seminar_Colloquium X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Meeting:/user/public-user/Ot her/Meeting X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Engineering:/user/public-use r/Topics/Engineering X-BEDEWORK-CS;X-BEDEWORK-PARAM-DESCRIPTION="/principals/users/agrp_PrattSc hool,":Pratt School of Engineering X-BEDEWORK-SPEAKER:Jerry Qi X-BEDEWORK-DUKE-SERIES:MEMS Seminar Spring 2024 Speaker Series X-BEDEWORK-SUBMITTEDBY:acs2 for Mechanical Engineering and Materials Scien ce (MEMS) (agrp_PrattSchool_MEMS) END:VEVENT BEGIN:VEVENT CATEGORIES:Engineering CATEGORIES:Lectures/Conferences CATEGORIES:Other CATEGORIES:Utilities CATEGORIES:Lecture/Talk CATEGORIES:Panel/Seminar/Colloquium CATEGORIES:Conference/Symposium CATEGORIES:Meeting CATEGORIES:Main CONTACT;X-BEDEWORK-UID=8a0290b4-860465b2-0186-32feb568-0000477d:Spaulding\ , Amy CREATED:20240104T180343Z DESCRIPTION:Thomas Lord Department of Mechanical Engineering & Materials S cience Spring 2024 Seminar Series with David Watkins\, Ph.D.\, Research L ead at the Boston Dynamics AI Institute will give a talk on "Building Fou ndation Models for Robotics."\n\nAbstract: The world of natural language processing has been completely revolutionized by the advent of large lang uage models. This same revolution is coming to robotics by changing how w e build policies to control robots. In this talk\, we will discuss the im provements made to robotics so far\, some of the work we are doing at the AI Institute to improve robots with foundation models\, and the future d irections the field will be going in. We will discuss the differences bet ween grounding language intermediates and leveraging other modalities to build more robust robot policies. \n\nBio: David Watkins is a research le ad at the AI Institute working on building foundation models for robotics . David earned his PhD from Columbia University working with Professor Pe ter Allen with funding from the Army Research Lab and NVIDIA. During his graduate work\, he collaborated with Google Robotics and ARL to develop n ovel methods for robotic mobile manipulation and shape understanding. Sin ce starting at the Institute\, he has worked to build a team developing s tate-of-the-art machine learning methods to make robotics better. DURATION:PT1H DTSTAMP:20240108T212129Z DTSTART;TZID=America/New_York:20240228T120000 LAST-MODIFIED:20240108T212129Z LOCATION;X-BEDEWORK-UID=18832e99-20476e5b-0120-58864347-000000be:Fitzpatri ck Center Schiciano Auditorium Side A\, room 1464 STATUS:CONFIRMED SUMMARY:MEMS Seminar: David Watkins\, "Building Foundation Models for Robo tics" UID:CAL-8a018ccf-8b87f80e-018c-d5a5398d-00007b14demobedework@mysite.edu X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Main:/user/public-user/Utili ties/Main X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Conference_Symposium:/user/p ublic-user/Lectures_Conferences/Conference_Symposium X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Lecture_Talk:/user/public-us er/Lectures_Conferences/Lecture_Talk X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Panel_Seminar_Colloquium:/us er/public-user/Lectures_Conferences/Panel_Seminar_Colloquium X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Meeting:/user/public-user/Ot her/Meeting X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Engineering:/user/public-use r/Topics/Engineering X-BEDEWORK-CS;X-BEDEWORK-PARAM-DESCRIPTION="/principals/users/agrp_PrattSc hool,":Pratt School of Engineering X-BEDEWORK-SPEAKER:David Watkins X-BEDEWORK-DUKE-SERIES:MEMS Seminar Spring 2024 Speaker Series X-BEDEWORK-SUBMITTEDBY:acs2 for Mechanical Engineering and Materials Scien ce (MEMS) (agrp_PrattSchool_MEMS) END:VEVENT BEGIN:VEVENT CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Panel/Seminar/Colloquium CATEGORIES:Main CONTACT;X-BEDEWORK-UID=8a0183a7-83184018-0184-87170e31-00006277:Hinz\, Nic olle CREATED:20240223T142021Z DESCRIPTION:Microbial water contamination remains a significant public hea lth burden globally. Simultaneously\, wastewater-associated pathogens hav e become a critical public health monitoring tool via wastewater-based su rveillance (WBS). Molecular (i.e.\, DNA- or RNA-based) methods such as qP CR\, digital PCR\, and metagenomics have a critical role in contributing to water quality monitoring and WBS. I will begin this talk by discussing our group's contributions to metagenomic methods for water quality monit oring\, including developing quantitative metagenomic methods and employi ng metagenomics to develop a new viral fecal indicator\, crAssphage. I wi ll then discuss our group's work on WBS\, including initial developments for COVID-19 and recent efforts on novel disease targets\, including MPox and malaria.\n\nDr. Kyle Bibby is a Professor and Associate Department C hair at the University of Notre Dame in the Department of Civil and Envir onmental Engineering and Earth Sciences. He completed his BS in civil eng ineering from the University of Notre Dame and a Ph.D. in environmental e ngineering from Yale University\, and he was previously a faculty member at the University of Pittsburgh. He has previously won multiple professio nal awards\, including the NSF CAREER award and an ISI-Clarivate Highly C ited Researcher. Dr. Bibby currently leads several research projects cent ered around understanding microbiology relevant to protecting and improvi ng human health and environmental quality\, including the NSF Research Co ordination Network on wastewater disease monitoring. DURATION:PT1H DTSTAMP:20240223T142021Z DTSTART;TZID=America/New_York:20240301T120000 LAST-MODIFIED:20240223T142021Z LOCATION;X-BEDEWORK-UID=18832e99-20476e5b-0120-58864347-000000be:Fitzpatri ck Center Schiciano Auditorium Side A\, room 1464 STATUS:CONFIRMED SUMMARY:CEE Seminar Metagenomics\, Mpox\, Malaria - Tracking Pathogens in Wastewater UID:CAL-8a0292fd-8d13410f-018d-d656afe5-0000354bdemobedework@mysite.edu URL:http://CEE.duke.edu X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Main:/user/public-user/Utili ties/Main X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Panel_Seminar_Colloquium:/us er/public-user/Lectures_Conferences/Panel_Seminar_Colloquium X-BEDEWORK-SPEAKER:Dr. Kyle Bibby\, University of Notre Dame\, Professor a nd Associate Department Chair in the Department of Civil and Environmenta l Engineering and Earth Sciences. X-BEDEWORK-DUKE-SERIES:CEE Spring Seminar Series 2024 X-BEDEWORK-SUBMITTEDBY:nh143 for Civil and Environmental Engineering (CEE) (agrp_PrattSchool_CEE) END:VEVENT BEGIN:VEVENT CATEGORIES:Engineering CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Panel/Seminar/Colloquium CATEGORIES:Research CATEGORIES:Main CONTACT;X-BEDEWORK-UID=00f1fcdb-0f068baf-010f-068baf83-00000004:None CREATED:20240122T154007Z DESCRIPTION:Abstract:\n\nLight as an energy source has enabled transformat ive technologies in imaging\, lithography\, adhesives\, and 3D printing. Its broad utility arises from the unparalleled spatiotemporal control ove r chemical transformations that it offers. However\, contemporary methods rely on high energy UV light (<400 nm)\, which limits material compatibi lity due to pervasive degradation and attenuation that occurs upon non-se lective absorption and/or scattering. Excitingly\, the recent commerciali zation of inexpensive light emitting diodes has opened an avenue to exami ne mild visible-to-near infrared induced reactions in materials chemistry . This presentation will focus on how the Page Research Group has develop ed and leveraged low energy light driven polymerizations to generate a ve rsatile array of soft materials with unprecedented speed and spatiotempor al precision. Specifically\, catalyst design principles to enable rapid s olidification of photopolymer resins using visible-to-near infrared light will be discussed\, along with their utility and optimization in high re solution additive manufacturing towards all-polymer multimaterial composi tes. DURATION:PT1H DTSTAMP:20240201T185732Z DTSTART;TZID=America/New_York:20240306T120000 LAST-MODIFIED:20240201T185732Z LOCATION;X-BEDEWORK-UID=18832e99-20476e5b-0120-58864347-000000be:Fitzpatri ck Center Schiciano Auditorium Side A\, room 1464 STATUS:CONFIRMED SUMMARY:DMI/MEMS Seminar Presented by Prof. Zachariah A. Page UID:CAL-8a0292fd-8d13410f-018d-31d43794-00001407demobedework@mysite.edu X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Main:/user/public-user/Utili ties/Main X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Panel_Seminar_Colloquium:/us er/public-user/Lectures_Conferences/Panel_Seminar_Colloquium X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Engineering:/user/public-use r/Topics/Engineering X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Research:/user/public-user/T opics/Research X-BEDEWORK-STUDENT-CONTACT;X-BEDEWORK-PARAM-EMAIL=liana.igescu@duke.edu:Li ana Igescu X-BEDEWORK-CS;X-BEDEWORK-PARAM-DESCRIPTION="/principals/users/agrp_Artsand Sciences_Biology,/principals/users/agrp_PrattSchool_BME,/principals/users /agrp_ArtsandSciences_Chemistry,/principals/users/agrp_PrattSchool_CEE,/p rincipals/users/agrp_PrattSchool_ECE,/principals/users/agrp__ArtsandScien ces_Mathematics,/principals/users/agrp_PrattSchool_MEMS,/principals/users /agrp__ArtsandSciences_Physics,/principals/users/agrp_PrattSchool,":Biolo gy\,Biomedical Engineering (BME)\,Chemistry\,Civil and Environmental Engi neering (CEE)\,Electrical and Computer Engineering (ECE)\,Mathematics\,Me chanical Engineering and Materials Science (MEMS)\,Physics\,Pratt School of Engineering X-BEDEWORK-SPEAKER:Zachariah A. Page X-BEDEWORK-IMAGE-X1:0 X-BEDEWORK-IMAGE-Y1:0 X-BEDEWORK-IMAGE-X2:1054.5 X-BEDEWORK-IMAGE-Y2:703 X-BEDEWORK-IMAGE-CROP-WIDTH:1054.5 X-BEDEWORK-IMAGE-CROP-HEIGHT:703 X-BEDEWORK-IMAGE-ALT-TEXT:speaker headshot X-BEDEWORK-SUBMITTEDBY:lmi3 for Duke Materials Initiative (agrp_Institutes _MaterialsScienceandEngineering) X-BEDEWORK-IMAGE:/public/Images/Event Calendar_Page_20240122034007PM.png X-BEDEWORK-THUMB-IMAGE:/public/Images/Event Calendar_Page_20240122034007PM -thumb.png END:VEVENT BEGIN:VEVENT CATEGORIES:Engineering CATEGORIES:Lectures/Conferences CATEGORIES:Other CATEGORIES:Utilities CATEGORIES:Lecture/Talk CATEGORIES:Panel/Seminar/Colloquium CATEGORIES:Conference/Symposium CATEGORIES:Meeting CATEGORIES:Main CONTACT;X-BEDEWORK-UID=8a0290b4-860465b2-0186-32feb568-0000477d:Spaulding\ , Amy CREATED:20240104T214135Z DESCRIPTION:Thomas Lord Department of Mechanical Engineering Spring Semina r Series with Professor David Peters\, McDonnell Douglas Professor of Eng ineering at\nWashington University in St. Louis\, will speak on "The Late ral Buckling of Cantilever Beams - An Historical Perspective"\n\nABSTRACT : This is a story of how\, for a period spanning over 80 years\, the the ory of lateral buckling was plagued with mistakes\, filled with intrigue\ , and capped with denial. It is a saga of flawed derivations\, and a tra gedy of proliferation of errors\; but it is also an exciting account of h ow the anomalies were finally discovered and corrected (yielding equation s simpler than the original\, incorrect ones). It is a drama of how some researchers at first denied the truth\, but later came to repentance and forgiveness\; and\, finally\, it is an account of how lasting friendships were initiated. The list of players includes many icons of Applied Mecha nics\, including: Prandtl\, H. Reissner\, Timoshenko\, Goodier\, and E. R eissner. And\, yes\, the speaker was also intimately involved in the sag a. Although the story spans 1899 - 1979 and\, although it came to closur e over 40 years ago\, the lessons learned are as important to the modern researcher as they were to those of us who experienced this true tale.\n\ nBIO: PROFESSOR DAVID PETERS first joined the faculty of Washington Unive rsity in St. Louis (WashU) in 1975. Prior to that\, he was an associate e ngineer at McDonnell Douglas Astronautics Co. in St. Louis from 1969-1970 and a research scientist in the Army Air Mobility R&D Laboratory from 19 70-1975.\n\nProfessor Peters left WashU to join the faculty of Georgia Te ch in 1985 but returned in 1991. Professor Peters served as the Chair of the WashU Department of Mechanical Engineering from 1982-1985 and from 19 97-2007. Currently\, he is the Associate Director of Georgia Tech/Washing ton University in St. Louis Center of Excellence for Rotor Technology. He is also an adjunct professor at Georgia Tech.\n\nPeters's research proje cts in rotor wake modeling seek to correctly model the dynamic motions th at profoundly influence vehicle dynamics of airplane propellers\, helicop ters and tilt rotors. Other research interests include aeroelastic modeli ng of helicopter rotors and wind turbines with unsteady aerodynamics and nonlinear structural deformations and response to stalling. DURATION:PT1H DTSTAMP:20240104T215233Z DTSTART;TZID=America/New_York:20240320T120000 LAST-MODIFIED:20240104T215233Z LOCATION;X-BEDEWORK-UID=18832e99-20476e5b-0120-58864347-000000be:Fitzpatri ck Center Schiciano Auditorium Side A\, room 1464 STATUS:CONFIRMED SUMMARY:MEMS SEMINAR: David Peters\, "The Lateral Buckling of Cantilever B eams -- An Historical Perspective" UID:CAL-8a018ccf-8b87f80e-018c-d66caceb-00000b02demobedework@mysite.edu X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Main:/user/public-user/Utili ties/Main X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Conference_Symposium:/user/p ublic-user/Lectures_Conferences/Conference_Symposium X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Lecture_Talk:/user/public-us er/Lectures_Conferences/Lecture_Talk X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Panel_Seminar_Colloquium:/us er/public-user/Lectures_Conferences/Panel_Seminar_Colloquium X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Meeting:/user/public-user/Ot her/Meeting X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Engineering:/user/public-use r/Topics/Engineering X-BEDEWORK-CS;X-BEDEWORK-PARAM-DESCRIPTION="/principals/users/agrp_PrattSc hool,":Pratt School of Engineering X-BEDEWORK-SPEAKER:David Peters X-BEDEWORK-DUKE-SERIES:MEMS Seminar Spring 2024 Speaker Series X-BEDEWORK-SUBMITTEDBY:acs2 for Mechanical Engineering and Materials Scien ce (MEMS) (agrp_PrattSchool_MEMS) END:VEVENT BEGIN:VEVENT CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Panel/Seminar/Colloquium CATEGORIES:Main CONTACT;X-BEDEWORK-UID=8a0183a7-83184018-0184-87170e31-00006277:Hinz\, Nic olle CREATED:20240307T164359Z DESCRIPTION:During the last 20 years there has been a lot of progress in a pplying neural networks (NNs) to many machine learning tasks. However\, t heir employment in scientific machine learning with the purpose of learni ng physics of complex system is less explored. Differs from the other mac hine learning tasks such as the computer vision and natural language proc essing problems where a large amount of unstructured data are available\, physics-based machine learning tasks often feature scarce and structured measurements.\n\nIn this talk\, we will take the learning of heterogeneo us material responses as an exemplar problem\, to investigate the design of neural networks for physics-based machine learning. In particular\, we propose to parameterize the mapping between loading conditions and the corresponding system responses in the form of nonlocal neural operators\, and infer the neural network parameters from high-fidelity simulation or experimental measurements. As such\, the model is built as mappings betw een infinite-dimensional function spaces\, and the learnt network paramet ers are resolution-agnostic: no further modification or tuning will be re quired for different resolutions in order to achieve the same level of pr ediction accuracy. Moreover\, the nonlocal operator architecture also all ows the incorporation of intrinsic mathematical and physics knowledge\, w hich improves the learning efficacy and robustness from scarce measuremen ts.\n\nTo demonstrate the applicability of our nonlocal operator learning framework\, three typical scenarios in physics-based machine learning wi ll be discussed: the learning of a material-specific constitutive law\, t he learning of an efficient PDE solution operator\, and the development o f a foundational constitutive law across multiple materials. As an applic ation\, we learn material models directly from digital image correlation (DIC) displacement tracking measurements on a porcine tricuspid valve lea flet tissue\, and show that the learnt model substantially outperforms co nventional constitutive models. DURATION:PT1H DTSTAMP:20240307T164359Z DTSTART;TZID=America/New_York:20240322T120000 LAST-MODIFIED:20240307T164359Z LOCATION;X-BEDEWORK-UID=18832e99-20476e5b-0120-58864347-000000be:Fitzpatri ck Center Schiciano Auditorium Side A\, room 1464 STATUS:CONFIRMED SUMMARY:CEE Seminar - Nonlocal operator is all you need UID:CAL-8a0292fd-8d13410f-018e-19ccdd60-000019a2demobedework@mysite.edu URL:http://cee.duke.edu X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Main:/user/public-user/Utili ties/Main X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Panel_Seminar_Colloquium:/us er/public-user/Lectures_Conferences/Panel_Seminar_Colloquium X-BEDEWORK-SPEAKER:Dr. Yue Yu\, Professor\, Department of Mathematics\, L ehigh University X-BEDEWORK-DUKE-SERIES:CEE Spring Seminar Series 2024 X-BEDEWORK-SUBMITTEDBY:nh143 for Civil and Environmental Engineering (CEE) (agrp_PrattSchool_CEE) END:VEVENT BEGIN:VEVENT CATEGORIES:Engineering CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Panel/Seminar/Colloquium CATEGORIES:Conference/Symposium CATEGORIES:Main CONTACT;X-BEDEWORK-UID=8a0290b4-860465b2-0186-32f30301-00004779:Rice\, Cyn thia CREATED:20240307T164112Z DESCRIPTION:Abstract: Securing signals from unintended eavesdroppers has b ecome an increasingly important problem with the emergence of the Interne t-of-Things. Herein\, we examine learning problems in signal processing t hat are inherently hard without key side information. In particular\, we exploit necessary resolution limits for classical compressed sensing prob lems. To limit an eavesdropper's capabilities\, we create an environment for the eavesdropper wherein the appropriate compressed sensing algorithm would provably fail. The intended receiver overcomes this ill-posed prob lem by leveraging secret side information shared between the intended tra nsmitter and receiver. Two scenarios are considered: one for communicatio n over a wireless channel where a novel block-sparsity based signaling st rategy is employed and one for localization where novel structured noise is introduced to degrade the form of the eavesdropper's channel. In the l atter scenario\, the transmitter designs a beamformer that introduces spu rious paths\, or spoofs the line-of-sight path\, in the channel without h aving access to the channel state information. Both far-field and near-fi eld cases are considered for the private localization. In both private co mmunication and private localization\, the amount of secret information t hat must be shared is very modest. Theoretical guarantees can be provided for both cases. Proposed algorithms are validated via numerical results. \n Biography: Urbashi Mitra received the B.S. and the M.S. degrees from the University of California at Berkeley and her Ph.D. from Princeton Uni versity. She began her academic career at Ohio State University. Dr. Mi tra is currently the Gordon S. Marshall Professor in Engineering at the U niversity of Southern California with appointments in Electrical Engineer ing and Computer Science. Dr. Mitra is a Fellow of the IEEE. She was th e inaugural Editor-in-Chief for the IEEE Transactions on Molecular\, Biol ogical and Multi-scale Communications. Dr. Mitra has served as an Associa te or Area Editor for multiple IEEE publications. Dr. Mitra was a member of the IEEE Information Theory Society's Board of Governors (2002-2007\, 2012-2017)\, the IEEE Signal Processing Society's Technical Committee on Signal Processing for Communications and Networks (2012-2017\, Vice-Chai r 2024)\, the IEEE Signal Processing Society's Awards Board (2017-2018)\, and the Chair/Vice Chair of the IEEE Communications Society\, Communicat ion Theory Technical Committee (2017-2020). DURATION:PT1H DTSTAMP:20240313T123831Z DTSTART;TZID=America/New_York:20240322T143000 LAST-MODIFIED:20240313T123831Z LOCATION;X-BEDEWORK-UID=18832e99-20476e5b-0120-58864347-000000be:Fitzpatri ck Center Schiciano Auditorium Side A\, room 1464 STATUS:CONFIRMED SUMMARY:ECE Seminars & Athena Distinguished Speaker - Urbashi Mitra UID:CAL-8a0292fd-8d13410f-018e-19ca5124-000019a1demobedework@mysite.edu X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Main:/user/public-user/Utili ties/Main X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Conference_Symposium:/user/p ublic-user/Lectures_Conferences/Conference_Symposium X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Panel_Seminar_Colloquium:/us er/public-user/Lectures_Conferences/Panel_Seminar_Colloquium X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Engineering:/user/public-use r/Topics/Engineering X-BEDEWORK-SPEAKER:Urbashi Mitra X-BEDEWORK-IMAGE-X1:0 X-BEDEWORK-IMAGE-Y1:0 X-BEDEWORK-IMAGE-X2:530 X-BEDEWORK-IMAGE-Y2:353.3333333333333 X-BEDEWORK-IMAGE-CROP-WIDTH:530 X-BEDEWORK-IMAGE-CROP-HEIGHT:353.3333333333333 X-BEDEWORK-IMAGE-ALT-TEXT:Urbashi Mitra X-BEDEWORK-SUBMITTEDBY:cpr24 for Electrical and Computer Engineering (ECE) (agrp_PrattSchool_ECE) X-BEDEWORK-IMAGE:/public/Images/UrbashiMitraB_crop (002)_20240307044112PM. jpg X-BEDEWORK-THUMB-IMAGE:/public/Images/UrbashiMitraB_crop (002)_20240307044 112PM-thumb.png END:VEVENT BEGIN:VEVENT CATEGORIES:Engineering CATEGORIES:Lectures/Conferences CATEGORIES:Other CATEGORIES:Utilities CATEGORIES:Lecture/Talk CATEGORIES:Panel/Seminar/Colloquium CATEGORIES:Conference/Symposium CATEGORIES:Meeting CATEGORIES:Main CONTACT;X-BEDEWORK-UID=8a0290b4-860465b2-0186-32feb568-0000477d:Spaulding\ , Amy CREATED:20240102T211508Z DESCRIPTION:Thomas Lord Department of Mechanical Engineering & Materials S cience\nSpring 2024 Seminar Series with ROBERT WEBSTER (Vanderbilt)\, "Ca n Needle-Sized Robot Tentacles Help Surgeons Save Lives?"\n\nABSTRACT: Th in\, flexible robots able to bend and elongate can help surgeons reach de eper and more accurately into the human body than ever before\, through i ncreasingly smaller incisions. This talk will cover recent breakthroughs in design\, control\, and sensing that are rapidly pushing the boundaries of surgical robotics to smaller scales\, greater accuracy\, and more eff ective interaction with surgeons. Mechanics-based models of elastic robot s provide the basis for these advancements\, which in turn provide the ra w materials necessary for building effective surgical robotic systems. Th ese systems can offer autonomous\, teleoperated\, or hand-held surgeon-ro bot interactions. The talk will cover both recent advancements in concent ric tube robots and other new ideas in surgical robotics. An important th eme of the talk will be the fascinating process of partnering with surgeo ns to create robots suitable for real-world operating room environments t hat have the potential to be powerful weapons in the fight against lung d isease\, brain tumors\, hemorrhagic stroke\, epilepsy\, deafness\, and ur ologic disorders. \n\n\nBIO: Robert J. Webster III is the Richard A. Sch roeder Professor of Mechanical Engineering at Vanderbilt University. He received his B.S. in electrical engineering from Clemson University in 20 02\, and his M.S. and Ph.D. in mechanical engineering from the Johns Hopk ins University in 2004 and 2007. In 2008\, he joined the mechanical engin eering faculty of Vanderbilt University\, where he currently directs the Medical Engineering and Discovery Laboratory. He founded and serves on th e steering committee for the Vanderbilt Institute for Surgery and Enginee ring\, which brings together physicians and engineers to solve challengin g clinical problems. He is the founder and President of Virtuoso Surgical \, Inc. and EndoTheia\, Inc. which are commercializing technologies inven ted in his laboratory\, and have raised approximately $25M in private cap ital and grant funding to date. Prof. Webster's research interests includ e surgical robotics\, medical device design\, image-guided surgery\, and continuum robotics. DURATION:PT1H DTSTAMP:20240325T130253Z DTSTART;TZID=America/New_York:20240327T120000 LAST-MODIFIED:20240325T130253Z LOCATION;X-BEDEWORK-UID=18832e99-20476e5b-0120-58864347-000000be:Fitzpatri ck Center Schiciano Auditorium Side A\, room 1464 STATUS:CANCELLED SUMMARY:MEMS SEMINAR: Robert Webster\, "Can Needle-Sized Robot Tentacles H elp Surgeons Save Lives?" UID:CAL-8a018ccf-8b87f80e-018c-cc07bfd8-000024f5demobedework@mysite.edu X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Main:/user/public-user/Utili ties/Main X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Conference_Symposium:/user/p ublic-user/Lectures_Conferences/Conference_Symposium X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Lecture_Talk:/user/public-us er/Lectures_Conferences/Lecture_Talk X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Panel_Seminar_Colloquium:/us er/public-user/Lectures_Conferences/Panel_Seminar_Colloquium X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Meeting:/user/public-user/Ot her/Meeting X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Engineering:/user/public-use r/Topics/Engineering X-BEDEWORK-CS;X-BEDEWORK-PARAM-DESCRIPTION="/principals/users/agrp_PrattSc hool,":Pratt School of Engineering X-BEDEWORK-SPEAKER:Robert Webster X-BEDEWORK-DUKE-SERIES:MEMS Seminar Spring 2024 Speaker Series X-BEDEWORK-SUBMITTEDBY:acs2 for Mechanical Engineering and Materials Scien ce (MEMS) (agrp_PrattSchool_MEMS) END:VEVENT BEGIN:VEVENT CATEGORIES:Engineering CATEGORIES:Other CATEGORIES:Utilities CATEGORIES:Alumni/Reunion CATEGORIES:Main CONTACT;X-BEDEWORK-UID=2c918083-7c1b2592-017c-3493015d-00002106:Kane\, Mic haela CREATED:20240327T193632Z DESCRIPTION:The 2024 Duke BME Alumni Panel will feature four distinguished BME alumni who will discuss their time at Duke\, their careers\, and ans wer questions from members of the Duke BME community. DURATION:PT1H DTSTAMP:20240327T193632Z DTSTART;TZID=America/New_York:20240327T133000 LAST-MODIFIED:20240327T193632Z LOCATION;X-BEDEWORK-UID=18832e99-20476e5b-0120-58864347-000000be:Fitzpatri ck Center Schiciano Auditorium Side A\, room 1464 STATUS:CONFIRMED SUMMARY:BME Alumni Panel UID:CAL-8a0292fd-8d13410f-018e-816a03fe-00002f28demobedework@mysite.edu X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Main:/user/public-user/Utili ties/Main X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Alumni_Reunion:/user/public- user/Other/Alumni_Reunion X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Engineering:/user/public-use r/Topics/Engineering X-BEDEWORK-IMAGE-X1:156 X-BEDEWORK-IMAGE-Y1:0 X-BEDEWORK-IMAGE-X2:1675.5 X-BEDEWORK-IMAGE-Y2:1013 X-BEDEWORK-IMAGE-CROP-WIDTH:1519.5 X-BEDEWORK-IMAGE-CROP-HEIGHT:1013 X-BEDEWORK-IMAGE-ALT-TEXT:the 2023 panelists participate in a discussion a bout their experience in Duke BME. X-BEDEWORK-SUBMITTEDBY:mlk47 for Biomedical Engineering (BME) (agrp_PrattS chool_BME) X-BEDEWORK-IMAGE:/public/Images/_JES4931_20240327073632PM.jpg X-BEDEWORK-THUMB-IMAGE:/public/Images/_JES4931_20240327073632PM-thumb.png END:VEVENT BEGIN:VEVENT CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Panel/Seminar/Colloquium CATEGORIES:Main CONTACT;X-BEDEWORK-UID=8a0183a7-83184018-0184-87170e31-00006277:Hinz\, Nic olle CREATED:20240321T142506Z DESCRIPTION:With intricate ridge and valley networks\, natural landscapes shaped by fluvial erosion often exhibit universal scaling laws and self-s imilar behavior. These properties are also displayed by the solutions of landscape evolution modes (LEMs)\, when fluvial erosion dominates over th e smoothing tendency of diffusion (i.e.\, soil creep). Under such conditi ons\, an invariant self-similar regime is reached where the average lands cape properties become independent of the balance between fluvial erosion and soil diffusion. In the vanishing limit\, diffusion remains crucial a nd localized in valleys and ridges where abrupt slope changes occur (as s hock waves). \nWE illustrate how focusing on the essential elements that distinguish landscape evolution\, minimalist LEMs become amenable to dime nsional analysis and other methods of nonlinear field equations\, used fo r example in fluid mechanics and turbulence\, offering fertile ground to unveil distinct dynamic regimes (e.g.\, unchannelized\, from incipient va lley formation\, transitional and statistically self-similar fractal regi me)\, and properly formulate questions related to the existence of steady state solution (as opposed to a situation of space time chaos\, similar to a geomorphological turbulence). We also explore the parallelism betwee n the landscape self-similarity and the self-similarity of fully develope d turbulent flows and discuss challenges for evaluating numerical simulat ion and novel avenues for numerical methods\, as well as ways to bridge b etween spatially discrete models (i.e.\, river networks) and continuous\, partial-differential-equation models.\n\nPorporato\, A. (2022). Hydrolog y without dimensions. Hydrology and Earth System Sciences\, 26(2)\, 355-3 74.\nAnand\, S. K.\, Bertagni\, M. B.\, Drivas\, T. D.\, & Porporato\, A. (2023). Self-similarity and vanishing diffusion in fluvial landscapes. P roceedings of the National Academy of Sciences\, 120(51)\, e2302401120. DURATION:PT1H DTSTAMP:20240321T142506Z DTSTART;TZID=America/New_York:20240329T120000 LAST-MODIFIED:20240321T142506Z LOCATION;X-BEDEWORK-UID=18832e99-20476e5b-0120-58864347-000000be:Fitzpatri ck Center Schiciano Auditorium Side A\, room 1464 STATUS:CONFIRMED SUMMARY:CEE Seminar Self-similarity and vanishing diffusion in fluvial lan dscapes: theoretical and numerical challenges UID:CAL-8a0292fd-8d13410f-018e-6166bc3b-000071abdemobedework@mysite.edu URL:http://cee.duke.edu X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Main:/user/public-user/Utili ties/Main X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Panel_Seminar_Colloquium:/us er/public-user/Lectures_Conferences/Panel_Seminar_Colloquium X-BEDEWORK-SPEAKER:Dr. Amilcare Porporato\, Thomas J. Wu '94 Professor of Civil and Environmental Engineering\, Professor of Civil and Environmenta l Engineering and the High Meadows Environmental Institute\, Princeton Un iversity X-BEDEWORK-DUKE-SERIES:CEE Spring Seminar Series 2024 X-BEDEWORK-SUBMITTEDBY:nh143 for Civil and Environmental Engineering (CEE) (agrp_PrattSchool_CEE) END:VEVENT BEGIN:VEVENT CATEGORIES:Engineering CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Panel/Seminar/Colloquium CATEGORIES:Research CATEGORIES:Main CONTACT;X-BEDEWORK-UID=00f1fcdb-0f068baf-010f-068baf83-00000004:None CREATED:20240229T190213Z DESCRIPTION:Abstract:\nAll-solid-state batteries are regarded as one of th e future energy storage technologies capable of competing with the state- of-the-art Li-ion batteries. Despite tremendous progress\, the performanc e of all-solid-state metal batteries remains unsatisfactory. In this semi nar\, I will present the key challenges confronting all-solid-state batte ries\, ranging from fundamental knowledge gap in understanding major fail ure mechanisms to issues in solid-state battery manufacturing issues. The complex origins of battery failure necessitate multimodal tools capable of quantifying void and dendrites\, identifying chemical and mechanical p roperties and monitoring the processes in situ. We have developed a suite of methods for structural\, chemical\, and mechanical characterizations that include operando-SEM\, ToF-SIMS\, and nanoindentation-based stiffnes s mapping. Materials innovations are equally important. We show how soft organic redox materials could enable intimate interfacial contact with so lid electrolytes under low operating pressure. Additionally\, we have dev eloped an oxysulfide glass electrolyte that forms a thin\, dense\, self-l imiting interphase against Na metal and exhibits a fully dense glass micr ostructure. We investigated the role of an interlayer between a lithium m etal anode and solid electrolyte that prevents lithium dendrite formation and allow reversible lithium plating and stripping over 2500 cycles. Fin ally\, we will discuss our recent efforts in battery manufacturing and th e establishment of a battery prototyping facility at UH. DURATION:PT1H DTSTAMP:20240229T190213Z DTSTART;TZID=America/New_York:20240403T120000 LAST-MODIFIED:20240229T190213Z LOCATION;X-BEDEWORK-UID=18832e99-20476e5b-0120-58864347-000000be:Fitzpatri ck Center Schiciano Auditorium Side A\, room 1464 STATUS:CONFIRMED SUMMARY:DMI/MEMS Seminar Presented by Prof. Yan Yao UID:CAL-8a0292fd-8d13410f-018d-f63ee8c8-00007161demobedework@mysite.edu X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Main:/user/public-user/Utili ties/Main X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Panel_Seminar_Colloquium:/us er/public-user/Lectures_Conferences/Panel_Seminar_Colloquium X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Engineering:/user/public-use r/Topics/Engineering X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Research:/user/public-user/T opics/Research X-BEDEWORK-CS;X-BEDEWORK-PARAM-DESCRIPTION="/principals/users/agrp_Artsand Sciences_Biology,/principals/users/agrp_PrattSchool_BME,/principals/users /agrp_ArtsandSciences_Chemistry,/principals/users/agrp_PrattSchool_CEE,/p rincipals/users/agrp_PrattSchool_ECE,/principals/users/agrp_FitzpatrickIn stitute,/principals/users/agrp__ArtsandSciences_Mathematics,/principals/u sers/agrp_PrattSchool_MEMS,/principals/users/agrp__ArtsandSciences_Physic s,/principals/users/agrp_PrattSchool,":Biology\,Biomedical Engineering (B ME)\,Chemistry\,Civil and Environmental Engineering (CEE)\,Electrical and Computer Engineering (ECE)\,Fitzpatrick Institute for Photonics (FIP)\,M athematics\,Mechanical Engineering and Materials Science (MEMS)\,Physics\ ,Pratt School of Engineering X-BEDEWORK-SPEAKER:Yan Yao X-BEDEWORK-STUDENT-CONTACT;X-BEDEWORK-PARAM-EMAIL=liana.igescu@duke.edu:Li ana Igescu X-BEDEWORK-IMAGE-X1:0 X-BEDEWORK-IMAGE-Y1:0 X-BEDEWORK-IMAGE-X2:1054.5 X-BEDEWORK-IMAGE-Y2:703 X-BEDEWORK-IMAGE-CROP-WIDTH:1054.5 X-BEDEWORK-IMAGE-CROP-HEIGHT:703 X-BEDEWORK-IMAGE-ALT-TEXT:speaker headshoot X-BEDEWORK-SUBMITTEDBY:lmi3 for Duke Materials Initiative (agrp_Institutes _MaterialsScienceandEngineering) X-BEDEWORK-IMAGE:/public/Images/Yao Yan_Duke calendar_20240229070214PM.png X-BEDEWORK-THUMB-IMAGE:/public/Images/Yao Yan_Duke calendar_20240229070214 PM-thumb.png END:VEVENT BEGIN:VEVENT CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Panel/Seminar/Colloquium CATEGORIES:Main CONTACT;X-BEDEWORK-UID=8a0183a7-83184018-0184-87170e31-00006277:Hinz\, Nic olle CREATED:20240328T155632Z DESCRIPTION:Chronic\, non-healing wounds affect over 6 million Americans. Chronic wounds are often associated with bacterial and biofilm infections and have significantly impaired healing\, accounting for an estimated $2 5 billion annual burden on the US healthcare system. In wound infections\ , biofilms are bacterial communities encased in an extracellular polymeri c substance (EPS) adherent to biotic or abiotic surfaces. Treatment of bi ofilms is challenging based on their recalcitrant behavior towards antimi crobials and host-defenses due to the multi-factorial evasion strategies. Our team has developed a silk-based\, printed\, flexible electroceutical dressing that not only disinfects wounds by killing bacterial biofilms b ut also has shown evidence for healing chronic injuries in animal models. Additionally\, our electroceutical dressing inhibits formation of biofil ms in laboratory-scale gel models. Moreover\, our electroceutical\, Smart Platform for Engineered Electroceutical Dressings (SPEEDs)\, works with a disposable battery pack to provide a constant potential power source fo r direct current (DC) flow making it suitable for a small-form factor\, l ight-weight\, and portable system. SPEEDs have also been integrated with impedance sensing to remotely monitor wound state. We have evaluated SPEE Ds extensively\, both in vitro and in vivo. In vitro evaluation shows bac terial biofilms grown on agar gel (Pseudomonas aeruginosa and Staphylococ cus aureus) were killed with a 24-hour continuous treatment with SPEEDs. The SPEEDs were also found to be effective in eliminating antibiotic tole rant bacteria. In vivo\, SPEEDs were used to treat chronic\, infected wou nds in a cat and a dog that remained open with antibiotic resistant bacte ria. In mechanistic mouse studies with dermal injury and infection\, SPEE Ds was the most effective in reducing both wound infection and wound area (> 60% reduction in wound area over 8-days of treatment)\, and observed re-epithelialization of the wounds (> 20% in 8-days) in contrast to untre ated (natural infection management and healing) controls. DURATION:PT1H DTSTAMP:20240328T155632Z DTSTART;TZID=America/New_York:20240405T120000 LAST-MODIFIED:20240328T155632Z LOCATION;X-BEDEWORK-UID=18832e99-20476e5b-0120-58864347-000000be:Fitzpatri ck Center Schiciano Auditorium Side A\, room 1464 STATUS:CONFIRMED SUMMARY:CEE Seminar Engineering Devices for Treatment and Understanding of Chronic Wound Disinfection and Healing UID:CAL-8a0292fd-8d13410f-018e-85c6f57e-000060d2demobedework@mysite.edu URL:http://cee.duke.edu X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Main:/user/public-user/Utili ties/Main X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Panel_Seminar_Colloquium:/us er/public-user/Lectures_Conferences/Panel_Seminar_Colloquium X-BEDEWORK-SPEAKER:Shaurya Prakash\, Department of Mechanical and Aerospac e Engineering\, The Ohio State University X-BEDEWORK-DUKE-SERIES:CEE Spring Seminar Series 2024 X-BEDEWORK-SUBMITTEDBY:nh143 for Civil and Environmental Engineering (CEE) (agrp_PrattSchool_CEE) END:VEVENT BEGIN:VEVENT CATEGORIES:Engineering CATEGORIES:Lectures/Conferences CATEGORIES:Other CATEGORIES:Utilities CATEGORIES:Lecture/Talk CATEGORIES:Panel/Seminar/Colloquium CATEGORIES:Conference/Symposium CATEGORIES:Meeting CATEGORIES:Main CONTACT;X-BEDEWORK-UID=8a0290b4-860465b2-0186-32feb568-0000477d:Spaulding\ , Amy CREATED:20240104T220026Z DESCRIPTION:Thomas Lord Department of Mechanical Engineering Spring 2024 S eminar Series welcomes Neil Dasgupta (Univ. of Michigan) to give the MEMS Seminar lecture on "Electo-Chemo-Mechanical Phenomena in Solid State Bat teries."\n\nABSTRACT: Solid-state batteries have seen a dramatic increase in research in recent years because of their ability to address safety c hallenges associated with flammable liquid electrolytes\, and the potenti al to enable high-energy-density electrodes including Li metal anodes. Ho wever\, the formation of solid-solid interfaces in a battery poses unique challenges compared to solid-liquid interfaces\, many of which center ar ound the unique coupling of mechanical stresses and strains to thermodyna mic\, kinetic\, and transport phenomena. This requires new methods to stu dy the fundamental behavior of solid-state electrochemical interfaces\, a nd understand their dynamic evolution during cycling.\n\nBIO: NEIL DASGUP TA is an Associate Professor in the Departments of Mechanical Engineering and Materials Science & Engineering at the University of Michigan. He is the Deputy Director of the U.S. Department of Energy\, Energy Frontier R esearch Center (EFRC) MUSIC: Mechano-Chemical Understanding of Solid-Ion Conductors. He earned his Ph.D. from Stanford University in 2011. Prior t o joining University of Michigan in 2014\, he was a postdoctoral fellow a t the University of California\, Berkeley. He is a recipient of the NSF C AREER award\, DARPA Young Faculty Award (YFA)\, and AFOSR Young Investiga tor Award (YIP). His research focuses on the intersection of materials ch emistry\, energy conversion\, and manufacturing. DURATION:PT1H DTSTAMP:20240213T211145Z DTSTART;TZID=America/New_York:20240410T120000 LAST-MODIFIED:20240213T211145Z LOCATION;X-BEDEWORK-UID=18832e99-20476e5b-0120-58864347-000000be:Fitzpatri ck Center Schiciano Auditorium Side A\, room 1464 STATUS:CONFIRMED SUMMARY:MEMS Seminar: Neil Dasgupta\, "Electro-Chemo-Mechanical Phenomena in Solid State Batteries" UID:CAL-8a018ccf-8b87f80e-018c-d67def0d-00001226demobedework@mysite.edu X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Main:/user/public-user/Utili ties/Main X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Conference_Symposium:/user/p ublic-user/Lectures_Conferences/Conference_Symposium X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Lecture_Talk:/user/public-us er/Lectures_Conferences/Lecture_Talk X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Panel_Seminar_Colloquium:/us er/public-user/Lectures_Conferences/Panel_Seminar_Colloquium X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Meeting:/user/public-user/Ot her/Meeting X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Engineering:/user/public-use r/Topics/Engineering X-BEDEWORK-CS;X-BEDEWORK-PARAM-DESCRIPTION="/principals/users/agrp_PrattSc hool,":Pratt School of Engineering X-BEDEWORK-SPEAKER:Neil Dasgupta X-BEDEWORK-DUKE-SERIES:MEMS Seminar Spring 2024 Speaker Series X-BEDEWORK-SUBMITTEDBY:acs2 for Mechanical Engineering and Materials Scien ce (MEMS) (agrp_PrattSchool_MEMS) END:VEVENT BEGIN:VEVENT CATEGORIES:Engineering CATEGORIES:Other CATEGORIES:Utilities CATEGORIES:Alumni/Reunion CATEGORIES:Main CONTACT;X-BEDEWORK-UID=2c918083-7c1b2592-017c-3493015d-00002106:Kane\, Mic haela CREATED:20240327T195307Z DESCRIPTION:The 2024 Duke BME Alumni Panel will feature four distinguished BME alumni who will discuss their time at Duke\, their careers\, and ans wer questions from current faculty\, staff\, and students. DURATION:PT1H DTSTAMP:20240327T195307Z DTSTART;TZID=America/New_York:20240412T133000 LAST-MODIFIED:20240327T195307Z LOCATION;X-BEDEWORK-UID=18832e99-20476e5b-0120-58864347-000000be:Fitzpatri ck Center Schiciano Auditorium Side A\, room 1464 STATUS:CONFIRMED SUMMARY:BME Alumni Panel UID:CAL-8a0292fd-8d13410f-018e-817932ed-00002f8fdemobedework@mysite.edu X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Main:/user/public-user/Utili ties/Main X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Alumni_Reunion:/user/public- user/Other/Alumni_Reunion X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Engineering:/user/public-use r/Topics/Engineering X-BEDEWORK-IMAGE-X1:172 X-BEDEWORK-IMAGE-Y1:21 X-BEDEWORK-IMAGE-X2:1659 X-BEDEWORK-IMAGE-Y2:1012.3333333333334 X-BEDEWORK-IMAGE-CROP-WIDTH:1487 X-BEDEWORK-IMAGE-CROP-HEIGHT:991.3333333333334 X-BEDEWORK-IMAGE-ALT-TEXT:Alumni participate in the 2023 BME alumni panel X-BEDEWORK-SUBMITTEDBY:mlk47 for Biomedical Engineering (BME) (agrp_PrattS chool_BME) X-BEDEWORK-IMAGE:/public/Images/_JES4931_20240327075307PM.jpg X-BEDEWORK-THUMB-IMAGE:/public/Images/_JES4931_20240327075307PM-thumb.png END:VEVENT END:VCALENDAR