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CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Panel/Seminar/Colloquium CATEGORIES:Main CONTACT;X-BEDEWORK-UID=18832e99-20476e5b-0120-587daa86-000000bc:Burns\, Au gust CREATED:20180122T163218Z DESCRIPTION:Dr. Jyrki Saarinen is Professor on Photonics Applications and Commercialization and Head of the Institute of Photonics at UEF\, Finland . He also holds an MBA. Previously he founded and built a high-tech compa ny with over 1000 employees and operations in Singapore\, Switzerland\, a nd Silicon Valley\, where he lived seven years. Today he continues as por tfolio entrepreneur. He is President at Photonics Finland.\nJuha Purmonen is executive director of the Photonics Finland association. He is also a development manager at Joensuu Science Park. With both scientific and bu siness background\, Juha has over 15 years' experience in a variety of pr ojects\, e.g. development and sales experience from the wide global busin ess sectors. Juha started his carrier as software engineer focused on cry ptography solutions. Later on\, he concentrated spectral color research a nd was spectral color researcher at University of Eastern Finland. Juha i s a co-founder of image processing Company SoftColor Ltd that won the pre sident of Finland granted INNOFINLAND prize in 2005. He is responsible fo r the development of photonics business activities. DURATION:PT1H DTSTAMP:20180122T163218Z DTSTART;TZID=America/New_York:20180124T120000 LAST-MODIFIED:20180122T163218Z LOCATION;X-BEDEWORK-UID=18832edc-1b27e154-011b-2825f3ad-0000002f:Fitzpatri ck Center Schiciano Auditorium Side B\, room 1466 STATUS:CONFIRMED SUMMARY:FIP Seminar: Photonics research and industry in Finland UID:CAL-2c918084-6106a128-0161-1eb698fa-00000edademobedework@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:Dr. Jyrki Saarinen\, Professor on Photonics Application s and Commercialization\, Head of the Institute of Photonics at UEF\, Fin land and Juha Purmonen\, executive director of the Photonics Finland asso ciation X-BEDEWORK-SUBMITTEDBY:ahb11 for Fitzpatrick Institute for Photonics (FIP) (agrp_FitzpatrickInstitute) END:VEVENT BEGIN:VEVENT CATEGORIES:Engineering CATEGORIES:Lectures/Conferences CATEGORIES:Other CATEGORIES:Utilities CATEGORIES:Health/Wellness CATEGORIES:Lecture/Talk CATEGORIES:Academic Calendar Dates CATEGORIES:Research CATEGORIES:Technology CATEGORIES:Information Session CATEGORIES:Main CATEGORIES:Free Food and Beverages CATEGORIES:Announcement CONTACT;X-BEDEWORK-UID=2c918084-5da938ca-015d-c8650fdc-00007337:Loucka\, C hristina CREATED:20180109T195914Z DESCRIPTION:Abstract: Light microscopy remains a central tool for biologic al discovery and disease diagnosis. Direct imaging of host cells and path ogens in culture as well as in blood\, sputum\, and stool samples can pro vide a rapid and definitive diagnosis of a broad range of diseases\, as w ell as advance fundamental biological studies. However\, microscopy typic ally requires advanced equipment and skilled users not routinely availabl e outside of well-equipped laboratories and hospitals. In recent years\, mobile phones have been converted into light microscopes with the ability to capture biological samples in the field and resolve causative agents of disease. The increasing computational power of mobile phones has also opened possibilities for automated imaging and analysis. This talk with d escribe ongoing work that combines mobile phone microscopy with both hard ware and software engineering to expand the uses of light microscopy\, wi th applications to global health and immunology.\nDr. Dan Fletcher is the Chatterjee Professor of Bioengineering & Biophysics at UC Berkeley\, whe re he also serves as Chair of the Bioengineering Department and Chief Tec hnologist of the Blum Center for Developing Economies. He and his laborat ory study the mechanics of cell motility and signaling\, the biology of i nfectious diseases\, and the development of optical and microfluidic tech nologies. Dr. Fletcher received a B.S. from Princeton University\, a D.Ph il. from Oxford University where he was a Rhodes Scholar. DURATION:PT1H DTSTAMP:20180123T193515Z DTSTART;TZID=America/New_York:20180202T120000 LAST-MODIFIED:20180123T193515Z LOCATION;X-BEDEWORK-UID=18832edc-1b27e154-011b-2825f3ad-0000002f:Fitzpatri ck Center Schiciano Auditorium Side B\, room 1466 STATUS:CONFIRMED SUMMARY:"Pocket Doctors: Disease Diagnosis with Mobile Phones" UID:CAL-2c918082-60da6f02-0160-dc8160f7-00001ddademobedework@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=Academic Calendar Dates:/use r/public-user/Other/Academic Calendar Dates X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Announcement:/user/public-us er/Other/Announcement X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Free Food and Beverages:/use r/public-user/Other/Free Food and Beverages X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Information Session:/user/pu blic-user/Other/Information Session X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Engineering:/user/public-use r/Topics/Engineering X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Health_Wellness:/user/public -user/Topics/Health_Wellness X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Research:/user/public-user/T opics/Research X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Technology:/user/public-user /Topics/Technology X-BEDEWORK-CS;X-BEDEWORK-PARAM-DESCRIPTION="/principals/users/agrp_DukeGlo balHealthInstitute,/principals/users/agrp_SchoolofMedicine_Immunology,/pr incipals/users/agrp_PrattSchool,/principals/users/agrp_SchoolofMedicine,/ principals/users/agrp_ArtsandSciences_TrinityCollegeAcademicCalendar,":Du ke Global Health Institute (DGHI)\,Immunology\,Pratt School of Engineerin g\,School of Medicine (SOM)\,Trinity College Academic Calendar X-BEDEWORK-SPEAKER:Dr. Daniel A. Fletcher X-BEDEWORK-DUKE-SERIES:BME Distinguished Seminar Series X-BEDEWORK-IMAGE-X1:0 X-BEDEWORK-IMAGE-Y1:0 X-BEDEWORK-IMAGE-X2:810 X-BEDEWORK-IMAGE-Y2:540 X-BEDEWORK-IMAGE-CROP-WIDTH:810 X-BEDEWORK-IMAGE-CROP-HEIGHT:540 X-BEDEWORK-IMAGE-ALT-TEXT:Dan Fletcher Ad X-BEDEWORK-SUBMITTEDBY:cll14 for Biomedical Engineering (BME) (agrp_PrattS chool_BME) X-BEDEWORK-IMAGE:/public/Images/bme-seminar-ad-template-Fletcher_201801090 25813PM.jpg X-BEDEWORK-THUMB-IMAGE:/public/Images/bme-seminar-ad-template-Fletcher_201 80109025813PM-thumb.png END:VEVENT BEGIN:VEVENT CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Lecture/Talk CATEGORIES:Main CONTACT;X-BEDEWORK-UID=18832e99-251bf27f-0125-4ac22ae4-00000527:King\, Pam ela CREATED:20180122T190901Z DESCRIPTION:Abstract: The ability to interconvert information between elec tronic and biologic systems has already transformed our ability to record and actuate biological function (e.g.\, EEG\, EKG\, defibrillators). In parallel\, we have begun to demand biological connectivity from electron ic consumer products (fitbit\, cell phones\, etc.). There are significant gaps\, however\, that must be overcome before biological information can be seamlessly conveyed and before biological function can be electronica lly "programmed". A communication gap exists whereby the common vectors f or information flow in biology are ions and molecules\; they are electron s and photons in electronics. Since there are essentially no "free" elect rons in biological systems\, there is essentially no direct "translator" of electrons to molecules and vice versa. Gaining access to molecular com munication is essential as molecules are the primary vector that drives b iological function. There is also a fabrication gap to overcome. It is di fficult to construct microelectronic devices that include labile biologic al components. We are developing tools of "biofabrication" that enable fa cile assembly of biological components within devices that preserve their native biological function. By recognizing that biological redox active molecules are a biological equivalent of an electron-carrying wire\, we h ave developed biological surrogates for electronic devices\, including a biological redox capacitor. DURATION:PT1H DTSTAMP:20180126T153126Z DTSTART;TZID=America/New_York:20180208T120000 LAST-MODIFIED:20180126T153126Z LOCATION;X-BEDEWORK-UID=18832edc-1b27e154-011b-2825f3ad-0000002f:Fitzpatri ck Center Schiciano Auditorium Side B\, room 1466 STATUS:CONFIRMED SUMMARY:BioE Seminar: Communicating with and Controlling Biology via Biofa brication\, Synthetic Biology\, and Microelectronics UID:CAL-2c918084-6106a128-0161-1f46141f-00002b27demobedework@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-SPEAKER:William Bentley\, Ph.D.\, Chair and Professor\, Departm ent of Chemical and Biomolecular Engineering\, University of Maryland X-BEDEWORK-SUBMITTEDBY:king0054 for Center for Biomolecular and Tissue Eng ineering (CBTE) (agrp_PrattSchool_CBTE) END:VEVENT BEGIN:VEVENT CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Lecture/Talk CATEGORIES:Main CONTACT;X-BEDEWORK-UID=18832edc-1b31c518-011b-40a23061-00000095:Hester\, G lenda CREATED:20180208T134453Z DESCRIPTION:With the rapid progress in robotics\, people expect robots to be able to accomplish a wide variety of tasks in the real world\, such as working in factories\, performing household chores\, and caring for elde rly. However\, it is still very difficult for robots to act in the physic al world. A major challenge lies in the lack of adequate tactile sensing. Progress requires advances in the sensing hardware\, but also requires a dvances in the software that can exploit the tactile signals generated wh en the robot touches an object. The sensor we use is a vision-based tacti le sensor called GelSight\, which measures the geometry and traction fiel d of the contact surface. For interpreting the high-resolution tactile si gnal\, we utilize both traditional statistical models and deep neural net works.\n\nI will describe research on two kinds of tasks: exploration and manipulation. For exploration\, I use active touch to estimate the physi cal properties of the objects. The work has included learning the basic p roperties (e.g.\, hardness)\, of artificial objects\, as well as estimati ng the general properties of natural objects via autonomous tactile explo ration. For manipulation\, I study the robot's ability to detect slip or incipient slip with tactile sensing during grasping. My research helps r obots to better understand and flexibly interact with the physical world. DURATION:PT1H DTSTAMP:20180208T134657Z DTSTART;TZID=America/New_York:20180212T120000 LAST-MODIFIED:20180208T134657Z LOCATION;X-BEDEWORK-UID=18832edc-1b27e154-011b-2825f3ad-0000002f:Fitzpatri ck Center Schiciano Auditorium Side B\, room 1466 STATUS:CONFIRMED SUMMARY:Making Sense of the Physical World with High-resolution Tactile Se nsing UID:CAL-2c918086-6154f6a2-0161-75a96e01-000049fedemobedework@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-SPEAKER:Wenzhen Yuan X-BEDEWORK-SUBMITTEDBY:ghester for Mechanical Engineering and Materials Sc ience (MEMS) (agrp_PrattSchool_MEMS) END:VEVENT BEGIN:VEVENT CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Lecture/Talk CATEGORIES:Main CONTACT;X-BEDEWORK-UID=18832edc-1b31c518-011b-40a23061-00000095:Hester\, G lenda CREATED:20180209T161637Z DESCRIPTION:In this talk\, I will present two mobile robotic platforms wit h organic components. The first system combines electrocompacted and alig ned collagen with primary avian muscle cells to create completely organic locomoting machines. The second system establishes the marine sea slug A plysia californica as a novel source of materials for biohybrid robot dev elopment\, and investigates the use of clusters of neurons as organic mot or controllers. I will additionally present techniques for rapid simulati on of biohybrid devices using commercially available finite element analy sis tools. Such robotic systems have future applications in medicine\, se arch and rescue\, and environmental monitoring of sensitive environments (e.g. coral reefs). DURATION:PT1H DTSTAMP:20180209T161637Z DTSTART;TZID=America/New_York:20180220T120000 LAST-MODIFIED:20180209T161637Z LOCATION;X-BEDEWORK-UID=18832edc-1b27e154-011b-2825f3ad-0000002f:Fitzpatri ck Center Schiciano Auditorium Side B\, room 1466 STATUS:CONFIRMED SUMMARY:Organismal Engineering for Next Generation Trainable\, Autonomous Systems UID:CAL-2c918086-6154f6a2-0161-7b5ab800-00007771demobedework@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-SPEAKER:Victoria Webster-Wood X-BEDEWORK-SUBMITTEDBY:ghester for Mechanical Engineering and Materials Sc ience (MEMS) (agrp_PrattSchool_MEMS) END:VEVENT BEGIN:VEVENT CATEGORIES:Other CATEGORIES:Utilities CATEGORIES:Training CATEGORIES:Workshop/Short Course CATEGORIES:Main CATEGORIES:Student CONTACT;X-BEDEWORK-UID=00f1fcdb-0f068baf-010f-068baf83-00000004:None CREATED:20180130T200246Z DESCRIPTION:Are you considering doing a postdoc after graduation? A postdo c is a temporary position that helps you to build skills and resources\, gain independence\, and develop a professional network in order to obtain a full-time position. Most students are familiar with academic research postdocs\, but did you know that there are also postdoctoral positions th at involve teaching or working in industry R&D? In this workshop\, we wil l discuss how to conduct a postdoc search\, how to find positions\, what to look for in a postdoc experience\, and how to apply.\n\n*Register by c licking More Information below. DURATION:PT1H30M DTSTAMP:20180130T200246Z DTSTART;TZID=America/New_York:20180221T140000 LAST-MODIFIED:20180130T200246Z LOCATION;X-BEDEWORK-UID=18832edc-1b27e154-011b-2825f3ad-0000002f:Fitzpatri ck Center Schiciano Auditorium Side B\, room 1466 STATUS:CONFIRMED SUMMARY:Postdoc Search for STEM Graduate Students UID:CAL-2c918084-613c4fe3-0161-48aa2be1-0000206bdemobedework@mysite.edu URL:https://duke.qualtrics.com/jfe/form/SV_72pHvDUm8an6bLn X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Student:/user/public-user/Ut ilities/Student X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Main:/user/public-user/Utili ties/Main X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Training:/user/public-user/O ther/Training X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Workshop_Short_Course:/user/ public-user/Other/Workshop_Short_Course X-BEDEWORK-CS;X-BEDEWORK-PARAM-DESCRIPTION="/principals/users/agrp_Graduat eSchool,/principals/users/agrp_OfficeofPostdoctoralServices,":Graduate Sc hool\,Office of Postdoctoral Services X-BEDEWORK-STUDENT-CONTACT;X-BEDEWORK-PARAM-EMAIL=career-student@studentaf fairs.duke.edu:Career Center X-BEDEWORK-IMAGE-X1:0 X-BEDEWORK-IMAGE-Y1:-0.3333333333333144 X-BEDEWORK-IMAGE-X2:530 X-BEDEWORK-IMAGE-Y2:353 X-BEDEWORK-IMAGE-CROP-WIDTH:530 X-BEDEWORK-IMAGE-CROP-HEIGHT:353.3333333333333 X-BEDEWORK-IMAGE-ALT-TEXT:Postdoc Search for STEM Graduate Students X-BEDEWORK-SUBMITTEDBY:jnt14 for Career Center (agrp_StudentAffairs_Career Center) X-BEDEWORK-IMAGE:/public/Images/Workshop_20180130030246PM.gif X-BEDEWORK-THUMB-IMAGE:/public/Images/Workshop_20180130030246PM-thumb.png END:VEVENT BEGIN:VEVENT CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Lecture/Talk CATEGORIES:Main CONTACT;X-BEDEWORK-UID=18832e99-251bf27f-0125-4ac22ae4-00000527:King\, Pam ela CREATED:20180122T191220Z DESCRIPTION:Abstract: Advances in the field of tissue engineering are incr easingly reliant on biomaterials that instruct\, rather than simply permi t\, a desired cellular response. Instructive biomaterials hold significan t promise for clinical applications as well as to enable mechanistic stud ies in the laboratory. As tissues can be dynamic\, spatially-patterned\, or inhomogeneous over multiple length and time scales\, my lab is develop ing new approaches to engineer biomaterials at the structural and biomole cular level in order to replicate these heterogeneities. These efforts ar e providing new insight regarding the degree of biomaterial complexity re quired to instruct cell behavior in the context of development\, disease\ , and regeneration. I will describe a collagen biomaterial under developm ent to address current barriers preventing regeneration of musculoskeleta l tissues such as the osteotendinous (tendon-bone) junction and craniofac ial bones. Here we use inspiration from nature (e.g.\, porcupine quills\, honeycombs\, and plant stems) to better co-optimize bioactivity and mech anical competence. I will subsequently describe a microfluidic forming te chnique to create libraries of optically-translucent hydrogels containing overlapping patterns of cell\, matrix\, and biomolecule cues. We are usi ng this platform to explore the coordinated impact of cell and matrix sig nals on niche-mediated regulation of hematopoietic stem cell fate and mal ignancy and therapeutic response of glioblastoma. DURATION:PT1H DTSTAMP:20180209T151518Z DTSTART;TZID=America/New_York:20180222T120000 LAST-MODIFIED:20180209T151518Z LOCATION;X-BEDEWORK-UID=18832edc-1b27e154-011b-2825f3ad-0000002f:Fitzpatri ck Center Schiciano Auditorium Side B\, room 1466 STATUS:CONFIRMED SUMMARY:BioE Seminar: Engineering Complexity via Biomaterials Design UID:CAL-2c918084-6106a128-0161-1f491f1a-00002bc8demobedework@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-SPEAKER:Brendan Harley\, Associate Professor\, Department of Ch emical aand Biomolecular Engineering\, University of Illinois at Urbana-C hampaign X-BEDEWORK-SUBMITTEDBY:king0054 for Center for Biomolecular and Tissue Eng ineering (CBTE) (agrp_PrattSchool_CBTE) END:VEVENT BEGIN:VEVENT CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Lecture/Talk CATEGORIES:Main CONTACT;X-BEDEWORK-UID=2c918084-5e4b21a8-015e-58c962eb-000011ef:Rockwell\, Kelly CREATED:20180208T204923Z DESCRIPTION:Joe Le Doux is an Associate Professor and the Associate Chair for Undergraduate Learning and Experience in the Wallace H. Coulter Depar tment of Biomedical Engineering at Georgia Tech and Emory University. Ea rly in his career\, Dr. Le Doux engineered viruses to improve their abili ty to transfer genes to cells for the purpose of human gene therapy. He has since shifted his research focus to the learning sciences and enginee ring education. Dr. Le Doux's current projects are focused on creating in teractive learning environments\, fostering entrepreneurial mindset throu gh reflection and personal narrative\, and promoting inclusion in enginee ring education. He has received several awards for his excellence in teac hing including Georgia Tech's 2005 Educational Partnership Award\, 2014 W omen in Engineering Teaching Excellence Award\, and 2017 Curriculum Innov ation Award. Dr. Le Doux's Bachelor's and Master's degrees are in Chemica l Engineering from Cornell University and he holds a Ph.D. in Chemical an d Biochemical Engineering from Rutgers University. DURATION:PT1H DTSTAMP:20180208T204923Z DTSTART;TZID=America/New_York:20180226T120000 LAST-MODIFIED:20180208T204923Z LOCATION;X-BEDEWORK-UID=18832edc-1b27e154-011b-2825f3ad-0000002f:Fitzpatri ck Center Schiciano Auditorium Side B\, room 1466 STATUS:CONFIRMED SUMMARY:Why I mostly (stopped) lecturing and why you (probably) should too ! UID:CAL-2c918086-6154f6a2-0161-772e1234-00005aaademobedework@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-SPEAKER:Joe Le Doux\, Ph.D. X-BEDEWORK-SUBMITTEDBY:kar81 for Pratt School of Engineering (agrp_PrattSc hool) END:VEVENT BEGIN:VEVENT CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Panel/Seminar/Colloquium CATEGORIES:Main CONTACT;X-BEDEWORK-UID=18832e99-20476e5b-0120-587daa86-000000bc:Burns\, Au gust CREATED:20180221T184955Z DESCRIPTION:Optical methods enable non-destructive\, quantitative\, longit udinal monitoring of tissue\, in vivo. This enables dynamic imaging of a variety of physiologic and molecular sources of contrast. I will describe in vivo optical techniques applicable to two different settings. Intravi tal imaging using hyperspectral and fluorescence imaging in window chambe r models allows the wide range of available optical microscopy techniques to be applied to living tissues. The acquisition and analysis of three t ypes of functional information will be discusses: 1) hemodynamic paramete rs\, including oxygen saturation and blood flow\, 2) oxygen sensing nanop articles for assessment of tissue hypoxia\, and 3) fluorescent reporters for cell tracking and gene expression. These enable quantitative assessme nt of oxygen supply and consumption\, including fluctuating hypoxia in tu mors. In an additional application\, blood transfusion relies on stored b lood delivered to patients to enhance oxygen delivery e.g. following surg ery or traumatic injury. Optical techniques present an ideal modality to study in vivo the real time effects of transfusion\, including tissue oxy genation\, cell adhesion\, and vasomotion. The combination of these tools facilitates a more complete characterization of tissue physiology and mo lecular responses\, and how these interplay to influence response to ther apy. DURATION:PT1H DTSTAMP:20180221T184955Z DTSTART;TZID=America/New_York:20180228T120000 LAST-MODIFIED:20180221T184955Z LOCATION;X-BEDEWORK-UID=18832edc-1b27e154-011b-2825f3ad-0000002f:Fitzpatri ck Center Schiciano Auditorium Side B\, room 1466 STATUS:CONFIRMED SUMMARY:FIP Seminar: "Quantification of oxygenation and vascular function in tumor and normal tissues using intravital microscopy" UID:CAL-2c918086-6154f6a2-0161-b9b35f04-000007b4demobedework@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:Dr. Greg Palmer\, Associate Professor of Radiation Onco logy\, Duke University School of Medicine X-BEDEWORK-SUBMITTEDBY:ahb11 for Fitzpatrick Institute for Photonics (FIP) (agrp_FitzpatrickInstitute) END:VEVENT BEGIN:VEVENT CATEGORIES:Teaching & Classroom Learning CATEGORIES:Engineering CATEGORIES:Lectures/Conferences CATEGORIES:Other CATEGORIES:Utilities CATEGORIES:Health/Wellness CATEGORIES:Lecture/Talk CATEGORIES:Panel/Seminar/Colloquium CATEGORIES:Academic Calendar Dates CATEGORIES:Research CATEGORIES:Technology CATEGORIES:Main CATEGORIES:Free Food and Beverages CATEGORIES:Announcement CONTACT;X-BEDEWORK-UID=2c918084-5da938ca-015d-c8650fdc-00007337:Loucka\, C hristina CREATED:20180213T202036Z DESCRIPTION:Abstract: The blood-brain barrier (BBB) is critical in mainta ining brain homeostasis and disrupted BBB is associated with many neurolo gical diseases. The BBB consists of brain microvascular endothelial cells (BMECs) that line the brain vasculature and astrocytes\, neurons and per icytes which regulate BMEC function as part of the neurovascular unit (NV U). We have developed methods to differentiate human induced pluripotent stem cells (iPSCs) to each of the neurovascular unit cell types and combi ned these to construct an in vitro model of the human BBB that displays p hysiologic barrier function and BBB-specific active transporter expressio n. We can generate BMECs that progress through mesoderm and endothelial progenitors by activating Wnt and retinoic acid signaling at appropriate differentiation stages while brain specific pericytes arise from iPSC-der ived neural crest progenitors. Using patient-specific iPSCs\, we demonst rated that MCT8 thyroid hormone transporter is necessary for thyroid horm one transport across the BBB\, suggesting that MCT8 deficiency affects ne uronal development by slowing thyroid hormone transport into the brain. We anticipate this isogenic model of the BBB will have applications in fu rthering our understanding of intercellular interactions in the NVU in bo th healthy and diseased humans. DURATION:PT1H DTSTAMP:20180213T213013Z DTSTART;TZID=America/New_York:20180228T130000 LAST-MODIFIED:20180213T213013Z LOCATION;X-BEDEWORK-UID=18832edc-1b27e154-011b-2825f3ad-0000002f:Fitzpatri ck Center Schiciano Auditorium Side B\, room 1466 STATUS:CONFIRMED SUMMARY:Engineering a Human Blood Brain Barrier Model from Induced Pluripo tent Stem Cells for Disease Modeling and Drug Discovery UID:CAL-2c918086-6154f6a2-0161-90d38535-0000751cdemobedework@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=Lecture_Talk:/user/public-us er/Lectures_Conferences/Lecture_Talk X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Academic Calendar Dates:/use r/public-user/Other/Academic Calendar Dates X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Announcement:/user/public-us er/Other/Announcement X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Free Food and Beverages:/use r/public-user/Other/Free Food and Beverages X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Engineering:/user/public-use r/Topics/Engineering X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Health_Wellness:/user/public -user/Topics/Health_Wellness X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Research:/user/public-user/T opics/Research X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Technology:/user/public-user /Topics/Technology X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME="Teaching &amp; Classroo m Learning":/user/public-user/Topics/Teaching Classroom Learning X-BEDEWORK-CS;X-BEDEWORK-PARAM-DESCRIPTION="/principals/users/agrp_Schoolo fMedicine_CMB,/principals/users/agrp_SchoolofMedicine_CellBiology,/princi pals/users/agrp_SOM_ClinDep_Medicine,/principals/users/agrp_PrattSchool,/ principals/users/agrp_SchoolofMedicine,":Cell &\;amp\; Molecular Biolo gy (CMB)\,Cell Biology\,Department of Medicine\,Pratt School of Engineeri ng\,School of Medicine (SOM) X-BEDEWORK-SPEAKER:Dr. Sean P. Palecek - University of Wisconsin X-BEDEWORK-DUKE-SERIES:BME Seminar X-BEDEWORK-IMAGE-X1:11 X-BEDEWORK-IMAGE-Y1:0 X-BEDEWORK-IMAGE-X2:821 X-BEDEWORK-IMAGE-Y2:540 X-BEDEWORK-IMAGE-CROP-WIDTH:810 X-BEDEWORK-IMAGE-CROP-HEIGHT:540 X-BEDEWORK-IMAGE-ALT-TEXT:Sean Palecek X-BEDEWORK-SUBMITTEDBY:cll14 for Biomedical Engineering (BME) (agrp_PrattS chool_BME) X-BEDEWORK-IMAGE:/public/Images/bme-seminar-ad-template-Sean Palecek_20180 213032036PM.jpg X-BEDEWORK-THUMB-IMAGE:/public/Images/bme-seminar-ad-template-Sean Palecek _20180213032036PM-thumb.png END:VEVENT BEGIN:VEVENT CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Lecture/Talk CATEGORIES:Panel/Seminar/Colloquium CATEGORIES:Main CONTACT;X-BEDEWORK-UID=18832edc-1b31c518-011b-40a23061-00000095:Hester\, G lenda CREATED:20180222T181845Z DESCRIPTION:In this talk\, I will present several nanomaterials that can m anage photons and heat transfer to enhance building energy efficiency and personal health in an unconventionally effective way. DURATION:PT1H DTSTAMP:20180228T151433Z DTSTART;TZID=America/New_York:20180302T130000 LAST-MODIFIED:20180228T151433Z LOCATION;X-BEDEWORK-UID=18832edc-1b27e154-011b-2825f3ad-0000002f:Fitzpatri ck Center Schiciano Auditorium Side B\, room 1466 STATUS:CONFIRMED SUMMARY:Light- and heat-managing nanomaterials for personal health and ene rgy efficiency UID:CAL-2c918086-6154f6a2-0161-bebd318e-0000371fdemobedework@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=Panel_Seminar_Colloquium:/us er/public-user/Lectures_Conferences/Panel_Seminar_Colloquium X-BEDEWORK-CS;X-BEDEWORK-PARAM-DESCRIPTION="/principals/users/agrp_PrattSc hool,":Pratt School of Engineering X-BEDEWORK-SPEAKER:Po-Chun Hsu X-BEDEWORK-SUBMITTEDBY:ghester for Mechanical Engineering and Materials Sc ience (MEMS) (agrp_PrattSchool_MEMS) END:VEVENT BEGIN:VEVENT CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Lecture/Talk CATEGORIES:Panel/Seminar/Colloquium CATEGORIES:Main CONTACT;X-BEDEWORK-UID=2c918083-5fb8f113-015f-bb5a57d8-00000e67:Aleksandro va\, Olena CREATED:20180221T160012Z DESCRIPTION:Artificial intelligence has begun to impact healthcare in area s including electronic health records\, medical images\, and genomics. Bu t one aspect of healthcare that has been largely left behind thus far is the physical environments in which healthcare delivery takes place: hospi tals and assisted living facilities\, among others. In this talk I will d iscuss my work on endowing hospitals with ambient intelligence\, using co mputer vision-based human activity understanding in the hospital environm ent to assist clinicians with complex care. I will first present an imple mentation of an AI-Assisted Hospital where we have equipped units at two partner hospitals with visual sensors. I will then discuss my work on hum an activity understanding\, a core problem in computer vision. I will pre sent deep learning methods for dense and detailed recognition of activiti es\, and efficient action detection\, important requirements for ambient intelligence. I will discuss these in the context of two clinical applica tions\, hand hygiene compliance and automated documentation of intensive care unit activities. Finally\, I will present work and future directions for integrating this new source of healthcare data into the broader clin ical data ecosystem\, towards full realization of an AI-Assisted Hospital . DURATION:PT1H DTSTAMP:20180221T173858Z DTSTART;TZID=America/New_York:20180305T103000 LAST-MODIFIED:20180221T173858Z LOCATION;X-BEDEWORK-UID=18832edc-1b27e154-011b-2825f3ad-0000002f:Fitzpatri ck Center Schiciano Auditorium Side B\, room 1466 STATUS:CONFIRMED SUMMARY:CS-ECE Colloquium: Towards Ambient Intelligence in AI-Assisted Hos pitals UID:CAL-2c918086-6154f6a2-0161-b917ff3e-00007aaddemobedework@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=Panel_Seminar_Colloquium:/us er/public-user/Lectures_Conferences/Panel_Seminar_Colloquium X-BEDEWORK-CS;X-BEDEWORK-PARAM-DESCRIPTION="/principals/users/agrp_Schoolo fMedicine_BiostatisticsandBioinformatics,/principals/users/agrp_ArtsandSc iences_ComputerScience,/principals/users/agrp_InformationInitiativeatDuke ,/principals/users/agrp__ArtsandSciences_Mathematics,/principals/users/ag rp__ArtsandSciences_Physics,/principals/users/agrp_PrattSchool,/principal s/users/agrp_StatisticalScience,":Biostatistics and Bioinformatics\,Compu ter Science\,Information Initiative at Duke (iiD)\,Mathematics\,Physics\, Pratt School of Engineering\,Statistical Science X-BEDEWORK-SPEAKER:Serena Yeung\, PhD candidate at Stanford University in the Artificial Intelligence Lab X-BEDEWORK-DUKE-SERIES:CS-ECE Colloquium X-BEDEWORK-SUBMITTEDBY:opa for Electrical and Computer Engineering (ECE) ( agrp_PrattSchool_ECE) END:VEVENT BEGIN:VEVENT CATEGORIES:Civic Engagement/Social Action CATEGORIES:Diversity/Inclusion CATEGORIES:Engineering CATEGORIES:Lectures/Conferences CATEGORIES:Other CATEGORIES:Utilities CATEGORIES:Panel/Seminar/Colloquium CATEGORIES:Competition/Contest CATEGORIES:Main CONTACT;X-BEDEWORK-UID=00f1fcdb-0f068baf-010f-068baf83-00000004:None CREATED:20180202T152300Z DESCRIPTION:This is a lunch seminar co-sponsored by the Engineering Gradua te Student Coucil and the Office of Diversity and Inclusion in Engineerin g. \nThe goal of the seminar is to highlight the broader impacts of gradu ate student research within the Pratt School of Engineering. \n\nFour stu dent speakers will be selected to present and will be judged on content/a rticulation of broader impacts\, organization\, and overall presentation. In this way\, students practice science communication skills and showcas e the tangible societal impacts of research as engineers in the local and global community. Please use the link below to submit abstract. \n\nDead line: Thursday\, February 15th\nPresenters will be notified by Monday\, F ebruary 19th\n\nThe 1st place winner will receive a $100 Amazon gift card and 2nd place will receive a $50 Amazon gift card.\n\n**This seminar has been approved for 2 Responsible Conduct in Research (RCR) credits by the Graduate School** DURATION:PT1H30M DTSTAMP:20180202T162929Z DTSTART;TZID=America/New_York:20180305T113000 LAST-MODIFIED:20180202T162929Z LOCATION;X-BEDEWORK-UID=18832edc-1b27e154-011b-2825f3ad-0000002f:Fitzpatri ck Center Schiciano Auditorium Side B\, room 1466 STATUS:CONFIRMED SUMMARY:Broader Impacts of Research Seminar UID:CAL-2c918086-6154f6a2-0161-571d1a81-000006d1demobedework@mysite.edu URL:https://duke.qualtrics.com/jfe/form/SV_0H4FCEOBIW0N9fD 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=Competition_Contest:/user/pu blic-user/Other/Competition_Contest X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Civic Engagement/Social Acti on:/user/public-user/Topics/Civic Engagement_Social Action X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Diversity/Inclusion:/user/pu blic-user/Topics/Diversity_Inclusion X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Engineering:/user/public-use r/Topics/Engineering X-BEDEWORK-CS;X-BEDEWORK-PARAM-DESCRIPTION="/principals/users/agrp_Enginee ringGraduateStudentCouncil,":Engineering Graduate Student Council (EGSC) X-BEDEWORK-SPEAKER:Various X-BEDEWORK-SUBMITTEDBY:jmf84 for Pratt School of Engineering (agrp_PrattSc hool) END:VEVENT BEGIN:VEVENT CATEGORIES:Engineering CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Lecture/Talk CATEGORIES:Main CONTACT;X-BEDEWORK-UID=8a0870ee-48a75713-0148-a8c93d00-000067e1:Ginsberg\, Margo CREATED:20180305T213025Z DESCRIPTION:Metals support surface plasmons at optical wavelengths and hav e the ability to localize light to sub-wavelength regions. Nano-gap\nplas monic systems-in which two or more metallic nanoparticles are separated o nly few nanometer from each other by an insulating\nspacer-have unique pr operties that make it useful for a variety of processes depending on the nanoparticle shape. Nanospheres that are\ncoupled to a film\, for example \, have been predicted to produce enormous field enhancements-as much as thousands of times that of the\nincident radiation-in the separating regi on between nanoparticle and film. For the narrowest (<1 nm) gaps\, light can be so tightly\nconfined that the nonlocality associated with the diel ectric response of the metal and quantum effects can have a strong impact on the\nscattering properties of the system\, placing strict bounds on t he ultimate field enhancement. DURATION:PT1H DTSTAMP:20180305T213025Z DTSTART;TZID=America/New_York:20180309T134500 LAST-MODIFIED:20180305T213025Z LOCATION;X-BEDEWORK-UID=18832edc-1b27e154-011b-2825f3ad-0000002f:Fitzpatri ck Center Schiciano Auditorium Side B\, room 1466 STATUS:CONFIRMED SUMMARY:Nano-gap plasmonics: a bridge to the quantum realm UID:CAL-2c918086-6154f6a2-0161-f8129f87-000046a2demobedework@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-SPEAKER:Cristian Ciracì X-BEDEWORK-DUKE-SERIES:CMIP Seminar X-BEDEWORK-SUBMITTEDBY:mfg20 for Center for Metamaterials and Integrated P lasmonics (agrp_PrattSchool_CMIP) END:VEVENT BEGIN:VEVENT CATEGORIES:Engineering CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Lecture/Talk CATEGORIES:Panel/Seminar/Colloquium CATEGORIES:Main CONTACT;X-BEDEWORK-UID=2c918083-5fb8f113-015f-bb5a57d8-00000e67:Aleksandro va\, Olena CREATED:20180119T162914Z DESCRIPTION:This talk will provide an overview of techniques developed in my group to enable robots to react rapidly in the face of changes in the environment when manipulating objects. Learning is guided by observing hu mans' elaborate manipulatory skills. I will stress how important it is to model the various ways with which humans perform the same task. This mul tiplicity of solutions is the key to generate robust and flexible robotic controllers capable of adapting their strategies in the face of unexpect ed changes in the environment. I will review methods we have developed to allow instantaneous reactions to perturbation. These methods are based o n autonomous dynamical systems as core controller. Machine learning techn iques are developed to identify the control law while ensuring stability of the learned dynamics. I will present applications of these learned con trol laws for compliant control during human-robot collaborative tasks an d for performing sport tasks\, such as when playing golf with moving targ ets. The talk will conclude with examples in which robots achieve super-h uman capabilities for catching fast moving objects with a dexterity that exceeds that displayed by human beings DURATION:PT1H DTSTAMP:20180316T175035Z DTSTART;TZID=America/New_York:20180319T120000 LAST-MODIFIED:20180316T175035Z LOCATION;X-BEDEWORK-UID=18832edc-1b27e154-011b-2825f3ad-0000002f:Fitzpatri ck Center Schiciano Auditorium Side B\, room 1466 STATUS:CONFIRMED SUMMARY:CS-ECE Colloquium: Machine Learning for Estimating Robust Control Laws UID:CAL-2c918084-6106a128-0161-0f40b7c9-0000332ademobedework@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=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-CS;X-BEDEWORK-PARAM-DESCRIPTION="/principals/users/agrp_Schoolo fMedicine_BiostatisticsandBioinformatics,/principals/users/agrp_ArtsandSc iences_ComputerScience,/principals/users/agrp_InformationInitiativeatDuke ,/principals/users/agrp__ArtsandSciences_Mathematics,/principals/users/ag rp_PrattSchool,/principals/users/agrp_StatisticalScience,":Biostatistics and Bioinformatics\,Computer Science\,Information Initiative at Duke (iiD )\,Mathematics\,Pratt School of Engineering\,Statistical Science X-BEDEWORK-SPEAKER:Aude Billard\, Professor\, School of Engineering at Swi ss Institute of Technology Lausanne X-BEDEWORK-DUKE-SERIES:CS-ECE Colloquium X-BEDEWORK-SUBMITTEDBY:opa for Electrical and Computer Engineering (ECE) ( agrp_PrattSchool_ECE) END:VEVENT BEGIN:VEVENT CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Panel/Seminar/Colloquium CATEGORIES:Main CONTACT;X-BEDEWORK-UID=18832e99-20476e5b-0120-587daa86-000000bc:Burns\, Au gust CREATED:20171221T185833Z DESCRIPTION:We report a switchable multiscale photoacoustic microscopy com bined with ultrasound as a useful tool for high-resolution and deep-penet ration tomography imaging. The focused transducer has dual elements with two individual central frequencies 20 MHz and 40MHz\, resulting in differ ent acoustic resolutions and penetration depths. The lateral resolutions of the microscopy for the ultrasonic imaging are inherent\, which are aco ustically determined by the transducer's frequency and measured as 222 µm for the high-frequency element and 360 µm for the low-frequency one at t he acoustic focus plane. The spot size of the excitation beam was adjuste d as much smaller than the true acoustically-determined resolutions\, res ulting in that the lateral resolution of photoacoustic imaging is depende nt on the beam size. The photoacoustic lateral resolution is switchable b y putting a flip-mounted beam-shaping lens on the optical pathway\; it wa s measured as 6.9 µm when the switchable lens was off and the system was then degraded as a typical optical-resolution photoacoustic microscopy\, otherwise the system was an acoustic-resolution photoacoustic microscopy with a lateral resolution of 76.3 µm. The axial resolution for both photo acoustic and ultrasonic imaging are determined by the bandwidth of the tr ansducer\, which was measured as 42 µm. The combination of photoacoustics and ultrasound emerges the advantages of photoacoustics in its superior sensitivity to optical absorption contrast... DURATION:PT1H DTSTAMP:20180122T224434Z DTSTART;TZID=America/New_York:20180321T120000 LAST-MODIFIED:20180122T224434Z LOCATION;X-BEDEWORK-UID=18832edc-1b27e154-011b-2825f3ad-0000002f:Fitzpatri ck Center Schiciano Auditorium Side B\, room 1466 STATUS:CONFIRMED SUMMARY:FIP Special Seminar - Postdoc Speaker Award "Switchable multiscale photoacoustic microscopy" UID:CAL-2c918086-605dc975-0160-7a70fcf9-000069f9demobedework@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:Dr. Wei Liu\, Postdoctoral Research\, Biomedical Engine ering\, Duke University X-BEDEWORK-SUBMITTEDBY:ahb11 for Fitzpatrick Institute for Photonics (FIP) (agrp_FitzpatrickInstitute) END:VEVENT BEGIN:VEVENT CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Panel/Seminar/Colloquium CATEGORIES:Main CONTACT;X-BEDEWORK-UID=18832e99-20476e5b-0120-587daa86-000000bc:Burns\, Au gust CREATED:20180301T162218Z DESCRIPTION:Peyman Milanfar leads the Computational Imaging/Image Processi ng team\, part of Google AI Research. Prior to this\, he was a Professor of Electrical Engineering at UC Santa Cruz from 1999-2014. He was Associa te Dean for Research at the School of Engineering from 2010-12. From 2012 -2014 he was on leave at Google-x\, where he helped develop the imaging p ipeline for Google Glass.\nPeyman received his undergraduate education in electrical engineering and mathematics from the University of California \, Berkeley\, and the MS and PhD degrees in electrical engineering from t he Massachusetts Institute of Technology. He holds 12 US patents\, severa l of which are commercially licensed. He founded MotionDSP in 2005. He ha s been keynote speaker at numerous technical conferences including Pictur e Coding Symposium (PCS)\, SIAM Imaging Sciences\, SPIE\, and the Interna tional Conference on Multimedia (ICME). Along with his students\, he has won several best paper awards from the IEEE Signal Processing Society.He is a Distinguished Lecturer of the IEEE Signal Processing Society\, and a Fellow of the IEEE "for contributions to inverse problems and super-reso lution in imaging." DURATION:PT1H DTSTAMP:20180301T162245Z DTSTART;TZID=America/New_York:20180323T120000 LAST-MODIFIED:20180301T162245Z LOCATION;X-BEDEWORK-UID=18832edc-1b27e154-011b-2825f3ad-0000002f:Fitzpatri ck Center Schiciano Auditorium Side B\, room 1466 STATUS:CONFIRMED SUMMARY:FIP Seminar: Learning and Inference for Computational Imaging UID:CAL-2c918086-6154f6a2-0161-e25f17ee-000027e0demobedework@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:Dr. Peyman Milanfar\, Lead Scientist\, Computational Im aging/Image Processing Team Google Research X-BEDEWORK-SUBMITTEDBY:ahb11 for Fitzpatrick Institute for Photonics (FIP) (agrp_FitzpatrickInstitute) END:VEVENT BEGIN:VEVENT CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Lecture/Talk CATEGORIES:Panel/Seminar/Colloquium CATEGORIES:Main CONTACT;X-BEDEWORK-UID=18832edc-1b31c518-011b-40a23061-00000095:Hester\, G lenda CREATED:20180306T153249Z DESCRIPTION:In this talk\, I will present some of our recent research prog ress on manufacturing\, materials\, and device innovation for stretchy an d curvy electronics. Existing strategies to enable mechanical stretchabil ity in soft electronics heavily rely on special mechanical architectures\ , which impose a heavy burden on sophisticated fabrication and associated cost. I will show our recent results on developing a completely new set of stretchable electronics\, namely "rubbery electronics\, circuits and s ensors". Such devices are based on all-elastomeric electronic materials a nd therefore intrinsically stretchable without the need of any special st ructural design. The stretchable rubbery electronics mimics the format an d functionalities of our elastic human skin. I will then show our recent progress on developing 3D curvilinear shaped devices. A new manufacturing approach\, namely conformal additive transfer printing\, will be present ed. Different type of 3D curvilinear device such as smart contact lenses with integrated sensors and electronics for multi-functionalities will be demonstrated. DURATION:PT1H DTSTAMP:20180319T133806Z DTSTART;TZID=America/New_York:20180323T140000 LAST-MODIFIED:20180319T133806Z LOCATION;X-BEDEWORK-UID=18832edc-1b27e154-011b-2825f3ad-0000002f:Fitzpatri ck Center Schiciano Auditorium Side B\, room 1466 STATUS:CONFIRMED SUMMARY:Manufacturing\, Materials\, and Device Innovations for Soft and Cu rvy Electronics UID:CAL-2c918086-6154f6a2-0161-fbf19832-00005458demobedework@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=Panel_Seminar_Colloquium:/us er/public-user/Lectures_Conferences/Panel_Seminar_Colloquium X-BEDEWORK-CS;X-BEDEWORK-PARAM-DESCRIPTION="/principals/users/agrp_PrattSc hool,":Pratt School of Engineering X-BEDEWORK-SPEAKER:Cunjiang Yu X-BEDEWORK-SUBMITTEDBY:ghester for Mechanical Engineering and Materials Sc ience (MEMS) (agrp_PrattSchool_MEMS) END:VEVENT BEGIN:VEVENT CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Panel/Seminar/Colloquium CATEGORIES:Main CONTACT;X-BEDEWORK-UID=18832e99-20476e5b-0120-587daa86-000000bc:Burns\, Au gust CREATED:20171221T190341Z DESCRIPTION:We present key theoretical and experimental results of our inv estigations into novel photonic devices\, quantitative optical imaging\, and light assisted semiconductor manufacturing. The photonic devices incl ude palladium based optical hydrogen sensors\, reflective microring reson ators\, and hybrid microring/plasmonic bio-sensors. We will also present diffraction phase microscopy (DPM) as a non-destructive optical method fo r monitoring physical processes in real time and with nanometer level sen sitivity. We have used DPM to observe the dynamics of semiconductors duri ng wet etching\, surface wetting and evaporation of water droplets\, the dissolution of biodegradable electronics\, and the stretching of thin fil ms due to heating or lattice expansion. Next\, we will discuss how to use DPM and emerging near-field imaging techniques to detect defects in patt erned semiconductor wafers. In particular\, we will report on light focus ing and photonic nanojet formation using our cascaded asymmetric microstr ucture. Finally\, we will get into how to use light from an ordinary comp uter projector to perform photochemical etching in order to define variab le height topography during semiconductor manufacturing. DURATION:PT1H DTSTAMP:20180320T164500Z DTSTART;TZID=America/New_York:20180328T120000 LAST-MODIFIED:20180320T164500Z LOCATION;X-BEDEWORK-UID=18832edc-1b27e154-011b-2825f3ad-0000002f:Fitzpatri ck Center Schiciano Auditorium Side B\, room 1466 STATUS:CONFIRMED SUMMARY:FIP Seminar: Harnessing Light for Sensing\, Communications\, Metro logy and Manufacturing UID:CAL-2c918086-605dc975-0160-7a75b1e2-000069fademobedework@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:Dr. Lynford L. Goddard\, Associate Professor\, Electric al and Computer Engineering\, University of Illinois at Urbana-Champaign X-BEDEWORK-SUBMITTEDBY:ahb11 for Fitzpatrick Institute for Photonics (FIP) (agrp_FitzpatrickInstitute) END:VEVENT BEGIN:VEVENT CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Lecture/Talk CATEGORIES:Main CONTACT;X-BEDEWORK-UID=18832e99-251bf27f-0125-4ac22ae4-00000527:King\, Pam ela CREATED:20180122T191707Z DESCRIPTION:Abstract: The recent advent of RNA-guided effectors derived fr om clustered regularly interspaced short palindromic repeats (CRISPR)-CRI SPR-associated (Cas) systems have dramatically transformed our ability to engineer the genomes of diverse organisms. As unique factors capable of co-localizing RNA\, DNA\, and protein\, tools and techniques based on the se are paving the way for unprecedented control over cellular organizatio n\, regulation\, and behavior. Here I will describe some of our ongoing e fforts towards engineering this system for enabling therapeutic applicati ons. DURATION:PT1H DTSTAMP:20180320T154143Z DTSTART;TZID=America/New_York:20180329T120000 LAST-MODIFIED:20180320T154143Z LOCATION;X-BEDEWORK-UID=18832edc-1b27e154-011b-2825f3ad-0000002f:Fitzpatri ck Center Schiciano Auditorium Side B\, room 1466 STATUS:CONFIRMED SUMMARY:BioE Seminar: Therapeutic Strategies via Genome Engineering: New A pproaches and New Challenges UID:CAL-2c918084-6106a128-0161-1f4d7f47-00002cc3demobedework@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-SPEAKER:Prashant Mali\, Ph.D.\, Assistant Professor\, Departmen t of Bioengineering\, Univesity of California\, San Diego X-BEDEWORK-SUBMITTEDBY:king0054 for Center for Biomolecular and Tissue Eng ineering (CBTE) (agrp_PrattSchool_CBTE) END:VEVENT BEGIN:VEVENT CATEGORIES:Engineering CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Health/Wellness CATEGORIES:Lecture/Talk CATEGORIES:Panel/Seminar/Colloquium CATEGORIES:Conference/Symposium CATEGORIES:Main CONTACT;X-BEDEWORK-UID=00f1fcdb-0f068baf-010f-068baf83-00000004:None CREATED:20180329T151106Z DESCRIPTION:The keynote speaker is Kafui Dziarsa\, MD\, PhD who will be ad dressing the Grand Challenge of Reverse Engineering the Brain. As the fir st African American to complete a PhD in Neurobiology at Duke University\ , psychiatrist Kafui Dzirasa is pushing the limits in more ways than one. His research is focused on rethinking the framework that currently dicta tes the way we diagnose\, view\, and treat mental illness. Through his wo rk\, Kafui hopes to reveal links between brain circuit malfunction and sy mptoms of mental illness\, with the ultimate goal of producing neuroelect rical stimulation remedies for these diseases. Kafui is currently an assi stant professor in the Department of Psychiatry and Behavioral Science at the Duke University School of Medicine. In 2008\, he was recognized as o ne of Ebony Magazine's 30 Young Leaders of the Future and his laboratory has been featured on CBS 60 Minutes. View his TEDMED talk at https://www. tedmed.com/speakers/show?id=619740. This event is free and open to the Du ke Community. Arrive early at 5pm outside Schiciano to meet the Duke Gran d Challenge Scholars. DURATION:PT1H DTSTAMP:20180329T171732Z DTSTART;TZID=America/New_York:20180404T180000 LAST-MODIFIED:20180329T171732Z LOCATION;X-BEDEWORK-UID=18832edc-1b27e154-011b-2825f3ad-0000002f:Fitzpatri ck Center Schiciano Auditorium Side B\, room 1466 STATUS:CONFIRMED SUMMARY:2018 Grand Challenges Symposium: Understanding how changes in the brain produce neurological and mental illness UID:CAL-2c918085-6222e399-0162-724ff9ba-000019dademobedework@mysite.edu URL:http://plasma.pratt.duke.edu/data/a_0215181200_0404181800_20_gc-sympos ium-dziarsa-2018.jpg 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=Health_Wellness:/user/public -user/Topics/Health_Wellness X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Engineering:/user/public-use r/Topics/Engineering X-BEDEWORK-CS;X-BEDEWORK-PARAM-DESCRIPTION="/principals/users/agrp_ClinDep _Psychiatry,/principals/users/agrp_SchoolofMedicine,":Department of Psych iatry and Behavioral Sciences\,School of Medicine (SOM) X-BEDEWORK-STUDENT-CONTACT;X-BEDEWORK-PARAM-EMAIL=jim.gaston@duke.edu:Jim Gaston X-BEDEWORK-SPEAKER:Kafui Dzirasa\, MD\, PhD - Associate Professor of Psych iatry and Behavioral Sciences X-BEDEWORK-SUBMITTEDBY:ald49 for Pratt School of Engineering (agrp_PrattSc hool) END:VEVENT BEGIN:VEVENT CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Panel/Seminar/Colloquium CATEGORIES:Main CONTACT;X-BEDEWORK-UID=8a087089-3f14d76c-013f-1e578f83-00007ffd:Peterson\, Kathy CREATED:20180404T195327Z DESCRIPTION:The U.S. is increasingly dependent on high performance computi ng (HPC) to address key challenges in scientific discovery\, energy assur ance\, economic competitiveness\, and national security. As part of the National Strategic Computing initiative\, the Department of Energy Exasca le Computing Project (ECP) was established to accelerate delivery of a ca pable exascale computing system that integrates hardware and software cap ability to deliver approximately 50 times more performance than today's 2 0-petaflops machines on mission critical applications. Scientific applic ations ready and able to address challenge problems of U.S. interest are the driving force behind the ECP\, hence the ECP is responsible for ensur ing exascale application readiness and delivering scalable science and en gineering performance. In this talk\, I will summarize the objectives and current status of the ECP and discuss some of the key challenges facing HPC applications as they prepare for exascale systems\, including perform ance portability\, software co-design and the need for a well-supported s oftware ecosystem with common interfaces. \n\nErik Draeger is a computati onal scientist at the Center for Applied Scientific Computing at Lawrence Livermore National Laboratory. He is currently the Deputy Director of Ap plication Development for the Department of Energy Exascale Computing Pro ject\, as well as the Group Leader of the High Performance Computing grou p in the Center for Applied Scientific Computing at LLNL. DURATION:PT1H DTSTAMP:20180404T200114Z DTSTART;TZID=America/New_York:20180410T120000 LAST-MODIFIED:20180404T200114Z LOCATION;X-BEDEWORK-UID=18832edc-1b27e154-011b-2825f3ad-0000002f:Fitzpatri ck Center Schiciano Auditorium Side B\, room 1466 STATUS:CONFIRMED SUMMARY:High Performance Computing Seminar Series:The Exascale Computing Project: Accelerating Science-Driven HPC UID:CAL-2c918082-628bc10d-0162-9238a2af-00004006demobedework@mysite.edu X-BEDEWORK-SUBMIT-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Panel_Seminar_Colloqu ium:/public/aliases/Lectures_Conferences/Panel_Seminar_Colloquium X-BEDEWORK-SUBMIT-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Panel_Seminar_Colloqu ium:/public/aliases/Lectures_Conferences/Panel_Seminar_Colloquium X-BEDEWORK-SUBMIT-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Panel_Seminar_Colloqu ium:/public/aliases/Lectures_Conferences/Panel_Seminar_Colloquium X-BEDEWORK-SUBMIT-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Panel_Seminar_Colloqu ium:/public/aliases/Lectures_Conferences/Panel_Seminar_Colloquium X-BEDEWORK-SUBMIT-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Panel_Seminar_Colloqu ium:/public/aliases/Lectures_Conferences/Panel_Seminar_Colloquium X-BEDEWORK-CONTACT:Ismael Perez X-BEDEWORK-SUBMIT-COMMENT: X-BEDEWORK-SUBMITTER-EMAIL:ismael.perez@duke.edu X-BEDEWORK-DUKE-SPONSOR:/principals/users/agrp_InformationInitiativeatDuke X-BEDEWORK-SUBMITTEDBY:ip45 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=Main:/user/public-user/Utili ties/Main X-BEDEWORK-STUDENT-CONTACT:Ismael Perez END:VEVENT BEGIN:VEVENT CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Panel/Seminar/Colloquium CATEGORIES:Main CONTACT;X-BEDEWORK-UID=18832e99-20476e5b-0120-587daa86-000000bc:Burns\, Au gust CREATED:20180122T223123Z DESCRIPTION:Dr. Mary-Ann Mycek's research program in Biomedical Photonics involves developing and applying methods of optical science and engineeri ng to probe and quantify the living systems found in biology and medicine . Her goal is to impact patient care via the development of non- and mini mally-invasive biophotonic diagnostic technologies. Her translational ("b ench to bedside") research strategy employs three major approaches: (1) O ptical Molecular Imaging (basic\, pre-clinical studies on model systems)\ ; (2) Clinical Optical Diagnostics (applied\, clinical studies on human t issues)\; (3) Computational Modeling (quantitative models of light propag ation in tissues). Mary-Ann Mycek is the Associate Dean for Graduate Educ ation in the College of Engineering at the University of Michigan. She is also a Professor of Biomedical Engineering\, as well as a member of the Applied Physics Graduate Program and the Comprehensive Cancer Center. Dr . Mycek received her Ph.D. in Physics from U.C. Berkeley\, where she spec ialized in condensed matter physics and ultrafast optical spectroscopy\, before pursuing postdoctoral training in laser medicine at Massachusetts General Hospital and Harvard Medical School. She was an Assistant Profes sor of Physics & Astronomy at Dartmouth College before joining the Univer sity of Michigan. Her translational ("bench to bedside") research program in biomedical photonics involves using light for noninvasive tissue diag nostics. DURATION:PT1H DTSTAMP:20180409T133348Z DTSTART;TZID=America/New_York:20180411T120000 LAST-MODIFIED:20180409T133348Z LOCATION;X-BEDEWORK-UID=18832edc-1b27e154-011b-2825f3ad-0000002f:Fitzpatri ck Center Schiciano Auditorium Side B\, room 1466 STATUS:CONFIRMED SUMMARY:CANCELLED>>FIP Seminar: Optical Diagnostics for Improved Pancreati c Disease Detection UID:CAL-2c918084-6106a128-0161-1fff5b34-000044c3demobedework@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:Dr. Mary-Ann Mycek\, Associate Dean for Graduate Educat ion\, College of Engineering Professor\, Biomedical Engineering\, Univers ity of Michigan X-BEDEWORK-SUBMITTEDBY:ahb11 for Fitzpatrick Institute for Photonics (FIP) (agrp_FitzpatrickInstitute) END:VEVENT BEGIN:VEVENT CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Lecture/Talk CATEGORIES:Main CONTACT;X-BEDEWORK-UID=00f1fcdb-0f068baf-010f-068baf83-00000004:None CREATED:20180402T161441Z DESCRIPTION:Each Pratt Fellow will give a 10-minute overview of their rese arch. Open to the Duke community. Current Pratt sophomores interested the Pratt Fellows program are encouraged to attend and apply. DURATION:PT2H DTSTAMP:20180402T161441Z DTSTART;TZID=America/New_York:20180411T170000 LAST-MODIFIED:20180402T161441Z LOCATION;X-BEDEWORK-UID=18832edc-1b27e154-011b-2825f3ad-0000002f:Fitzpatri ck Center Schiciano Auditorium Side B\, room 1466 STATUS:CONFIRMED SUMMARY:2018 Pratt Fellows Presentations UID:CAL-2c918085-62869a4a-0162-87239ef7-00000688demobedework@mysite.edu URL:http://pratt.duke.edu/prattfellows 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-STUDENT-CONTACT;X-BEDEWORK-PARAM-EMAIL=jim.gaston@duke.edu:Jim Gaston X-BEDEWORK-SUBMITTEDBY:ald49 for Pratt School of Engineering (agrp_PrattSc hool) END:VEVENT BEGIN:VEVENT CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Lecture/Talk CATEGORIES:Main CONTACT;X-BEDEWORK-UID=00f1fcdb-0f068baf-010f-068baf83-00000004:None CREATED:20180402T161525Z DESCRIPTION:Each Pratt Fellow will give a 10-minute overview of their rese arch. Open to the Duke community. Current Pratt sophomores interested the Pratt Fellows program are encouraged to attend and apply. DURATION:PT2H DTSTAMP:20180402T161525Z DTSTART;TZID=America/New_York:20180412T160000 LAST-MODIFIED:20180402T161525Z LOCATION;X-BEDEWORK-UID=18832edc-1b27e154-011b-2825f3ad-0000002f:Fitzpatri ck Center Schiciano Auditorium Side B\, room 1466 STATUS:CONFIRMED SUMMARY:2018 Pratt Fellows Presentations UID:CAL-2c918085-62869a4a-0162-87244dd3-00000689demobedework@mysite.edu URL:http://pratt.duke.edu/prattfellows 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-STUDENT-CONTACT;X-BEDEWORK-PARAM-EMAIL=jim.gaston@duke.edu:Jim Gaston X-BEDEWORK-SUBMITTEDBY:ald49 for Pratt School of Engineering (agrp_PrattSc hool) END:VEVENT BEGIN:VEVENT CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Lecture/Talk CATEGORIES:Panel/Seminar/Colloquium CATEGORIES:Main CONTACT;X-BEDEWORK-UID=2c918083-5fc14a35-015f-cbb8a7cd-00004850:Oldham\, B randy CREATED:20171130T173506Z DESCRIPTION:Molecular crystals have applications in nonlinear optics\, org anic electronics\, and particularly in pharmaceuticals\, as most drugs ar e marketed in the form of crystals of the pharmaceutically active ingredi ent. Molecular crystals are bound by dispersion (van der Waals) interacti ons\, whose weak nature generates potential energy landscapes with many l ocal minima that may be extremely close in energy. This often results in polymorphism\, the crystallization of the same molecule in several differ ent structures. Crystal structure may profoundly influence the physical a nd chemical properties\, including the electronic and optical properties relevant for device applications.\n\nNoa Marom received a B.A. in Physics and a B.S. in Materials Engineering\, both Cum Laude\, from the Technion - Israel Institute of Technology in 2003. In 2010 she received a Ph.D. in Chemistry from the Weizmann Institute of Science. She was awarded the Sh imon Reich Memorial Prize of Excellence for her thesis. She then pursued postdoctoral research at the Institute for Computational Engineering and Sciences (ICES) at the University of Texas at Austin. From 2013 to 2016 s he was an Assistant Professor in the Physics and Engineering Physics (PEP ) Department at Tulane University. In 2016 she joined the Materials Scien ce and Engineering Department at Carnegie Mellon University as an Assista nt Professor. DURATION:PT1H DTSTAMP:20180418T160426Z DTSTART;TZID=America/New_York:20180417T120000 LAST-MODIFIED:20180418T160426Z LOCATION;X-BEDEWORK-UID=18832edc-1b27e154-011b-2825f3ad-0000002f:Fitzpatri ck Center Schiciano Auditorium Side B\, room 1466 STATUS:CONFIRMED SUMMARY:POSTPONED - MEMS Seminar: Effect of Crystal Packing on the Electro nic Properties of Molecular Crystals UID:CAL-2c918083-600b5f91-0160-0dff0da8-00001f80demobedework@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=Panel_Seminar_Colloquium:/us er/public-user/Lectures_Conferences/Panel_Seminar_Colloquium X-BEDEWORK-SPEAKER:Professor Noa Marom X-BEDEWORK-IMAGE-X1:0 X-BEDEWORK-IMAGE-Y1:0 X-BEDEWORK-IMAGE-X2:1059 X-BEDEWORK-IMAGE-Y2:706 X-BEDEWORK-IMAGE-CROP-WIDTH:1059 X-BEDEWORK-IMAGE-CROP-HEIGHT:706 X-BEDEWORK-IMAGE-ALT-TEXT:Duke Mechanical Engineering &\;amp\; Material s Science X-BEDEWORK-SUBMITTEDBY:bwo3 for Mechanical Engineering and Materials Scien ce (MEMS) (agrp_PrattSchool_MEMS) X-BEDEWORK-IMAGE:/public/Images/MEMS Calendar Image_20171130123506PM.png X-BEDEWORK-THUMB-IMAGE:/public/Images/MEMS Calendar Image_20171130123506PM -thumb.png END:VEVENT BEGIN:VEVENT CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Lecture/Talk CATEGORIES:Panel/Seminar/Colloquium CATEGORIES:Main CONTACT;X-BEDEWORK-UID=8a0870ef-52eca22e-0152-ef9caeb9-000043f8:Grosshans\ , Joanne CREATED:20180405T172557Z DESCRIPTION:Focused ultrasound is an early-stage\, non-invasive therapeuti c technology with the potential to treat a wide range of serious medical disorders. This presentation will highlight the current state of the fiel d for focused ultrasound and the adoption and development landscape for t he technology\, including key challenges and research opportunities. DTEND;TZID=America/New_York:20180418T170000 DTSTAMP:20180405T172557Z DTSTART;TZID=America/New_York:20180418T160000 LAST-MODIFIED:20180405T172557Z LOCATION;X-BEDEWORK-UID=18832edc-1b27e154-011b-2825f3ad-0000002f:Fitzpatri ck Center Schiciano Auditorium Side B\, room 1466 STATUS:CONFIRMED SUMMARY:Focused Ultrasound at the Tipping Point: State of the Field and Fu ture Applications UID:CAL-2c918082-628bc10d-0162-96d7f154-00005498demobedework@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=Lecture_Talk:/user/public-us er/Lectures_Conferences/Lecture_Talk X-BEDEWORK-CS;X-BEDEWORK-PARAM-DESCRIPTION="/principals/users/agrp_PrattSc hool,":Pratt School of Engineering X-BEDEWORK-SPEAKER:Jessica Foley\, PhD\, Chief Scientific Officer\, Focuse d Ultrasound Foundation X-BEDEWORK-DUKE-SERIES:Medical Imaging Training Program Visionary Speaker Series X-BEDEWORK-SUBMITTEDBY:jaf46 for Medical Imaging Training Program (agrp_Pr attSchool_MedicalImagingTraining) END:VEVENT BEGIN:VEVENT CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Lecture/Talk CATEGORIES:Main CONTACT;X-BEDEWORK-UID=18832e99-251bf27f-0125-4ac22ae4-00000527:King\, Pam ela CREATED:20180403T135508Z DESCRIPTION:Abstract: Somatic gene therapy provides a promising therapeuti c approach for treatment of a variety of otherwise terminal or severely d isabling diseases. The recent development of genome editing technology\, including CRISPR (clustered regularly-interspaced short palindromic repea ts) system\, has made it possible to perform precise genetic engineering in cells. However\, clinical application of CRISPR technology to human pa tients has been challenging due to the inadequate efficacy in vivo using conventional delivery approach. Thus\, it is urgently needed to develop a n ex vivo platform that can combine both precise genome editing in vitro with effective application of engineered cells in vivo. The epidermal pro genitor cells of skin have several unique advantages\, making it particul arly suited for ex vivo gene therapy. Human skin is the largest and most accessible organ in the body\, making it easy to isolate skin epidermal p rogenitor cells and monitor the tissue for potential detrimental complica tions. Anatomically\, skin epidermis is separated from vasculature by the basement membrane\, which prevents potential dissemination of geneticall y modified cell in vivo\, making the potential therapy tissue specific an d safe. Lastly\, the potential applicability of cutaneous gene therapy is broad because it has been well documented that proteins expressed in ski n epidermal cells can cross the epidermal/dermal barrier and reach circul ation to achieve therapeutic effect in a systematic manner. DURATION:PT1H DTSTAMP:20180403T135508Z DTSTART;TZID=America/New_York:20180419T120000 LAST-MODIFIED:20180403T135508Z LOCATION;X-BEDEWORK-UID=18832edc-1b27e154-011b-2825f3ad-0000002f:Fitzpatri ck Center Schiciano Auditorium Side B\, room 1466 STATUS:CONFIRMED SUMMARY:BioE Seminar: Tissue Engineering with Skin Somatic Stem Cells UID:CAL-2c918082-628bc10d-0162-8bca388d-0000005bdemobedework@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-SPEAKER:Xiaoyang\, Wu\, Ph.D.\, Assistant Professor\, The Ben M ay Department for Cancer Research\, The University of Chicago X-BEDEWORK-SUBMITTEDBY:king0054 for Center for Biomolecular and Tissue Eng ineering (CBTE) (agrp_PrattSchool_CBTE) END:VEVENT BEGIN:VEVENT CATEGORIES:Engineering CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Panel/Seminar/Colloquium CATEGORIES:Main CONTACT;X-BEDEWORK-UID=00f1fcdb-0f068baf-010f-068baf83-00000004:None CREATED:20180418T164120Z DESCRIPTION:Computational simulations based on the first principles of qua ntum mechanics are now virtually indispensable as complements to analytic al theory and experimental approaches in molecular and materials science. High-performance computing resources play a key role in advancing the re ach of electronic structure based simulations\, aiming to predict new mat erials with atomic-scale tailored properties and to provide atomic-scale understanding of new phenomena observed experimentally. The present talk focuses on the FHI-aims code\, developed for simulations of system sizes up to thousands of atoms\, with benchmark-quality numerical accuracy and excellent scalability on current massively parallel high-performance comp uters. The current workhorse methods of the field are density-functional theory (DFT) for ground-state properties and many-body approaches to capt ure excited-state phenomena. A new\, open-source infrastructure "ELSI" co nnects FHI-aims to even larger-scale simulations. We show how different c omputational aspects of the problem can be designed to efficiently use co mputing platforms with (ten) thousands of CPU cores\, including recent de velopments to take advantage of new architectures such as Intel's manycor e architectures (KNL) or NVidia's GPUs. Finally\, we show how these appro aches can aid the discovery of new materials\, for the particular example of new hybrid organic-inorganic materials incorporating functional organ ic molecules for light emission. DURATION:PT1H DTSTAMP:20180419T144438Z DTSTART;TZID=America/New_York:20180424T120000 LAST-MODIFIED:20180419T144438Z LOCATION;X-BEDEWORK-UID=18832edc-1b27e154-011b-2825f3ad-0000002f:Fitzpatri ck Center Schiciano Auditorium Side B\, room 1466 STATUS:CONFIRMED SUMMARY:High Performance Computing Seminar Series:Electronic Structure Bas ed Discoveries on Highest-Performance Computers UID:CAL-2c918082-628bc10d-0162-d9a1c524-0000000ademobedework@mysite.edu X-BEDEWORK-SUBMIT-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Panel_Seminar_Colloqu ium:/public/aliases/Lectures_Conferences/Panel_Seminar_Colloquium X-BEDEWORK-SUBMIT-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Engineering:/public/a liases/Topics/Engineering X-BEDEWORK-CONTACT;X-BEDEWORK-PARAM-EMAIL=ismael.perez@duke.edu:Ismael Per ez X-BEDEWORK-SUBMIT-COMMENT: X-BEDEWORK-SUBMITTER-EMAIL:ismael.perez@duke.edu X-BEDEWORK-DUKE-SPONSOR:/principals/users/agrp_PrattSchool X-BEDEWORK-SUBMITTEDBY:ip45 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=Main:/user/public-user/Utili ties/Main X-BEDEWORK-STUDENT-CONTACT;X-BEDEWORK-PARAM-EMAIL=ismael.perez@duke.edu:Is mael Perez END:VEVENT BEGIN:VEVENT CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Lecture/Talk CATEGORIES:Main CONTACT;X-BEDEWORK-UID=18832e99-251bf27f-0125-4ac22ae4-00000527:King\, Pam ela CREATED:20180122T191858Z DESCRIPTION:Abstract: As engineers we are trained\, early on\, to think sp atially\, starting in physics and calculus. In my lab\, we continue to do so\, from the nanoscale through the scale of whole organisms\, developin g imaging tools that allow us to gain information regarding the localizat ion and interaction of molecules during disease pathogenesis and therapeu tics that take advantage of local\, versus systemic\, delivery. Specific ally\, my group has been interested in the pathogenesis of RNA viruses\, including HIV\, and the development of tools to elucidate the spatiotempo ral dynamics of these infections in vivo and their response to treatment. In addition\, we've been developing RNA-based therapeutics for organ-spe cific delivery\, such as in the heart\, lungs\, and brain. In this semina r\, I'll introduce positron emission tomography (PET) contrast agents for interrogating SIV and SHIV infections in the rhesus macaque model\, and mRNA-based therapeutics for preventing respiratory infections. DURATION:PT1H DTSTAMP:20180416T140937Z DTSTART;TZID=America/New_York:20180426T120000 LAST-MODIFIED:20180416T140937Z LOCATION;X-BEDEWORK-UID=18832edc-1b27e154-011b-2825f3ad-0000002f:Fitzpatri ck Center Schiciano Auditorium Side B\, room 1466 STATUS:CONFIRMED SUMMARY:BioE Seminar: Confronting the Spatial Biology RNA Therapeutics and RNA Viruses\, from Whole Organisms to the Nanoscale UID:CAL-2c918084-6106a128-0161-1f4f3145-00002d1fdemobedework@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-SPEAKER:Philip Santangelo\, Ph.D.\, Associate Professor\, Depar tment of Biomedical Engineering\, Georgia Institute of Technology X-BEDEWORK-SUBMITTEDBY:king0054 for Center for Biomolecular and Tissue Eng ineering (CBTE) (agrp_PrattSchool_CBTE) END:VEVENT BEGIN:VEVENT CATEGORIES:Engineering CATEGORIES:Other CATEGORIES:Utilities CATEGORIES:Reception CATEGORIES:Alumni/Reunion CATEGORIES:Main CONTACT;X-BEDEWORK-UID=8a0870ee-5824363a-0158-2bed97a4-000072a3:Rivers\, K risten CREATED:20180420T180218Z DESCRIPTION:Learn how alumni transitioned to their current jobds and posit ions. Free dinner will be provided. RSVP: https://goo.gl/3N6kBt DURATION:PT1H30M DTSTAMP:20180420T195642Z DTSTART;TZID=America/New_York:20180426T180000 LAST-MODIFIED:20180420T195642Z LOCATION;X-BEDEWORK-UID=18832edc-1b27e154-011b-2825f3ad-0000002f:Fitzpatri ck Center Schiciano Auditorium Side B\, room 1466 STATUS:CONFIRMED SUMMARY:Biomedical Engineering Society Alumni Networking Event UID:CAL-2c918085-62db2426-0162-e4389d80-00001b88demobedework@mysite.edu X-BEDEWORK-SUBMIT-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Reception:/public/ali ases/Other/Reception X-BEDEWORK-SUBMIT-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Engineering:/public/a liases/Topics/Engineering X-BEDEWORK-SUBMIT-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Alumni_Reunion:/publi c/aliases/Other/Alumni_Reunion X-BEDEWORK-SUBMIT-COMMENT: X-BEDEWORK-SUBMITTER-EMAIL:ismael.perezx@gmail.com X-BEDEWORK-DUKE-SPONSOR:/principals/users/agrp_PrattSchool X-BEDEWORK-SUBMITTEDBY:ip45 X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Alumni_Reunion:/user/public- user/Other/Alumni_Reunion X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Reception:/user/public-user/ Other/Reception X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Engineering:/user/public-use r/Topics/Engineering X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Main:/user/public-user/Utili ties/Main END:VEVENT BEGIN:VEVENT CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Lecture/Talk CATEGORIES:Panel/Seminar/Colloquium CATEGORIES:Main CONTACT;X-BEDEWORK-UID=18832edc-1b31c518-011b-40a23061-00000095:Hester\, G lenda CREATED:20180322T192457Z DESCRIPTION:Commercializing technologies developed on the lab bench is the dream of many research scientists and engineers. However\, to maximize the likelihood of commercialization\, it is important to be aware of the failure modes that bedevil technologies when companies try to develop the m into new products. Learn the main reason why new products fail through examples that span a wide range of companies and industries and take les sons from the ones that have succeeded. At the heart of this is how to b ring to market something that is solving a real unmet need within an ecos ystem that is primed to accept the innovation.\n\nIn this seminar\, Dr. V anessa Chan\, will discuss what she's learned as 1) a partner at McKinsey & Company helping Fortune 100 companies launch their new technologies 2) an entrepreneur launching her own invention and 3) an angel investor inv esting in technology led start-ups.\n\nVanessa Chan is an Entrepreneur\, Angel Investor\, Speaker\, Educator and Working Mom. She is a leading th inker in innovation and entrepreneurship where she thrives at the interfa ce of technology and business. Her speciality is translating technology/ product assets to meet unmet needs for B2B\, B2C and DTC Companies.\n\nVa nessa earned a Ph.D. from MIT\, a B.S.E. from the University of Pennsylva nia\, both in Materials Science and Engineering and holds three patents. DURATION:PT1H DTSTAMP:20180322T192457Z DTSTART;TZID=America/New_York:20180518T120000 LAST-MODIFIED:20180322T192457Z LOCATION;X-BEDEWORK-UID=18832edc-1b27e154-011b-2825f3ad-0000002f:Fitzpatri ck Center Schiciano Auditorium Side B\, room 1466 STATUS:CONFIRMED SUMMARY:Why Start-ups and New Products Fail and How to Avoid It UID:CAL-2c918085-6222e399-0162-4f2bdbc8-00001248demobedework@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=Lecture_Talk:/user/public-us er/Lectures_Conferences/Lecture_Talk X-BEDEWORK-CS;X-BEDEWORK-PARAM-DESCRIPTION="/principals/users/agrp_PrattSc hool,":Pratt School of Engineering X-BEDEWORK-SPEAKER:Vanessa Chan X-BEDEWORK-SUBMITTEDBY:ghester for Mechanical Engineering and Materials Sc ience (MEMS) (agrp_PrattSchool_MEMS) END:VEVENT BEGIN:VEVENT CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Lecture/Talk CATEGORIES:Main CONTACT;X-BEDEWORK-UID=18832e99-26ab716f-0126-ae72f266-0000006c:Labriola\, Liz CREATED:20180613T003736Z DESCRIPTION:UPGG Dissertation Defense - Nicholas Samuel Davis from the San deep Dave Lab DURATION:PT1H DTSTAMP:20180613T003736Z DTSTART;TZID=America/New_York:20180703T110000 LAST-MODIFIED:20180613T003736Z LOCATION;X-BEDEWORK-UID=18832edc-1b27e154-011b-2825f3ad-0000002f:Fitzpatri ck Center Schiciano Auditorium Side B\, room 1466 STATUS:CONFIRMED SUMMARY:Functional Drivers of Therapeutic Response in Diffuse Large B Cell Lymphoma UID:CAL-2c918085-63f27082-0163-f6939482-00001eb7demobedework@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-SPEAKER:Nicholas Samuel Davis X-BEDEWORK-DUKE-SERIES:UPGG Dissertation Defense X-BEDEWORK-SUBMITTEDBY:el81 for University Program in Genetics & Genomics (UPGG) (agrp_SchoolofMedicine_UPGG) END:VEVENT BEGIN:VEVENT CATEGORIES:Lectures/Conferences CATEGORIES:Other CATEGORIES:Utilities CATEGORIES:Lecture/Talk CATEGORIES:Information Session CATEGORIES:Main CONTACT;X-BEDEWORK-UID=18832edc-1c2ecfef-011c-46f0fbf5-000002ae:Carpenter\ , Ruby Nell CREATED:20180822T202021Z DESCRIPTION:"WELCOME / WELCOME BACK"\nAll CEE'ers are encouraged to come f or this casual gathering\n\nThe first seminar will not be a seminar lectu re\, but a "WELCOME GATHERING" for the new Fall 2018-19 academic year for all graduate students in Civil and Environmental Engineering. This will take place on Monday\, August 27th starting with Pizza at 11:30a outside Fitzpatrick Auditorium Side B and the Welcome at 12:00p. \n\nCEE speake rs / introductions:\n\nProfessor Mark Wiesner\, CEE Chair \nProfessor Fre d Boadu\, CEE Director of Graduate Studies\, PhD \nProfessor Mark Borsuk\ , CEE Director of Graduate Studies\, Masters/MEng \nProfessor Helen Hsu-K im\, Seminar Series/Graduate Student Colloquium\nCEE Office and Lab Staff introductions DURATION:PT1H DTSTAMP:20180822T202021Z DTSTART;TZID=America/New_York:20180827T120000 LAST-MODIFIED:20180822T202021Z LOCATION;X-BEDEWORK-UID=18832edc-1b27e154-011b-2825f3ad-0000002f:Fitzpatri ck Center Schiciano Auditorium Side B\, room 1466 STATUS:CONFIRMED SUMMARY:CEE "Welcome / Welcome Back" UID:CAL-2c918083-654b648f-0165-634b9326-000005f2demobedework@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=Information Session:/user/pu blic-user/Other/Information Session X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Lecture_Talk:/user/public-us er/Lectures_Conferences/Lecture_Talk X-BEDEWORK-SPEAKER:Professor Mark Wiesner\, CEE Chair X-BEDEWORK-DUKE-SERIES:CEE Fall 2018 Seminar Series X-BEDEWORK-SUBMITTEDBY:rubync 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=18832edc-1c2ecfef-011c-46f0fbf5-000002ae:Carpenter\ , Ruby Nell CREATED:20180830T190116Z DESCRIPTION:LABOR DAY\, NO SEMINAR DURATION:PT1H DTSTAMP:20180830T190255Z DTSTART;TZID=America/New_York:20180903T120000 LAST-MODIFIED:20180830T190255Z LOCATION;X-BEDEWORK-UID=18832edc-1b27e154-011b-2825f3ad-0000002f:Fitzpatri ck Center Schiciano Auditorium Side B\, room 1466 STATUS:CONFIRMED SUMMARY:LABOR DAY\, NO SEMINAR UID:CAL-2c918085-65748a7f-0165-8c360913-0000278fdemobedework@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-SUBMITTEDBY:rubync for Civil and Environmental Engineering (CEE ) (agrp_PrattSchool_CEE) END:VEVENT BEGIN:VEVENT CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Lecture/Talk CATEGORIES:Research CATEGORIES:Main CONTACT;X-BEDEWORK-UID=18832e99-20476e5b-0120-587daa86-000000bc:Burns\, Au gust CREATED:20180831T161208Z DESCRIPTION:Multiphoton microscopy has changed how we visualize neurons by providing high-resolution\, non-invasive imaging capability deep within intact brain tissue. Multiphoton imaging will likely play a major role in understanding how the brain works at the level of neural circuits. In th is talk\, the fundamental challenges of deep tissue\, high-resolution opt ical imaging are discussed. New technologies for in vivo structural and f unctional imaging of mouse brain using long wavelength excitation and thr ee-photon microscopy will be presented. We will illustrate the requiremen ts for imaging the dynamic neuronal activity at the cellular level over a large area and depth in awake and behaving animals\, and show applicatio ns where 3-photon microscopy outperforms conventional 2-photon microscopy in both signal strength and image contrast. Finally\, we will discuss se veral future directions\, including adaptive optics and new laser sources \, to further improve the imaging depth and speed in biological tissues. \nChris Xu is Professor of Applied and Engineering Physics\, Cornell Univ ersity. He is the founding co-director of Cornell Neurotech\, and the dir ector of Cornell NeuroNex Hub\, an NSF funded center for developing and d isseminating neurotechnology. Prior to Cornell\, he was a member of techn ical staff at Bell Laboratories\, and pioneered breakthrough development of fiber optic communication systems. He received his Ph.D. in Applied Ph ysics from Cornell University. DURATION:PT1H DTSTAMP:20180831T161208Z DTSTART;TZID=America/New_York:20180905T120000 LAST-MODIFIED:20180831T161208Z LOCATION;X-BEDEWORK-UID=18832edc-1b27e154-011b-2825f3ad-0000002f:Fitzpatri ck Center Schiciano Auditorium Side B\, room 1466 STATUS:CONFIRMED SUMMARY:FIP & MITP Seminar: Pushing the boundaries of multiphoton brain im aging UID:CAL-2c918085-65748a7f-0165-90c18d58-00006ad9demobedework@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=Research:/user/public-user/T opics/Research X-BEDEWORK-CS;X-BEDEWORK-PARAM-DESCRIPTION="/principals/users/agrp_Fitzpat rickInstitute,/principals/users/agrp_PrattSchool_MedicalImagingTraining," :Fitzpatrick Institute for Photonics (FIP)\,Medical Imaging Training Prog ram X-BEDEWORK-SPEAKER:Dr. Chris Xu\, Professor\, The Mong Family Foundation D irector\, Cornell Neurotech-Engineering\, Director of Cornell NeuroNex Hu b\, School of Applied and Engineering Physics\, Cornell University X-BEDEWORK-SUBMITTEDBY:jas36 for Neurobiology (agrp_SchoolofMedicine_Neuro biology) END:VEVENT BEGIN:VEVENT CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Panel/Seminar/Colloquium CATEGORIES:Main CONTACT;X-BEDEWORK-UID=18832e99-20476e5b-0120-587daa86-000000bc:Burns\, Au gust CREATED:20180712T201015Z DESCRIPTION:Multiphoton microscopy has changed how we visualize neurons by providing high-resolution\, non-invasive imaging capability deep within intact brain tissue. Multiphoton imaging will likely play a major role in understanding how the brain works at the level of neural circuits. In th is talk\, the fundamental challenges of deep tissue\, high-resolution opt ical imaging are discussed. New technologies for in vivo structural and f unctional imaging of mouse brain using long wavelength excitation and thr ee-photon microscopy will be presented. We will illustrate the requiremen ts for imaging the dynamic neuronal activity at the cellular level over a large area and depth in awake and behaving animals\, and show applicatio ns where 3-photon microscopy outperforms conventional 2-photon microscopy in both signal strength and image contrast. Finally\, we will discuss se veral future directions\, including adaptive optics and new laser sources \, to further improve the imaging depth and speed in biological tissues.\ nChris Xu is Professor of Applied and Engineering Physics\, Cornell Unive rsity. He is the founding co-director of Cornell Neurotech\, and the dire ctor of Cornell NeuroNex Hub\, an NSF funded center for developing and di sseminating neurotechnology. Prior to Cornell\, he was a member of techni cal staff at Bell Laboratories\, and pioneered breakthrough development o f fiber optic communication systems. He received his Ph.D. in Applied Phy sics from Cornell University. DURATION:PT1H DTSTAMP:20180815T162312Z DTSTART;TZID=America/New_York:20180905T120000 LAST-MODIFIED:20180815T162312Z LOCATION;X-BEDEWORK-UID=18832edc-1b27e154-011b-2825f3ad-0000002f:Fitzpatri ck Center Schiciano Auditorium Side B\, room 1466 STATUS:CONFIRMED SUMMARY:FIP & MITP Seminar: Pushing the boundaries of multiphoton brain im aging UID:CAL-2c918083-646b84b8-0164-901d97e1-000022a8demobedework@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_MedicalImagingTraining,":Medical Imaging Training Program X-BEDEWORK-SPEAKER:Dr. Chris Xu\, Professor\, The Mong Family Foundation D irector\, Cornell Neurotech-Engineering\, Director of Cornell NeuroNex Hu b\, School of Applied and Engineering Physics\, Cornell University X-BEDEWORK-SUBMITTEDBY:ahb11 for Fitzpatrick Institute for Photonics (FIP) (agrp_FitzpatrickInstitute) END:VEVENT BEGIN:VEVENT CATEGORIES:Lectures/Conferences CATEGORIES:Utilities CATEGORIES:Panel/Seminar/Colloquium CATEGORIES:Main CONTACT;X-BEDEWORK-UID=18832e99-251bf27f-0125-4ac22ae4-00000527:King\, Pam ela CREATED:20180706T155241Z DESCRIPTION:Abstract: With advances in iPS cell technology\, microfluidics and organoid biology\, we now have the capability to create models of si ngle- or multi-organ function for studies of function in health and disea se. These models have numerous applications ranging from the fundamental study of multi-cellular interactions to screening for new agents to trea t disease. In this talk\, the focus will be on models of the central or peripheral nervous system\, and how these can be used to study neurodegen erative diseases. Two models will be discussed. In one\, we develop a m odel of the blood-brain barrier and use it to study metastasis of breast cancer to the brain. A second example involves the development of a moto r unit model and its application to ALS drug screening. DURATION:PT1H DTSTAMP:20180813T140257Z DTSTART;TZID=America/New_York:20180906T120000 LAST-MODIFIED:20180813T140257Z LOCATION;X-BEDEWORK-UID=18832edc-1b27e154-011b-2825f3ad-0000002f:Fitzpatri ck Center Schiciano Auditorium Side B\, room 1466 STATUS:CONFIRMED SUMMARY:BioE Seminar: Applications of On-Chip Models of Neurodegenerative Diseases UID:CAL-2c918083-646b84b8-0164-704ba1a4-00001b25demobedework@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:Roger Kamm\, Professor\, Biological and Mechanical Engi neering\, Massachusetts Institute of Technology X-BEDEWORK-SUBMITTEDBY:king0054 for Center for Biomolecular and Tissue Eng ineering (CBTE) (agrp_PrattSchool_CBTE) END:VEVENT BEGIN:VEVENT CATEGORIES:Lectures/Conferences CATEGORIES:Other CATEGORIES:Utilities CATEGORIES:Lecture/Talk CATEGORIES:Information Session CATEGORIES:Main CONTACT;X-BEDEWORK-UID=18832edc-1c2ecfef-011c-46f0fbf5-000002ae:Carpenter\ , Ruby Nell CREATED:20180830T183725Z DESCRIPTION:Professor Fred Boadu invites all current CEE PhD students to d iscuss Exam Milestones. \n\nInterested faculty are also welcome to atten d. DURATION:PT1H DTSTAMP:20180830T183725Z DTSTART;TZID=America/New_York:20180910T120000 LAST-MODIFIED:20180830T183725Z LOCATION;X-BEDEWORK-UID=18832edc-1b27e154-011b-2825f3ad-0000002f:Fitzpatri ck Center Schiciano Auditorium Side B\, room 1466 STATUS:CONFIRMED SUMMARY:CEE Seminar - Exam Milestones for CEE PhD Students UID:CAL-2c918085-65748a7f-0165-8c203486-00002451demobedework@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=Lecture_Talk:/user/public-us er/Lectures_Conferences/Lecture_Talk X-BEDEWORK-ALIAS;X-BEDEWORK-PARAM-DISPLAYNAME=Information Session:/user/pu blic-user/Other/Information Session X-BEDEWORK-SPEAKER:Professor Fred Boadu\, Director of Graduate Studies X-BEDEWORK-DUKE-SERIES:CEE Fall 2018 Seminar Series X-BEDEWORK-SUBMITTEDBY:rubync 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=18832edc-1c2ecfef-011c-46f0fbf5-000002ae:Carpenter\ , Ruby Nell CREATED:20180830T185143Z DESCRIPTION:Many geomechanical applications\, such as geological disposal of nuclear waste and CO2\, require reliable predictions of the multiscale thermo-hydro-mechanical responses of fluid-infiltrating porous media exp osed to extreme environments. While hierarchical multiscale method such a s DEM-FEM and FEM2 are proven to be effective to link simulations between two length scales\, the multi-porosity nature of fractured porous media often leads to complex geometrical attributes that spans multiple length scales [1\,2\,3\,4]. This multiscale coupling is particularly difficult t o model for anisotropic materials where the principle direction of materi al responses is sensitive to the size of representation elementary volume [5]. In this seminar\, we will present an alternative homogenization a pproach that takes advantage of deep reinforcement learning.... DURATION:PT1H DTSTAMP:20180830T185229Z DTSTART;TZID=America/New_York:20180917T120000 LAST-MODIFIED:20180830T185229Z LOCATION;X-BEDEWORK-UID=18832edc-1b27e154-011b-2825f3ad-0000002f:Fitzpatri ck Center Schiciano Auditorium Side B\, room 1466 STATUS:CONFIRMED SUMMARY:CEE Seminar - Deep-Learning Enabled Multiscale Poromechanics: From Brittle Fracture to Ductile Flow UID:CAL-2c918085-65748a7f-0165-8c2d4b25-000024b0demobedework@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:WaiChing Sun\, Assistant Professor\, Columbia Universit y\, Dept. of Civil Engineering and Engineering Mechanics X-BEDEWORK-DUKE-SERIES:CEE Fall 2018 Seminar Series X-BEDEWORK-SUBMITTEDBY:rubync for Civil and Environmental Engineering (CEE ) (agrp_PrattSchool_CEE) END:VEVENT END:VCALENDAR