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Bioengineering","2024-08-07T03:43:07.625Z","2024-08-14T02:06:46.293Z","2024-08-07T03:43:09.603Z","21",{"id":526,"name":527,"alternativeText":16,"caption":16,"width":528,"height":529,"formats":530,"hash":549,"ext":20,"mime":21,"size":550,"url":551,"previewUrl":16,"provider":24,"provider_metadata":16,"createdAt":552,"updatedAt":552},47,"NIH-BIB2.png",829,216,{"small":531,"medium":537,"thumbnail":543},{"ext":20,"url":532,"hash":533,"mime":21,"name":534,"path":16,"size":535,"width":492,"height":536},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/small_NIH_BIB_2_32144643da.png","small_NIH_BIB_2_32144643da","small_NIH-BIB2.png",32.12,130,{"ext":20,"url":538,"hash":539,"mime":21,"name":540,"path":16,"size":541,"width":499,"height":542},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/medium_NIH_BIB_2_32144643da.png","medium_NIH_BIB_2_32144643da","medium_NIH-BIB2.png",64.01,195,{"ext":20,"url":544,"hash":545,"mime":21,"name":546,"path":16,"size":547,"width":506,"height":548},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/thumbnail_NIH_BIB_2_32144643da.png","thumbnail_NIH_BIB_2_32144643da","thumbnail_NIH-BIB2.png",10.62,64,"NIH_BIB_2_32144643da",19.59,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/NIH_BIB_2_32144643da.png","2024-08-14T02:06:43.448Z",{"id":56,"variation":41,"button":554},[555],{"id":556,"label":515,"size":46,"color":47,"style":16,"icon":516,"iconPosition":49,"url":557,"newWindow":51,"downloadable":16,"shape":16},8,"https://www.nih.gov/about-nih/what-we-do/nih-almanac/national-institute-biomedical-imaging-bioengineering-nibib","-1",{"id":146,"name":560,"description":54,"createdAt":561,"updatedAt":562,"publishedAt":563,"url_path_id":564,"logo":565,"website":598,"url_path":602},"NIH: National Institute of Neurological Disorders and Stroke","2024-08-07T03:44:38.773Z","2024-08-07T20:03:18.510Z","2024-08-07T03:44:40.091Z","22",{"id":94,"name":566,"alternativeText":16,"caption":16,"width":567,"height":568,"formats":569,"hash":594,"ext":20,"mime":21,"size":595,"url":596,"previewUrl":16,"provider":24,"provider_metadata":16,"createdAt":597,"updatedAt":597},"NIH-NINDS.png",1842,422,{"large":570,"small":577,"medium":582,"thumbnail":588},{"ext":20,"url":571,"hash":572,"mime":21,"name":573,"path":16,"size":574,"width":575,"height":576},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/large_NIH_NINDS_e15eed526e.png","large_NIH_NINDS_e15eed526e","large_NIH-NINDS.png",65.28,1000,229,{"ext":20,"url":578,"hash":579,"mime":21,"name":580,"path":16,"size":581,"width":492,"height":500},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/small_NIH_NINDS_e15eed526e.png","small_NIH_NINDS_e15eed526e","small_NIH-NINDS.png",27.32,{"ext":20,"url":583,"hash":584,"mime":21,"name":585,"path":16,"size":586,"width":499,"height":587},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/medium_NIH_NINDS_e15eed526e.png","medium_NIH_NINDS_e15eed526e","medium_NIH-NINDS.png",45.03,172,{"ext":20,"url":589,"hash":590,"mime":21,"name":591,"path":16,"size":592,"width":506,"height":593},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/thumbnail_NIH_NINDS_e15eed526e.png","thumbnail_NIH_NINDS_e15eed526e","thumbnail_NIH-NINDS.png",11.7,56,"NIH_NINDS_e15eed526e",17.43,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/NIH_NINDS_e15eed526e.png","2024-08-07T20:01:55.325Z",{"id":556,"variation":41,"button":599},[600],{"id":170,"label":515,"size":46,"color":47,"style":16,"icon":516,"iconPosition":49,"url":601,"newWindow":51,"downloadable":16,"shape":16},"https://www.ninds.nih.gov/","-2",{"id":120,"name":604,"description":54,"createdAt":605,"updatedAt":606,"publishedAt":607,"url_path_id":608,"logo":609,"website":643,"url_path":647},"National Science Foundation","2024-08-07T03:45:25.377Z","2024-08-07T20:02:58.206Z","2024-08-07T03:45:27.588Z","23",{"id":163,"name":610,"alternativeText":16,"caption":16,"width":611,"height":612,"formats":613,"hash":639,"ext":20,"mime":21,"size":640,"url":641,"previewUrl":16,"provider":24,"provider_metadata":16,"createdAt":642,"updatedAt":642},"NSF.png",1019,1025,{"large":614,"small":620,"medium":626,"thumbnail":632},{"ext":20,"url":615,"hash":616,"mime":21,"name":617,"path":16,"size":618,"width":619,"height":575},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/large_NSF_545d316cac.png","large_NSF_545d316cac","large_NSF.png",703.32,994,{"ext":20,"url":621,"hash":622,"mime":21,"name":623,"path":16,"size":624,"width":625,"height":492},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/small_NSF_545d316cac.png","small_NSF_545d316cac","small_NSF.png",229.17,497,{"ext":20,"url":627,"hash":628,"mime":21,"name":629,"path":16,"size":630,"width":631,"height":499},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/medium_NSF_545d316cac.png","medium_NSF_545d316cac","medium_NSF.png",457.72,746,{"ext":20,"url":633,"hash":634,"mime":21,"name":635,"path":16,"size":636,"width":637,"height":638},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/thumbnail_NSF_545d316cac.png","thumbnail_NSF_545d316cac","thumbnail_NSF.png",38.64,155,156,"NSF_545d316cac",149.28,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/NSF_545d316cac.png","2024-08-07T20:01:56.054Z",{"id":170,"variation":41,"button":644},[645],{"id":40,"label":515,"size":46,"color":47,"style":16,"icon":516,"iconPosition":49,"url":646,"newWindow":51,"downloadable":16,"shape":16},"https://www.nsf.gov/","-3",{"pagination":649},{"page":5,"pageSize":29,"pageCount":5,"total":120},{"id":296,"heading":291,"pageHeader":651,"sections":652},{"id":276,"description":16,"showPageHeader":51,"backgroundColor":58,"image":16},[653,1470],{"id":102,"__component":654,"componentVariation":655,"styles":16,"header":656,"contactGroup":659},"content.contacts","Contacts Flex Card Image Cover",{"id":256,"heading":16,"prose":657,"lead":16,"eyebrow":16,"badge":16,"componentVariation":658,"containerWidth":16,"image":16},"\u003Cdiv class=\"raw-html-embed\">\u003Cdiv class=\"not-prose pt-6 flex justify-center\">\n    \u003Ca href=\"/workshop-information/panelist-abstracts\" rel=\"noopener\" target=\"_blank\" class=\"btn-primary btn-md text-white btn last:!mr-0 gap-3\">\n        \u003Cspan>View Panelist Abstracts\u003C/span>\n        \u003Csvg xmlns=\"http://www.w3.org/2000/svg\" viewBox=\"0 0 24 24\" fill=\"currentColor\" aria-hidden=\"true\" class=\"h-5 w-5\">\n            \u003Cpath fill-rule=\"evenodd\" d=\"M16.28 11.47a.75.75 0 010 1.06l-7.5 7.5a.75.75 0 01-1.06-1.06L14.69 12 7.72 5.03a.75.75 0 011.06-1.06l7.5 7.5z\" clip-rule=\"evenodd\">\u003C/path>\n        \u003C/svg>\n    \u003C/a>\n\u003C/div>\u003C/div>\u003Chr>","Heading Center",[660,893,1100,1290],{"id":556,"groupTitle":661,"contacts":662},"Session 1: Topic 1 - Epilepsy & Cortical Disorders (Neuromodulation)",[663,705,733,752,780,820,848],{"id":664,"contact":665},39,{"id":170,"name":666,"committee":16,"position":16,"affiliation":667,"email":16,"biography":668,"createdAt":669,"updatedAt":670,"url_path_id":671,"contactPhoto":672,"socialLinks":700,"url_path":704},"Grace M. Hwang, Ph.D.","National Institute of Neurological Disorders and Stroke (NINDS)","\u003Cp>Dr. Grace Hwang is a Program Director at the National Institute of Neurological Disorders and Stroke where she manages projects in the Technologies for Neural Recording and Modulation portfolio as part of the BRAIN Initiative. Prior to joining the NIH, Dr. Hwang was a Program Director at the National Science Foundation while based at her home institution, Johns Hopkins University, with appointments in both the Applied Physics Laboratory and the Kavli Neuroscience Discovery Institute. At NSF, she managed the Disability and Rehabilitation Engineering program while also spearheading cross-agency initiatives including the Emerging Frontiers in Research and Innovation's Brain-Inspired Dynamics for Engineering Energy-Efficient Circuits and Artificial Intelligence (BRAID) topic. Her research career at Johns Hopkins spanned neuroscience, artificial intelligence, dynamical systems analysis, neuromodulation, brain-machine interface, and robotics. She served as a Principal Investigator on an NIH BRAIN award to investigate neural stimulation using sonogenetics and on an NSF award to develop a brain-inspired algorithm for multi-agent robotic control.\u003C/p>\u003Cp>She has contributed to the development of advanced science and technology programs for government agencies including IARPA, DARPA, and DHS. Additionally, she has held positions in industry throughout her career, leveraging her expertise in photonics to develop rapid, portable chemical and biological sensors. Grace received a B.S. (Summa cum Laude) from Northeastern and an M.S. from MIT in Civil and Environmental Engineering. She obtained her Ph.D. in Biophysics and Structural Biology from Brandeis University, where she studied computational neuroscience and human memory with Michael Kahana. Grace lives with her husband in Baltimore, where she enjoys walking along the Inner Harbor and practicing yoga in her home studio.\u003C/p>","2024-09-04T19:52:29.644Z","2024-09-09T18:28:45.617Z","38",{"id":283,"name":673,"alternativeText":16,"caption":16,"width":674,"height":675,"formats":676,"hash":696,"ext":678,"mime":21,"size":697,"url":698,"previewUrl":16,"provider":24,"provider_metadata":16,"createdAt":699,"updatedAt":699},"GMH_headshot_062024_small.PNG",872,987,{"small":677,"medium":684,"thumbnail":690},{"ext":678,"url":679,"hash":680,"mime":21,"name":681,"path":16,"size":682,"width":683,"height":492},".PNG","https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/small_GMH_headshot_062024_small_4a294b9145.PNG","small_GMH_headshot_062024_small_4a294b9145","small_GMH_headshot_062024_small.PNG",381.08,442,{"ext":678,"url":685,"hash":686,"mime":21,"name":687,"path":16,"size":688,"width":689,"height":499},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/medium_GMH_headshot_062024_small_4a294b9145.PNG","medium_GMH_headshot_062024_small_4a294b9145","medium_GMH_headshot_062024_small.PNG",834.01,663,{"ext":678,"url":691,"hash":692,"mime":21,"name":693,"path":16,"size":694,"width":695,"height":638},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/thumbnail_GMH_headshot_062024_small_4a294b9145.PNG","thumbnail_GMH_headshot_062024_small_4a294b9145","thumbnail_GMH_headshot_062024_small.PNG",40.13,138,"GMH_headshot_062024_small_4a294b9145",406.5,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/GMH_headshot_062024_small_4a294b9145.PNG","2024-09-09T18:28:42.988Z",[701],{"id":556,"url":702,"platform":703},"https://www.ninds.nih.gov/about-ninds/who-we-are/staff-directory/grace-m-hwang","Website","-13",{"id":706,"contact":707},40,{"id":40,"name":708,"committee":16,"position":16,"affiliation":709,"email":16,"biography":710,"createdAt":711,"updatedAt":711,"url_path_id":712,"contactPhoto":713,"socialLinks":729,"url_path":732},"Jessica Falcone","NIBIB’s Division of Discovery Science and Technology","\u003Cp>Dr. Jessica Falcone serves as a program director for NIBIB’s Division of Discovery Science and Technology. Dr. Falcone has a background in neural engineering and neuroscience. She received her Ph.D. from the Georgia Institute of Technology, where she studied brain electrodes and how to modulate the immune response and blood-brain barrier to extend chronic recordings. She then joined the Bioelectronic Medicine group at the Feinstein Institute of Medical Research and worked on chronic vagus nerve electrodes for murine models. Most recently, Dr. Falcone was a Technical Sales Engineer at Tucker-Davis Technologies (TDT) – a company that builds research systems for neuroscientists. Her technical expertise at TDT included electrophysiology, fiber photometry, auditory, and behavioral control.\u003C/p>","2024-09-04T19:58:44.043Z","39",{"id":714,"name":715,"alternativeText":16,"caption":16,"width":716,"height":716,"formats":717,"hash":725,"ext":719,"mime":722,"size":726,"url":727,"previewUrl":16,"provider":24,"provider_metadata":16,"createdAt":728,"updatedAt":728},51,"JFalconeStaffPhoto.jpg",400,{"thumbnail":718},{"ext":719,"url":720,"hash":721,"mime":722,"name":723,"path":16,"size":724,"width":638,"height":638},".jpg","https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/thumbnail_J_Falcone_Staff_Photo_589171854e.jpg","thumbnail_J_Falcone_Staff_Photo_589171854e","image/jpeg","thumbnail_JFalconeStaffPhoto.jpg",4.55,"J_Falcone_Staff_Photo_589171854e",17.78,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/J_Falcone_Staff_Photo_589171854e.jpg","2024-09-04T19:58:19.161Z",[730],{"id":170,"url":731,"platform":703},"https://www.nibib.nih.gov/about-nibib/staff/jessica-falcone","-14",{"id":734,"contact":735},41,{"id":736,"name":737,"committee":16,"position":16,"affiliation":738,"email":16,"biography":739,"createdAt":740,"updatedAt":740,"url_path_id":741,"contactPhoto":742,"socialLinks":750,"url_path":751},33,"Sydney Cash","MGH – Harvard U.","\u003Cp>The dynamics and patterning of neural activity and communications between brain areas in the cerebral cortex are of deep interest to neuroscientists. Better understanding cortical physiology may allow us to address a number of medical and societal challenges, from understanding the basis of epilepsy to understanding human cognition, sleep, dreams and even methods for interfacing computers to the brain to overcome major neurological and psychological problems.\u003C/p>\u003Cp>The Cash lab is probing how the brain works, both under both normal and pathological conditions, with an ultimate goal of developing techniques for diagnosing and treating some of the most devastating diseases. We are particularly focused on using approaches that extract information at multiple scales and then combine them into a more complete and meaningful understanding of brain physiology. We feel this multi-scalar, multi-modal approach is particularly powerful for understanding the human brain because of its complexity and architecture, which is, by nature, multi-scalar. This information can then be used to design therapeutic interventions including brain-computer (machine) neuroprosthetics that can restore function for those patients suffering from a wide variety of neuropsychiatric diseases. We employ non-invasive measures of brain activity (MEG, EEG, fMRI) and structure (MRI) to get a holistic view of the brain.  We also use very specialized methods of recording directly from either human or rodent cortex including techniques to record the activity of single human neurons while patients are awake (microelectrode recordings) and optogenetic methods to control individual neurons.\u003C/p>","2024-09-24T18:56:38.256Z","71",{"id":743,"name":744,"alternativeText":16,"caption":16,"width":745,"height":745,"formats":16,"hash":746,"ext":719,"mime":722,"size":747,"url":748,"previewUrl":16,"provider":24,"provider_metadata":16,"createdAt":749,"updatedAt":749},81,"Cash_Sydney-150x150.jpg",150,"Cash_Sydney_150x150_d411b505ef",4.58,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/Cash_Sydney_150x150_d411b505ef.jpg","2024-09-24T18:56:31.264Z",[],"-37",{"id":753,"contact":754},42,{"id":358,"name":755,"committee":16,"position":16,"affiliation":756,"email":16,"biography":757,"createdAt":758,"updatedAt":758,"url_path_id":759,"contactPhoto":760,"socialLinks":776,"url_path":779}," Nathan Crone","Johns Hopkins School of Medicine","\u003Cp>Dr. Nathan Crone focuses on the diagnosis and treatment of seizures and epilepsy, including the surgical treatment of epilepsy. He is also one of the attending physicians in the Epilepsy monitoring unit. Dr. Crone''s research interests include the real-time mapping of brain function to reduce the possibility of impacting brain function during surgery for epilepsy.\u003C/p>\u003Cp>He received his medical degree from Louisiana State University School of Medicine. He then completed his residency in neurology at the University of Chicago and fellowships in epilepsy and cognitive neurology at Johns Hopkins.\u003C/p>","2024-09-24T18:58:11.838Z","72",{"id":761,"name":762,"alternativeText":16,"caption":16,"width":763,"height":764,"formats":765,"hash":772,"ext":719,"mime":722,"size":773,"url":774,"previewUrl":16,"provider":24,"provider_metadata":16,"createdAt":775,"updatedAt":775},82,"crone-nathan-1235186370.jpg",200,250,{"thumbnail":766},{"ext":719,"url":767,"hash":768,"mime":722,"name":769,"path":16,"size":770,"width":771,"height":638},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/thumbnail_crone_nathan_1235186370_912f681bb1.jpg","thumbnail_crone_nathan_1235186370_912f681bb1","thumbnail_crone-nathan-1235186370.jpg",4.27,125,"crone_nathan_1235186370_912f681bb1",7.78,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/crone_nathan_1235186370_912f681bb1.jpg","2024-09-24T18:57:47.185Z",[777],{"id":193,"url":778,"platform":703},"https://profiles.hopkinsmedicine.org/provider/nathan-e-crone/2708066","-38",{"id":781,"contact":782},43,{"id":276,"name":783,"committee":16,"position":16,"affiliation":784,"email":16,"biography":785,"createdAt":786,"updatedAt":787,"url_path_id":788,"contactPhoto":789,"socialLinks":816,"url_path":819},"Giacomo Valle","Chalmers University of Technology Goteborg, Sweden","\u003Cp>Dr. Valle received the B.S in Biomedical Engineering, in 2014, and the M.S. in Bioengineering curriculum Neuroengineering, in 2016, from the Department of Computer Science in University of Genoa, Italy. He finished the Ph.D in Biorobotics (cum laude) at the The Biorobotics Institute, Scuola Superiore Sant’Anna (Pisa, Italy) and EPFL. He then worked as postdoctoral researcher at the NeuroEngineering Laboratory, ETH Zurich, Switzerland from Nov 2019 to Sep 2022. He completed an MBA in bio-entrepreneurship for medical devices in 2022 by University of Bern. He co-founded a medtech startup called MYNERVA, supported by Wyss Zurich. From Oct 2022 to June 2024 I worked as a Postdoctoral Fellow at the University of Chicago, USA.\u003C/p>\u003Cp>Currently, Dr. Valle is a Tenure-track Assistant Professor in Bionics at the Dept. of Electrical Engineering at Chalmers University of Technology, Goteborg, Sweden.\u003C/p>\u003Cp>In his career, Dr. Valle published more than 50 peer-reviewed articles in prestigious journals (Nature Medicine, Science Translational Medicine, Neuron etc) patents and book chapters. Dr. Valle received important awards in the field of bionics such as: the Research Prize by Furst Donnersmark Stiftung Berlin 2021, the Sir Henry Royce Medal 2021 IET Achievement Award by IET, the FENS EJN Young Investigator Prize 2022 by FENS, the Misha Mahowald Prize for Neuromorphic Engineering 2021 and many more. Dr. Valle was nominated indeed as an ETH Zurich Ambassador and among the Forbes Under 30 in Science 2021.  \u003C/p>\u003Cp>His research plan is to exploit this novel approach of biomimetic neural stimulation strategy not only to improve the efficacy of the neuroprostheses but also to better understand the underlying mechanisms of the sensory processing.”\u003C/p>","2024-09-24T15:58:12.161Z","2024-10-15T13:48:52.045Z","56",{"id":548,"name":790,"alternativeText":16,"caption":16,"width":791,"height":792,"formats":793,"hash":812,"ext":20,"mime":21,"size":813,"url":814,"previewUrl":16,"provider":24,"provider_metadata":16,"createdAt":815,"updatedAt":815},"0.png",658,945,{"small":794,"medium":800,"thumbnail":806},{"ext":20,"url":795,"hash":796,"mime":21,"name":797,"path":16,"size":798,"width":799,"height":492},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/small_0_f439c40be5.png","small_0_f439c40be5","small_0.png",366.64,348,{"ext":20,"url":801,"hash":802,"mime":21,"name":803,"path":16,"size":804,"width":805,"height":499},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/medium_0_f439c40be5.png","medium_0_f439c40be5","medium_0.png",797.7,522,{"ext":20,"url":807,"hash":808,"mime":21,"name":809,"path":16,"size":810,"width":811,"height":638},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/thumbnail_0_f439c40be5.png","thumbnail_0_f439c40be5","thumbnail_0.png",42.66,109,"0_f439c40be5",264.1,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/0_f439c40be5.png","2024-09-24T15:57:38.216Z",[817],{"id":322,"url":818,"platform":703},"https://www.neuralbionicslab.com/","-24",{"id":821,"contact":822},44,{"id":365,"name":823,"committee":16,"position":16,"affiliation":824,"email":16,"biography":825,"createdAt":826,"updatedAt":826,"url_path_id":827,"contactPhoto":828,"socialLinks":844,"url_path":847},"Kendall Lee","Mayo Clinic, MN","\u003Cp>Kendall H. Lee, M.D., Ph.D., is a neurosurgeon specializing in stereotactic and functional neurosurgery. He is also the director of Neural Engineering laboratories at Mayo Clinic. His clinical focus includes:\u003C/p>\u003Cp>Parkinson's disease\u003Cbr>Essential tremor\u003Cbr>Dystonia\u003Cbr>Psychiatric disorders such as obsessive-compulsive disorder and depression\u003Cbr>Chronic pain\u003Cbr>His clinical activities include the Mayo Clinic Deep Brain Stimulation Program as well as cortical stimulation.\u003C/p>\u003Cp>Dr. Lee directs the Mayo Neural Engineering laboratories where he studies mechanism action of deep brain stimulation as well as other neuromodulation technologies. His research is being funded through the National Institutes of Health as well as foundation grants.\u003C/p>\u003Cp>He has full teaching privileges within the Mayo Clinic Graduate School of Biomedical Sciences and has trained undergraduates, master studies, Ph.D. students, postdoctoral fellows and junior faculty.\u003C/p>","2024-09-24T19:01:54.056Z","73",{"id":829,"name":830,"alternativeText":16,"caption":16,"width":831,"height":831,"formats":832,"hash":840,"ext":834,"mime":837,"size":841,"url":842,"previewUrl":16,"provider":24,"provider_metadata":16,"createdAt":843,"updatedAt":843},83,"lee-kendall-440.webp",440,{"thumbnail":833},{"ext":834,"url":835,"hash":836,"mime":837,"name":838,"path":16,"size":839,"width":638,"height":638},".webp","https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/thumbnail_lee_kendall_440_12e4afbfb1.webp","thumbnail_lee_kendall_440_12e4afbfb1","image/webp","thumbnail_lee-kendall-440.webp",4.12,"lee_kendall_440_12e4afbfb1",15.49,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/lee_kendall_440_12e4afbfb1.webp","2024-09-24T19:01:33.240Z",[845],{"id":337,"url":846,"platform":703},"https://www.mayoclinic.org/biographies/lee-kendall-h-m-d-ph-d/bio-20054858","-39",{"id":14,"contact":849},{"id":384,"name":850,"committee":16,"position":16,"affiliation":851,"email":16,"biography":852,"createdAt":853,"updatedAt":853,"url_path_id":854,"contactPhoto":855,"socialLinks":889,"url_path":892},"Chris Rozell","GTech","\u003Cp>Christopher J. Rozell received a B.S.E. degree in Computer Engineering and a B.F.A. degree in Music in 2000 from the University of Michigan, received M.S. and Ph.D. degrees in Electrical Engineering in 2002 and 2007 from Rice University, and was a postdoctoral scholar at the Redwood Center for Theoretical Neuroscience at the University of California, Berkeley.\u003C/p>\u003Cp>Dr. Rozell's research interests are in computational neuroengineering, an intersection of neuroscience, data science, neurotechnology and computational modeling that advances the understanding of brain function and the design of effective interventions. His research has a particular focus on exploiting closed-loop interactions between biological and artificial intelligence to create precision models and algorithms, with a clinical focus on psychiatric disorders such as treatment resistant depression.\u003C/p>\u003Cp>His scholarly activity also includes research and creative work that advances our understanding of the societal impacts of emerging technologies such as neurotechnology and AI.\u003C/p>\u003Cp>Dr. Rozell is proud to be a first-generation scholar who is committed to accessibility in our scientific communities. He is a co-founder and member of the Board of Directors of Neuromatch, Inc., a global nonprofit increasing access to scientific knowledge.\u003C/p>","2024-09-24T19:03:55.808Z","74",{"id":856,"name":857,"alternativeText":16,"caption":16,"width":858,"height":859,"formats":860,"hash":885,"ext":834,"mime":837,"size":886,"url":887,"previewUrl":16,"provider":24,"provider_metadata":16,"createdAt":888,"updatedAt":888},84,"Rozell_2018[45].webp",801,1200,{"large":861,"small":867,"medium":873,"thumbnail":879},{"ext":834,"url":862,"hash":863,"mime":837,"name":864,"path":16,"size":865,"width":866,"height":575},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/large_Rozell_2018_45_0452b68d13.webp","large_Rozell_2018_45_0452b68d13","large_Rozell_2018[45].webp",22.24,668,{"ext":834,"url":868,"hash":869,"mime":837,"name":870,"path":16,"size":871,"width":872,"height":492},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/small_Rozell_2018_45_0452b68d13.webp","small_Rozell_2018_45_0452b68d13","small_Rozell_2018[45].webp",9.55,334,{"ext":834,"url":874,"hash":875,"mime":837,"name":876,"path":16,"size":877,"width":878,"height":499},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/medium_Rozell_2018_45_0452b68d13.webp","medium_Rozell_2018_45_0452b68d13","medium_Rozell_2018[45].webp",15.94,501,{"ext":834,"url":880,"hash":881,"mime":837,"name":882,"path":16,"size":883,"width":884,"height":638},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/thumbnail_Rozell_2018_45_0452b68d13.webp","thumbnail_Rozell_2018_45_0452b68d13","thumbnail_Rozell_2018[45].webp",2.32,104,"Rozell_2018_45_0452b68d13",32.03,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/Rozell_2018_45_0452b68d13.webp","2024-09-24T19:03:34.907Z",[890],{"id":250,"url":891,"platform":703},"https://ece.gatech.edu/directory/christopher-john-rozell","-40",{"id":138,"groupTitle":894,"contacts":895},"Session 2: Topic 2 - Human-machine interfaces (Prosthetics)",[896,931,977,1011,1044,1069],{"id":897,"contact":898},78,{"id":127,"name":899,"committee":16,"position":16,"affiliation":900,"email":16,"biography":901,"createdAt":902,"updatedAt":903,"url_path_id":904,"contactPhoto":905,"socialLinks":927,"url_path":930},"Francisco Valero-Cuevas","University of Southern California","\u003Cp style=\"margin-left:0px;\">The Valero Laboratory, directed by Francisco Valero-Cuevas, is dedicated to understanding the biomechanics, neuromuscular control and clinical rehabilitation of complex neuromuscular systems such as the human hand. Toward this end, he and his team employ a synergy of experimental and theoretical techniques. This diverse experimental arsenal ranges from EMG recordings and custom-made virtual reality modules to human brain mapping with fMRI. These procedures in turn inform theoretical work to characterize neuromuscular function through rigorous and complete neuromuscular computer models, artificial intelligence and nonlinear systems analysis.\u003C/p>\u003Cp style=\"margin-left:0px;\">The lab focuses on the fundamental mechanisms of interactions between the brain and the body that give rise to versatile physical function. His team’s conceptual approach is that machines and organisms are part of a continuum of solutions that have evolved to respond to the demands of the physical environment. They differ only in their means to respond to these demands. Therefore, the apparently separate fields of neuroscience, computation and modeling, biomechanics, manipulation, robotics and clinical research (which have historically been mostly studied in isolation) can be combined and applied to the grand challenges of reverse engineering neuromuscular systems to understand the neuromechanical basis for versatile physical function, improve clinical restoration of function and create innovative and versatile machines.\u003C/p>","2024-08-07T03:54:08.293Z","2024-09-24T19:36:22.790Z","29",{"id":507,"name":906,"alternativeText":16,"caption":16,"width":907,"height":908,"formats":909,"hash":923,"ext":911,"mime":722,"size":924,"url":925,"previewUrl":16,"provider":24,"provider_metadata":16,"createdAt":926,"updatedAt":926},"Valero-Cuevas-cr-John-Skalicky-600x670-585x653-1.jpeg",585,653,{"small":910,"thumbnail":917},{"ext":911,"url":912,"hash":913,"mime":722,"name":914,"path":16,"size":915,"width":916,"height":492},".jpeg","https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/small_Valero_Cuevas_cr_John_Skalicky_600x670_585x653_1_fa49f8efc8.jpeg","small_Valero_Cuevas_cr_John_Skalicky_600x670_585x653_1_fa49f8efc8","small_Valero-Cuevas-cr-John-Skalicky-600x670-585x653-1.jpeg",22.03,448,{"ext":911,"url":918,"hash":919,"mime":722,"name":920,"path":16,"size":921,"width":922,"height":638},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/thumbnail_Valero_Cuevas_cr_John_Skalicky_600x670_585x653_1_fa49f8efc8.jpeg","thumbnail_Valero_Cuevas_cr_John_Skalicky_600x670_585x653_1_fa49f8efc8","thumbnail_Valero-Cuevas-cr-John-Skalicky-600x670-585x653-1.jpeg",4.08,140,"Valero_Cuevas_cr_John_Skalicky_600x670_585x653_1_fa49f8efc8",33.63,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/Valero_Cuevas_cr_John_Skalicky_600x670_585x653_1_fa49f8efc8.jpeg","2024-08-07T20:13:03.074Z",[928],{"id":127,"url":929,"platform":703},"https://pt.usc.edu/faculty/francisco-valero-cuevas-phd/","-8",{"id":932,"contact":933},79,{"id":120,"name":934,"committee":16,"position":16,"affiliation":935,"email":16,"biography":936,"createdAt":937,"updatedAt":938,"url_path_id":939,"contactPhoto":940,"socialLinks":973,"url_path":976},"Luke Osborn","Case Western Reserve University","\u003Cp>Luke E. Osborn grew up dreaming of a career in baseball. While unsuccessful in chasing that dream at the University of Arkansas, he chose to study engineering as an undergraduate student because he liked building things and wanted to learn how they worked.\u003C/p>\u003Cp>That’s when he realized a new passion—designing and building robots that could help people. That new passion drove him to pursue a master’s and PhD in biomedical engineering from Johns Hopkins University.\u003C/p>\u003Cp>“My favorite thing about engineering was realizing that I had the tools to design, create, and build new things,” he shared.\u003C/p>\u003Cp>Now, Osborn is an assistant professor in the Department of Biomedical Engineering and is focused on neuroengineering, biomedical instrumentation, wearable devices, human function and performance, sensory perception and human-machine interfaces. He will teach classes like Principles of Biomedical Instrumentation where he is eager to cover sensors that connect with humans to measure physiological signals.\u003C/p>\u003Cp>“I like hands-on approaches to building circuits and sensors,” he said. “The learning experience is a lot more exciting when you can actually see what happens when you plug in your power supply backwards.”\u003C/p>","2024-08-07T03:53:54.923Z","2024-09-24T19:37:45.807Z","28",{"id":781,"name":941,"alternativeText":16,"caption":16,"width":942,"height":943,"formats":944,"hash":969,"ext":719,"mime":722,"size":970,"url":971,"previewUrl":16,"provider":24,"provider_metadata":16,"createdAt":972,"updatedAt":972},"luke-osborn3.jpg",1440,1824,{"large":945,"small":951,"medium":957,"thumbnail":963},{"ext":719,"url":946,"hash":947,"mime":722,"name":948,"path":16,"size":949,"width":950,"height":575},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/large_luke_osborn3_d47a264d81.jpg","large_luke_osborn3_d47a264d81","large_luke-osborn3.jpg",67.06,789,{"ext":719,"url":952,"hash":953,"mime":722,"name":954,"path":16,"size":955,"width":956,"height":492},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/small_luke_osborn3_d47a264d81.jpg","small_luke_osborn3_d47a264d81","small_luke-osborn3.jpg",22.71,395,{"ext":719,"url":958,"hash":959,"mime":722,"name":960,"path":16,"size":961,"width":962,"height":499},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/medium_luke_osborn3_d47a264d81.jpg","medium_luke_osborn3_d47a264d81","medium_luke-osborn3.jpg",42.19,592,{"ext":719,"url":964,"hash":965,"mime":722,"name":966,"path":16,"size":967,"width":968,"height":638},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/thumbnail_luke_osborn3_d47a264d81.jpg","thumbnail_luke_osborn3_d47a264d81","thumbnail_luke-osborn3.jpg",4.33,123,"luke_osborn3_d47a264d81",180.03,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/luke_osborn3_d47a264d81.jpg","2024-08-07T20:20:22.143Z",[974],{"id":120,"url":975,"platform":703},"https://pages.jh.edu/losborn4/","-7",{"id":978,"contact":979},80,{"id":753,"name":980,"committee":16,"position":16,"affiliation":981,"email":16,"biography":982,"createdAt":983,"updatedAt":983,"url_path_id":984,"contactPhoto":985,"socialLinks":1006,"url_path":1010},"Vikash Gilja","UCSD","\u003Cp>Dr. Gilja received his Ph.D. in Computer Science from Stanford University in 2010.  His graduate work focused on the development of novel neural recording systems and high performance brain machine interfaces.  Subsequently, as a research associate, he helped found the Neural Prosthetics Translational Laboratory at Stanford University and worked to translate his graduate work to clinical application. Dr. Gilja is a Siebel Scholar and was awarded the NSF Graduate Research Fellowship and the NDSEG Fellowship. His research interests are oriented towards applying biosensor technologies, imaging techniques, and real time signal processing algorithms to advance the engineering science and clinical application of brain machine interface.  Dr. Gilja teaches undergraduate courses in systems engineering and signal processing and graduate seminars in neural engineering.\u003C/p>\u003Cp> \u003C/p>","2024-09-24T19:18:53.794Z","80",{"id":986,"name":987,"alternativeText":16,"caption":16,"width":988,"height":989,"formats":990,"hash":1002,"ext":719,"mime":722,"size":1003,"url":1004,"previewUrl":16,"provider":24,"provider_metadata":16,"createdAt":1005,"updatedAt":1005},91,"365.jpg",480,655,{"small":991,"thumbnail":997},{"ext":719,"url":992,"hash":993,"mime":722,"name":994,"path":16,"size":995,"width":996,"height":492},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/small_365_ea0b086a2c.jpg","small_365_ea0b086a2c","small_365.jpg",25.12,366,{"ext":719,"url":998,"hash":999,"mime":722,"name":1000,"path":16,"size":1001,"width":396,"height":638},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/thumbnail_365_ea0b086a2c.jpg","thumbnail_365_ea0b086a2c","thumbnail_365.jpg",4.4,"365_ea0b086a2c",32.82,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/365_ea0b086a2c.jpg","2024-09-24T19:18:31.788Z",[1007,1008],{"id":365,"url":16,"platform":16},{"id":384,"url":1009,"platform":703},"https://jacobsschool.ucsd.edu/node/3537","-46",{"id":743,"contact":1012},{"id":781,"name":1013,"committee":16,"position":16,"affiliation":1014,"email":16,"biography":1015,"createdAt":1016,"updatedAt":1016,"url_path_id":1017,"contactPhoto":1018,"socialLinks":1040,"url_path":1043},"Xing Chen","U. Pittsburgh","\u003Cp>Assistant Professor of Ophthalmology \u003C/p>\u003Cp>Education & Training\u003C/p>\u003Cul>\u003Cli>2020-2022 Senior researcher (lab of Pieter Roelfsema), Netherlands Institute for Neuroscience\u003C/li>\u003Cli>2014-2020 Postdoctoral researcher (lab of Pieter Roelfsema), Netherlands Institute for Neuroscience\u003C/li>\u003Cli>2008-2014 Ph.D. in Visual Neuroscience (lab of Alexander Thiele), Newcastle University\u003C/li>\u003C/ul>","2024-09-24T19:22:29.140Z","81",{"id":1019,"name":1020,"alternativeText":16,"caption":16,"width":1021,"height":1022,"formats":1023,"hash":1036,"ext":719,"mime":722,"size":1037,"url":1038,"previewUrl":16,"provider":24,"provider_metadata":16,"createdAt":1039,"updatedAt":1039},92,"CHEN_XING_PHD_OPH_20221220 crop.jpg",700,537,{"small":1024,"thumbnail":1030},{"ext":719,"url":1025,"hash":1026,"mime":722,"name":1027,"path":16,"size":1028,"width":492,"height":1029},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/small_CHEN_XING_PHD_OPH_20221220_crop_ac7433b1c5.jpg","small_CHEN_XING_PHD_OPH_20221220_crop_ac7433b1c5","small_CHEN_XING_PHD_OPH_20221220 crop.jpg",22.85,384,{"ext":719,"url":1031,"hash":1032,"mime":722,"name":1033,"path":16,"size":1034,"width":1035,"height":638},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/thumbnail_CHEN_XING_PHD_OPH_20221220_crop_ac7433b1c5.jpg","thumbnail_CHEN_XING_PHD_OPH_20221220_crop_ac7433b1c5","thumbnail_CHEN_XING_PHD_OPH_20221220 crop.jpg",5.67,204,"CHEN_XING_PHD_OPH_20221220_crop_ac7433b1c5",40.11,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/CHEN_XING_PHD_OPH_20221220_crop_ac7433b1c5.jpg","2024-09-24T19:21:46.278Z",[1041],{"id":329,"url":1042,"platform":703},"https://ophthalmology.pitt.edu/people/xing-chen-phd","-47",{"id":761,"contact":1045},{"id":821,"name":1046,"committee":16,"position":16,"affiliation":1047,"email":16,"biography":1048,"createdAt":1049,"updatedAt":1049,"url_path_id":1050,"contactPhoto":1051,"socialLinks":1065,"url_path":1068}," Helen Huang","U. North Carolina","\u003Cp style=\"margin-left:0px;\">Helen’s research interest lies in science and technology that can establish and enhance a symbiotic relationship between humans and wearable assistive machines (such as robotic prostheses and exoskeletons) in order to improve mobility and quality of life of individuals with disabilities. Her research goal is to create breakthroughs in human-machine symbiotic (HMS) systems that empower disabled people to lead more active and productive lives.\u003C/p>\u003Cp style=\"margin-left:0px;\">Dr. Huang is also the Director of the Closed-Loop Engineering for Advanced Rehabilitation (CLEAR) core and the co-director of NIDILRR funded Rehabilitation Engineering Research Center, called Assisting Stroke Survivors with Engineering Technology (ASSET). Dr. Huang is a current Editorial Board Member for \u003Ci>IEEE Transactions on Biomedical Engineering\u003C/i>, an Associate Editor of the \u003Ci>IEEE Transactions on Neural Systems and Rehabilitation Engineering\u003C/i>, \u003Ci>the Journal of NeuroEngineering and Rehabilitation\u003C/i>, and \u003Ci>the Wearable Technologies\u003C/i>, and a guest Editor for \u003Ci>the IEEE Transaction on Robotics\u003C/i> and \u003Ci>Current Opinion in Biomedical Engineering.\u003C/i>\u003C/p>","2024-09-24T19:23:35.871Z","82",{"id":1052,"name":1053,"alternativeText":16,"caption":16,"width":1054,"height":1054,"formats":1055,"hash":1061,"ext":719,"mime":722,"size":1062,"url":1063,"previewUrl":16,"provider":24,"provider_metadata":16,"createdAt":1064,"updatedAt":1064},93,"Helen-Huang1-e1614129333641-wpcf_240x240.jpg",240,{"thumbnail":1056},{"ext":719,"url":1057,"hash":1058,"mime":722,"name":1059,"path":16,"size":1060,"width":638,"height":638},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/thumbnail_Helen_Huang1_e1614129333641_wpcf_240x240_ea7db9e9f6.jpg","thumbnail_Helen_Huang1_e1614129333641_wpcf_240x240_ea7db9e9f6","thumbnail_Helen-Huang1-e1614129333641-wpcf_240x240.jpg",5.02,"Helen_Huang1_e1614129333641_wpcf_240x240_ea7db9e9f6",9.23,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/Helen_Huang1_e1614129333641_wpcf_240x240_ea7db9e9f6.jpg","2024-09-24T19:23:11.622Z",[1066],{"id":507,"url":1067,"platform":703},"https://bme.unc.edu/bme-person/he-helen-huang/","-48",{"id":829,"contact":1070},{"id":14,"name":1071,"committee":16,"position":16,"affiliation":1072,"email":16,"biography":1073,"createdAt":1074,"updatedAt":1075,"url_path_id":1076,"contactPhoto":1077,"socialLinks":1096,"url_path":1099},"Nitish Thakor","Johns Hopkins U.","\u003Cp style=\"margin-left:revert;\">r. Nitish Thakor is a professor of biomedical engineering and neurology at the Johns Hopkins University School of Medicine. He also has an appointment in the Johns Hopkins Department of Electrical and Computer Engineering. He conducts research on neurological instrumentation, biomedical signal processing, micro and nanotechnologies, neural prosthesis, clinical applications of neural and rehabilitation technologies, and brain-machine interface.\u003C/p>\u003Cp style=\"margin-left:revert;\">Dr. Thakor directs the Laboratory for Neuroengineering and is also the director of the NIH Training Grant on Neuroengineering.\u003C/p>\u003Cp style=\"margin-left:revert;\">One of Dr. Thakor’s research projects, in collaboration with a multi-university consortium funded by DARPA, focuses on developing a next generation neurally controlled upper limb prosthesis. He is actively engaged in developing international scientific programs, collaborative exchanges, tutorials and conferences in the field of biomedical engineering.\u003C/p>\u003Cp style=\"margin-left:revert;\">He received his undergraduate degree from the Indian Institute of Technology, in Bombay, India. He earned both a M.S. in and a Ph.D. in biomedical engineering from the University of Wisconsin-Madison. Dr. Thakor joined the Johns Hopkins faculty in 1983.\u003C/p>\u003Cp style=\"margin-left:revert;\">Dr. Thakor is a co-author of more than 250 refereed journal papers and is currently the editor-in-chief of Medical and Biological Engineering and Computing. He was also the editor-in-chief of IEEE Transactions on Neural Systems and Rehabilitation Engineering from 2005 - 2011. In addition, Dr. Thakor is a recipient of a Research\u003C/p>","2024-09-24T19:28:46.291Z","2024-09-24T19:40:28.373Z","83",{"id":1078,"name":1079,"alternativeText":16,"caption":16,"width":1080,"height":1080,"formats":1081,"hash":1092,"ext":834,"mime":837,"size":1093,"url":1094,"previewUrl":16,"provider":24,"provider_metadata":16,"createdAt":1095,"updatedAt":1095},94,"Nitish-Thakor.webp",600,{"small":1082,"thumbnail":1087},{"ext":834,"url":1083,"hash":1084,"mime":837,"name":1085,"path":16,"size":1086,"width":492,"height":492},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/small_Nitish_Thakor_207cc24ac0.webp","small_Nitish_Thakor_207cc24ac0","small_Nitish-Thakor.webp",31.39,{"ext":834,"url":1088,"hash":1089,"mime":837,"name":1090,"path":16,"size":1091,"width":638,"height":638},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/thumbnail_Nitish_Thakor_207cc24ac0.webp","thumbnail_Nitish_Thakor_207cc24ac0","thumbnail_Nitish-Thakor.webp",4.83,"Nitish_Thakor_207cc24ac0",46.4,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/Nitish_Thakor_207cc24ac0.webp","2024-09-24T19:28:03.651Z",[1097],{"id":664,"url":1098,"platform":703},"https://www.bme.jhu.edu/people/faculty/nitish-v-thakor/","-49",{"id":322,"groupTitle":1101,"contacts":1102},"Session 3: Topic 3 - Materials for Neuromorphics (Devices)",[1103,1148,1174,1200,1226,1265],{"id":856,"contact":1104},{"id":146,"name":1105,"committee":16,"position":16,"affiliation":1106,"email":16,"biography":1107,"createdAt":1108,"updatedAt":1109,"url_path_id":1110,"contactPhoto":1111,"socialLinks":1144,"url_path":1147},"Duygu Kuzum","University of California","\u003Cp>\u003Cspan style=\"background-color:rgb(255,255,255);color:rgb(59,59,59);\">Duygu Kuzum received her Ph.D. in electrical engineering from Stanford University in 2010, followed by a postdoctoral fellowship in bioengineering at University of Pennsylvania from 2011 to 2015. In 2004, she received her B.S. in electrical engineering from Bilkent University in Ankara, Turkey. She is the author or co-author of over 40 journal and conference papers. Her work on nanoelectronic devices was featured on the cover of Nano Letters, highlighted in Nature and covered by several media outlets (New Scientist, Stanford News Report, Nanowerk, EE Times). She was a recipient of various awards including a Texas Instruments Fellowship and Intel Foundation Fellowship, PopTech Science and Public Leaders Fellowship Award in 2013 and Penn Neuroscience Pilot Innovative Research Award in 2014. She was also named among the Innovators Under 35 (TR35) by MIT Technology Review in 2014.\u003C/span>\u003C/p>","2024-08-07T03:53:42.276Z","2024-09-24T18:31:31.826Z","27",{"id":329,"name":1112,"alternativeText":16,"caption":16,"width":1113,"height":1114,"formats":1115,"hash":1140,"ext":719,"mime":722,"size":1141,"url":1142,"previewUrl":16,"provider":24,"provider_metadata":16,"createdAt":1143,"updatedAt":1143},"AJK.jpg",3280,3828,{"large":1116,"small":1122,"medium":1128,"thumbnail":1134},{"ext":719,"url":1117,"hash":1118,"mime":722,"name":1119,"path":16,"size":1120,"width":1121,"height":575},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/large_AJK_be6906104e.jpg","large_AJK_be6906104e","large_AJK.jpg",71.85,857,{"ext":719,"url":1123,"hash":1124,"mime":722,"name":1125,"path":16,"size":1126,"width":1127,"height":492},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/small_AJK_be6906104e.jpg","small_AJK_be6906104e","small_AJK.jpg",23.4,428,{"ext":719,"url":1129,"hash":1130,"mime":722,"name":1131,"path":16,"size":1132,"width":1133,"height":499},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/medium_AJK_be6906104e.jpg","medium_AJK_be6906104e","medium_AJK.jpg",44.18,643,{"ext":719,"url":1135,"hash":1136,"mime":722,"name":1137,"path":16,"size":1138,"width":1139,"height":638},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/thumbnail_AJK_be6906104e.jpg","thumbnail_AJK_be6906104e","thumbnail_AJK.jpg",4.26,134,"AJK_be6906104e",974.13,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/AJK_be6906104e.jpg","2024-08-07T20:12:48.016Z",[1145],{"id":146,"url":1146,"platform":703},"https://jacobsschool.ucsd.edu/people/profile/duygu-kuzum","-6",{"id":1149,"contact":1150},85,{"id":329,"name":1151,"committee":16,"position":16,"affiliation":1152,"email":16,"biography":1153,"createdAt":1154,"updatedAt":1154,"url_path_id":1155,"contactPhoto":1156,"socialLinks":1170,"url_path":1173},"Shantanu Chakrabarty","Washington University in St Louis","\u003Cp>\u003Cspan style=\"background-color:rgb(255,255,255);color:rgb(85,85,85);\">The focus of the Chakrabarty lab is use development of self-powered in-vivo instrumentation and design processors that mimic computational primitives inherent in neurobiology. Dr. Chakrabarty collaborates with Barani Raman and students learn methods of signal processing and device design in performance of this work.\u003C/span>\u003C/p>","2024-09-24T19:05:46.261Z","75",{"id":1149,"name":1157,"alternativeText":16,"caption":16,"width":1158,"height":1159,"formats":1160,"hash":1166,"ext":719,"mime":722,"size":1167,"url":1168,"previewUrl":16,"provider":24,"provider_metadata":16,"createdAt":1169,"updatedAt":1169},"ChakrabarttyS_ESE-280x386.jpg",280,386,{"thumbnail":1161},{"ext":719,"url":1162,"hash":1163,"mime":722,"name":1164,"path":16,"size":1165,"width":377,"height":638},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/thumbnail_Chakrabartty_S_ESE_280x386_d4986ddc34.jpg","thumbnail_Chakrabartty_S_ESE_280x386_d4986ddc34","thumbnail_ChakrabarttyS_ESE-280x386.jpg",4.86,"Chakrabartty_S_ESE_280x386_d4986ddc34",20.18,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/Chakrabartty_S_ESE_280x386_d4986ddc34.jpg","2024-09-24T19:05:11.360Z",[1171],{"id":94,"url":1172,"platform":703},"https://sites.wustl.edu/tnnt/people/shantanu-chakrabartty-phd/","-41",{"id":1175,"contact":1176},86,{"id":507,"name":1177,"committee":16,"position":16,"affiliation":1178,"email":16,"biography":1179,"createdAt":1180,"updatedAt":1180,"url_path_id":1181,"contactPhoto":1182,"socialLinks":1196,"url_path":1199},"Gina Adams","George Washington U.","\u003Cp>\u003Cspan style=\"background-color:rgb(255,255,255);color:rgb(68,68,68);\">Professor Adam’s lab develops novel hardware foundations at the intersection of materials, devices, and circuits to enable new ways of computing. Her research interests are focused on emerging nanoelectronic and nanoelectromechanical devices and their integration in beyond von Neumann systems such as computation-in-memory and neuromorphic platforms.  Her group innovates at the design, simulation and nanofabrication level with a vision of system-level experimental demonstrations. Recent work has been investigating two-terminal non-volatile memory devices called memristors that have an electrical behavior similar to that of an artificial synapse and can be used for both data storage and processing.\u003C/span>\u003C/p>","2024-09-24T19:07:04.543Z","76",{"id":1175,"name":1183,"alternativeText":16,"caption":16,"width":1184,"height":1185,"formats":1186,"hash":1192,"ext":719,"mime":722,"size":1193,"url":1194,"previewUrl":16,"provider":24,"provider_metadata":16,"createdAt":1195,"updatedAt":1195},"Adam_Gina.jpg",230,345,{"thumbnail":1187},{"ext":719,"url":1188,"hash":1189,"mime":722,"name":1190,"path":16,"size":1191,"width":884,"height":638},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/thumbnail_Adam_Gina_fa910d7a69.jpg","thumbnail_Adam_Gina_fa910d7a69","thumbnail_Adam_Gina.jpg",3.91,"Adam_Gina_fa910d7a69",12.45,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/Adam_Gina_fa910d7a69.jpg","2024-09-24T19:06:46.321Z",[1197],{"id":163,"url":1198,"platform":703},"https://engineering.gwu.edu/gina-adam","-42",{"id":1201,"contact":1202},87,{"id":664,"name":1203,"committee":16,"position":16,"affiliation":1204,"email":16,"biography":1205,"createdAt":1206,"updatedAt":1206,"url_path_id":1207,"contactPhoto":1208,"socialLinks":1222,"url_path":1225},"Gert Cauwenberghs","UCSD, CA (virtual)","\u003Cp>Gert Cauwenberghs received the M.Eng. degree in applied physics from University of Brussels, Belgium, in 1988, and the M.S. and Ph.D. degrees in electrical engineering from California Institute of Technology, Pasadena, in 1989 and 1994.\u003Cbr>\u003Cbr>He is Professor of Bioengineering at University of California San Diego, where he co-directs the Institute for Neural Computation. Previously, he held positions as Professor of Electrical and Computer Engineering at Johns Hopkins University, Baltimore Maryland, and as Visiting Professor of Brain and Cognitive Science at Massachusetts Institute of Technology, Cambridge.\u003Cbr>\u003Cbr>He is a Francqui Fellow of the Belgian American Educational Foundation, and received the National Science Foundation Career Award in 1997, Office of Naval Research Young Investigator Award in 1999, and Presidential Early Career Award for Scientists and Engineers (PECASE) in 2000. He was Distinguished Lecturer of the IEEE Circuits and Systems Society in 2003-2004, and chaired its Analog Signal Processing Technical Committee in 2001-2002. He currently serves as Associate Editor for IEEE Transactions on Biomedical Circuits and Systems, and IEEE Transactions on Neural Systems and Rehabilitation Engineering. He is Senior Editor for the IEEE Sensors Journal.\u003C/p>\u003Cp>\u003Cbr> \u003C/p>","2024-09-24T19:14:06.946Z","77",{"id":242,"name":1209,"alternativeText":16,"caption":16,"width":1210,"height":1211,"formats":1212,"hash":1218,"ext":719,"mime":722,"size":1219,"url":1220,"previewUrl":16,"provider":24,"provider_metadata":16,"createdAt":1221,"updatedAt":1221},"gertcauwenberghs JPG.jpg",219,220,{"thumbnail":1213},{"ext":719,"url":1214,"hash":1215,"mime":722,"name":1216,"path":16,"size":1217,"width":637,"height":638},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/thumbnail_gertcauwenberghs_JPG_4e5f87ca26.jpg","thumbnail_gertcauwenberghs_JPG_4e5f87ca26","thumbnail_gertcauwenberghs JPG.jpg",5.11,"gertcauwenberghs_JPG_4e5f87ca26",8.09,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/gertcauwenberghs_JPG_4e5f87ca26.jpg","2024-09-24T19:13:36.393Z",[1223],{"id":204,"url":1224,"platform":703},"https://jacobsschool.ucsd.edu/node/3271","-43",{"id":242,"contact":1227},{"id":706,"name":1228,"committee":16,"position":16,"affiliation":851,"email":16,"biography":1229,"createdAt":1230,"updatedAt":1230,"url_path_id":1231,"contactPhoto":1232,"socialLinks":1261,"url_path":1264}," Jennifer Hasler","\u003Cp>\u003Cspan style=\"background-color:rgb(255,255,255);color:rgb(38,38,38);\">Rev. Dr. Jennifer Hasler received her B.S.E. and M.S. degrees in electrical engineering from Arizona State University in August 1991. She received her Ph.D. in computation and neural systems from California Institute of Technology in February 1997, and she received her Master of Divinity degree from the Candler School of Theology at Emory University in 2020. Her ordination service was held on December 17, 2021. \u003C/span>\u003Cbr>\u003Cbr>\u003Cspan style=\"background-color:rgb(255,255,255);color:rgb(38,38,38);\">Dr. Hasler is a professor at the Georgia Institute of Technology in the School of Electrical and Computer Engineering; Atlanta is the coldest climate in which Dr. Hasler has lived.\u003C/span>\u003Cbr>\u003Cbr>\u003Cspan style=\"background-color:rgb(255,255,255);color:rgb(38,38,38);\">Dr. Hasler founded the Integrated Computational Electronics (ICE) laboratory at Georgia Tech, a laboratory affiliated with the Laboratories for Neural Engineering.\u003C/span>\u003Cbr>\u003Cbr>\u003Cspan style=\"background-color:rgb(255,255,255);color:rgb(38,38,38);\">Dr. Hasler is a member of Tau Beta P, Eta Kappa Nu, and the IEEE.\u003C/span>\u003C/p>","2024-09-24T19:15:12.373Z","78",{"id":1233,"name":1234,"alternativeText":16,"caption":16,"width":1235,"height":1235,"formats":1236,"hash":1257,"ext":834,"mime":837,"size":1258,"url":1259,"previewUrl":16,"provider":24,"provider_metadata":16,"createdAt":1260,"updatedAt":1260},89,"Jennifer Hasler.webp",1080,{"large":1237,"small":1242,"medium":1247,"thumbnail":1252},{"ext":834,"url":1238,"hash":1239,"mime":837,"name":1240,"path":16,"size":1241,"width":575,"height":575},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/large_Jennifer_Hasler_bbae637998.webp","large_Jennifer_Hasler_bbae637998","large_Jennifer Hasler.webp",60.93,{"ext":834,"url":1243,"hash":1244,"mime":837,"name":1245,"path":16,"size":1246,"width":492,"height":492},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/small_Jennifer_Hasler_bbae637998.webp","small_Jennifer_Hasler_bbae637998","small_Jennifer Hasler.webp",19.83,{"ext":834,"url":1248,"hash":1249,"mime":837,"name":1250,"path":16,"size":1251,"width":499,"height":499},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/medium_Jennifer_Hasler_bbae637998.webp","medium_Jennifer_Hasler_bbae637998","medium_Jennifer Hasler.webp",39.71,{"ext":834,"url":1253,"hash":1254,"mime":837,"name":1255,"path":16,"size":1256,"width":638,"height":638},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/thumbnail_Jennifer_Hasler_bbae637998.webp","thumbnail_Jennifer_Hasler_bbae637998","thumbnail_Jennifer Hasler.webp",3.21,"Jennifer_Hasler_bbae637998",81.23,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/Jennifer_Hasler_bbae637998.webp","2024-09-24T19:14:53.393Z",[1262],{"id":736,"url":1263,"platform":703},"https://ece.gatech.edu/directory/jennifer-olson-hasler","-44",{"id":1233,"contact":1266},{"id":734,"name":1267,"committee":16,"position":16,"affiliation":1268,"email":16,"biography":1269,"createdAt":1270,"updatedAt":1270,"url_path_id":1271,"contactPhoto":1272,"socialLinks":1286,"url_path":1289},"Ulkuhan Guler","Worcester Polytechnic Institute","\u003Cp>BS Electrical & Computer Engineering Istanbul Technical University 1999\u003C/p>\u003Cp>MS Electrical & Computer Engineering The University of Tokyo 2003\u003C/p>\u003Cp>PhD Electrical & Computer Engineering Bogazici University 2014\u003C/p>\u003Cp>Postdoc Electrical & Computer Engineering Georgia Institute of Technology 2018\u003C/p>\u003Cp>My research interests lie in the broad area of circuits and systems, and my primary area of interest is analog/mixed signal integrated circuits. More specifically, I am interested in the circuit design of sensing interfaces and energy harvesting and wireless power transmission systems for applications in the IoT.\u003C/p>\u003Cp>Exponential increases in the demand for next-generation clinical and telemedical diagnostic devices require monitoring and measurements from inside and outside of the body via implantable and wearable sensors predicted to be an important pillar of smart healthcare. My vision is that devices developed for enhancing our understanding of biophysical processes and contributing to the diagnosis of anomalies will also impact the realization of next-generation cyber-physical systems. In line with my vision, my interests for research includes developing not only secure, smart, and connected technologies for healthcare applications but also general-purpose IoT applications.\u003C/p>\u003Cp>I also have a couple of words to tell about my teaching philosophy. Although everyone names “creativity and innovation,” as cliché, they are the driving forces of academia. According to my teaching philosophy, encouraging student creativity by giving freedom while guiding with reasonable, realistic information creates the real difference in their lives. As our teaching shapes our students’ future, the ultimate goal of teaching in our fast-paced field should be excellent preparation for students’ professional life. Hence, they require exposure to recent technologies and methodologies used for advancements in the field. A key for developing emerging technologies is to seek them in multi-disciplinary applications, which can only be achieved with collaborative research on interdisciplinary teams. In addition, I believe that students, who will be involved in efforts to develop technology, should interact with those of other disciplines to practice interdisciplinary working for their professional life.\u003C/p>\u003Cp> \u003C/p>","2024-09-24T19:17:05.968Z","79",{"id":1273,"name":1274,"alternativeText":16,"caption":16,"width":1275,"height":1275,"formats":1276,"hash":1282,"ext":719,"mime":722,"size":1283,"url":1284,"previewUrl":16,"provider":24,"provider_metadata":16,"createdAt":1285,"updatedAt":1285},90,"uguler.jpg",383,{"thumbnail":1277},{"ext":719,"url":1278,"hash":1279,"mime":722,"name":1280,"path":16,"size":1281,"width":638,"height":638},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/thumbnail_uguler_8f29320161.jpg","thumbnail_uguler_8f29320161","thumbnail_uguler.jpg",4.46,"uguler_8f29320161",18.03,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/uguler_8f29320161.jpg","2024-09-24T19:16:40.661Z",[1287],{"id":358,"url":1288,"platform":703},"https://www.wpi.edu/people/faculty/uguler","-45",{"id":425,"groupTitle":1291,"contacts":1292},"Session  4:  Topic  4 (Medical Imaging, wearables and analysis)",[1293,1332,1377,1403,1425,1444],{"id":1273,"contact":1294},{"id":5,"name":1295,"committee":16,"position":16,"affiliation":1296,"email":16,"biography":1297,"createdAt":1298,"updatedAt":1299,"url_path_id":1300,"contactPhoto":1301,"socialLinks":1328,"url_path":1331},"Ralph Etienne-Cummings","Johns Hopkins University","\u003Cp style=\"margin-left:0px;\">A pioneer for the past three decades in mobile robotics and legged locomotion, Ralph Etienne-Cummings’ innovations have the potential to produce computers that can perform recognition tasks as effortlessly and efficiently as humans. He has developed prosthetics that can seamlessly interface with the human body to restore functionality after injury or to overcome disease. Etienne-Cummings is the Julian S. Smith Professor of electrical and computer engineering and is the vice provost for faculty affairs at Johns Hopkins University. He holds a secondary appointment in computer science. He previously served on JHU’s Homewood Academic Council and is the former chair of the department of electrical and computer engineering.\u003C/p>\u003Cp style=\"margin-left:0px;\">Etienne-Cummings’ research includes developing systems and algorithms for biologically inspired and low-power processing, biomorphic robots, closed-loop neural prosthetics, and computer integrated surgical systems and technologies. His contributions to the field are numerous, including helping to develop the first large-scale, neural computer–implemented using very-large-scale integration (VLSI) chips (integrated circuit of, potentially, millions of transistors on a single chip) as a PhD student to publishing the first paper on pulse-based, inter-pixel time of travel motion chip, which was based on the fly’s motion detection. After expanding this research into silicon retinas, Etienne-Cummings worked with the U.S. Air Force Office of Scientific Research and the JHU Applied Physics Lab to study how these chips guide micro, unmanned aerial vehicles. His research lab is the \u003Ca target=\"_blank\" rel=\"noopener noreferrer\" href=\"https://engineering.jhu.edu/csms/\">Computational Sensory Motor Systems Laboratory\u003C/a>.\u003C/p>\u003Cp style=\"margin-left:0px;\">Etienne-Cummings’ recent work has advanced the understanding of how to interface electronics with the nervous system and how to use biological signals to control biomorphic robots. His demonstration of in vitro control of the spinal circuits responsible for locomotion in lamprey and on a cat’s hind limb were the first examples of artificially generating signals to change the cycle-by-cycle behavior of segmental CPG networks in the spinal cord. Currently, he is working on an implantable device that will perform intra-spinal-micro-stimulation to mitigate spinal cord injuries; an integrated, wireless wearable physiological sensor to track the health of cardiac patients after admission; and ultrasonic imaging systems and actuated catheters for infertility treatment, among other projects.\u003C/p>\u003Cp style=\"margin-left:0px;\">Etienne-Cummings has published more than 230 technical articles, one book, 12 book chapters, and holds 16 patents. In the 2000s, he helped create silicon Central Pattern Generators (CPG) for the control of biped locomotion. This groundbreaking research developed real-time adaptation in response to external perturbations and asymmetries in the motor system, creating smooth and efficient bipedal running, walking, and stepping that is still hard to find in today’s legged robotics systems. This evolved into brain-machine interfaces and neural prosthesis devices to restore function after injury and for human augmentation.\u003C/p>\u003Cp style=\"margin-left:0px;\">In a career spanning academia and industry, Etienne-Cummings is the former and founding director of the JHU Institute of Neuromorphic Engineering and has consulted for numerous technology firms, including Nova Sensors, Inc., Innovative Wireless Technologies, Singular Computing, Panasonic N. American & Corporation, Avago Technologies, Micron Technologies, and others. He has served as an expert witness for law firms across the country and has testified in federal court and in International Trade Commission cases. He was a visiting scientist at Lawrence Livermore National Laboratory, a visiting African scholar at the University of Cape Town in South Africa and an Eminent Visiting Professor at the University of Western Sydney in Australia.\u003C/p>","2024-08-07T03:53:16.118Z","2024-09-24T19:38:56.399Z","25",{"id":734,"name":1302,"alternativeText":16,"caption":16,"width":1303,"height":1304,"formats":1305,"hash":1324,"ext":719,"mime":722,"size":1325,"url":1326,"previewUrl":16,"provider":24,"provider_metadata":16,"createdAt":1327,"updatedAt":1327},"RalphEitienneCummings.jpg",804,993,{"small":1306,"medium":1312,"thumbnail":1318},{"ext":719,"url":1307,"hash":1308,"mime":722,"name":1309,"path":16,"size":1310,"width":1311,"height":492},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/small_Ralph_Eitienne_Cummings_f0c1b9ad5f.jpg","small_Ralph_Eitienne_Cummings_f0c1b9ad5f","small_RalphEitienneCummings.jpg",29.04,405,{"ext":719,"url":1313,"hash":1314,"mime":722,"name":1315,"path":16,"size":1316,"width":1317,"height":499},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/medium_Ralph_Eitienne_Cummings_f0c1b9ad5f.jpg","medium_Ralph_Eitienne_Cummings_f0c1b9ad5f","medium_RalphEitienneCummings.jpg",59.51,607,{"ext":719,"url":1319,"hash":1320,"mime":722,"name":1321,"path":16,"size":1322,"width":1323,"height":638},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/thumbnail_Ralph_Eitienne_Cummings_f0c1b9ad5f.jpg","thumbnail_Ralph_Eitienne_Cummings_f0c1b9ad5f","thumbnail_RalphEitienneCummings.jpg",4.73,126,"Ralph_Eitienne_Cummings_f0c1b9ad5f",101.57,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/Ralph_Eitienne_Cummings_f0c1b9ad5f.jpg","2024-08-07T20:14:34.246Z",[1329],{"id":5,"url":1330,"platform":703},"https://engineering.jhu.edu/faculty/ralph-etienne-cummings/","-4",{"id":986,"contact":1333},{"id":81,"name":1334,"committee":16,"position":16,"affiliation":1335,"email":16,"biography":1336,"createdAt":1337,"updatedAt":1338,"url_path_id":1339,"contactPhoto":1340,"socialLinks":1373,"url_path":1376},"Jennifer Blain Christen","Arizona State University","\u003Cp>Jennifer Blain Christen received a bachelor's degree (1999), master's degree (2001) and doctorate (2006) in electrical and computer engineering from Johns Hopkins University. Her dissertation focused on hybrid systems for life science applications exemplified through the development of a micro-incubator for cell culture. Blain Christen held a Graduate Research Fellowship and a G K-12 fellowship both from the National Science Foundation. In her postdoctoral work at the Johns Hopkins School of Medicine in the Immunogentics Department, she developed a microfluidic platform for homogeneous HLA (human leukocyte antigen) allele detection. Her research interests involve design of analog and mixed-mode integrated electronics for direct interface via innovative fabrication techniques to aqueous environments with special emphasis on biological materials.\u003C/p>\u003Cp>Blain Christen is currently leading the BioElectrical Systems and Technology group at Arizona State University. The group has recently focused on point-of-care diagnostics and flexible neural interfaces. Point-of-care research involves sensing the presence of biomarkers in sweat and blood. They are funded by the National Science Foundation (NSF) to explore continuous sweat monitoring, and they are funded by the National Institutes of Health to create low-cost point of care HPV diagnostics for India. These projects in addition to other work in this area leverage Bluetooth communication (BLE) with smart phones to enable data transfer, storage and upload to the cloud. Blain Christen's work in flexible neural interfaces includes an NSF CAREER award exploring the use of optogenetics in the peripheral nervous system to enable future applications in bioelectronic medicine. She is also working with the Mayo Clinic to develop ultra-thin, high-resolution multi-modal neural arrays.\u003C/p>\u003Cp>Blain Christen serves on the Board of Governors for the IEEE Circuits and Systems Society, and she is secretary of the Biomedical Circuits and Systems Technical Committee. She is also the advisor for the Medical 3D Printing student club.\u003C/p>\u003Cp>Education\u003C/p>","2024-08-07T03:53:30.072Z","2024-09-24T19:39:46.483Z","26",{"id":664,"name":1341,"alternativeText":16,"caption":16,"width":1342,"height":1343,"formats":1344,"hash":1369,"ext":719,"mime":722,"size":1370,"url":1371,"previewUrl":16,"provider":24,"provider_metadata":16,"createdAt":1372,"updatedAt":1372},"ChristenBlain.jpg",1131,1249,{"large":1345,"small":1351,"medium":1357,"thumbnail":1363},{"ext":719,"url":1346,"hash":1347,"mime":722,"name":1348,"path":16,"size":1349,"width":1350,"height":575},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/large_Christen_Blain_10232c65b1.jpg","large_Christen_Blain_10232c65b1","large_ChristenBlain.jpg",96.85,906,{"ext":719,"url":1352,"hash":1353,"mime":722,"name":1354,"path":16,"size":1355,"width":1356,"height":492},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/small_Christen_Blain_10232c65b1.jpg","small_Christen_Blain_10232c65b1","small_ChristenBlain.jpg",30.95,453,{"ext":719,"url":1358,"hash":1359,"mime":722,"name":1360,"path":16,"size":1361,"width":1362,"height":499},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/medium_Christen_Blain_10232c65b1.jpg","medium_Christen_Blain_10232c65b1","medium_ChristenBlain.jpg",59.91,679,{"ext":719,"url":1364,"hash":1365,"mime":722,"name":1366,"path":16,"size":1367,"width":1368,"height":638},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/thumbnail_Christen_Blain_10232c65b1.jpg","thumbnail_Christen_Blain_10232c65b1","thumbnail_ChristenBlain.jpg",5.58,141,"Christen_Blain_10232c65b1",139.79,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/Christen_Blain_10232c65b1.jpg","2024-08-07T20:13:42.132Z",[1374],{"id":81,"url":1375,"platform":703},"https://search.asu.edu/profile/1209590","-5",{"id":1019,"contact":1378},{"id":1379,"name":1380,"committee":16,"position":16,"affiliation":1072,"email":16,"biography":1381,"createdAt":1382,"updatedAt":1382,"url_path_id":1383,"contactPhoto":1384,"socialLinks":1398,"url_path":1402},46,"Andreas Andreou","\u003Cp style=\"margin-left:0px;\">Andreas Andreou, a professor of electrical and computer engineering, is the co-founder of the Johns Hopkins University Center for Language and Speech Processing. Research in the Andreou lab is aimed at brain-inspired microsystems for sensory information and human language processing. Notable microsystems achievements over the last 25 years include a contrast sensitive silicon retina, the first CMOS polarization-sensitive imager, silicon rods in standard foundry CMOS for single-photon detection, and a large scale mixed analog/digital associative processor for character recognition. Significant algorithmic research contributions in pattern analysis and machine intelligence include the vocal tract normalization technique for speech recognition and heteroscedastic linear discriminant analysis, a derivation and generalization of Fisher discriminants in the maximum likelihood framework.\u003C/p>\u003Cp style=\"margin-left:0px;\">An IEEE Fellow, Andreou has secondary appointments in the Department of Computer Science and the Whitaker Biomedical Engineering Institute.\u003C/p>","2024-09-24T19:30:17.302Z","84",{"id":1385,"name":1386,"alternativeText":16,"caption":16,"width":1387,"height":1387,"formats":1388,"hash":1394,"ext":834,"mime":837,"size":1395,"url":1396,"previewUrl":16,"provider":24,"provider_metadata":16,"createdAt":1397,"updatedAt":1397},95,"andreas-andreou-sq-300x300.webp",300,{"thumbnail":1389},{"ext":834,"url":1390,"hash":1391,"mime":837,"name":1392,"path":16,"size":1393,"width":638,"height":638},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/thumbnail_andreas_andreou_sq_300x300_2469683010.webp","thumbnail_andreas_andreou_sq_300x300_2469683010","thumbnail_andreas-andreou-sq-300x300.webp",4.05,"andreas_andreou_sq_300x300_2469683010",11.9,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/andreas_andreou_sq_300x300_2469683010.webp","2024-09-24T19:29:57.738Z",[1399,1400],{"id":706,"url":16,"platform":16},{"id":734,"url":1401,"platform":703},"https://engineering.jhu.edu/ece/faculty/andreas-andreou/","-50",{"id":1052,"contact":1404},{"id":526,"name":1405,"committee":16,"position":16,"affiliation":756,"email":16,"biography":1406,"createdAt":1407,"updatedAt":1407,"url_path_id":1408,"contactPhoto":1409,"socialLinks":1421,"url_path":1424},"Robert Stevens","\u003Cp>\u003Cspan style=\"background-color:rgb(255,255,255);color:rgb(42,61,81);\">Dr. Stevens is an intensive care physician who treats patients with critical neurological illnesses and injuries. He has special expertise in the care of traumatic brain injury, stroke, brain hemorrhage, and in the management of patients after cardiac arrest. Following medical studies, Dr. Stevens completed residency in anesthesiology and fellowships in critical care medicine and neurocritical care. He also completed postdoctoral research training in molecular neurobiology, cellular electrophysiology, advanced magnetic resonance imaging, and brain mapping. He is Director of Precision Medicine and Chief of the Division of Informatics, Integration and Innovation in the Department of Anesthesiology and Critical Care Medicine. He also serves as Associate Director of the Johns Hopkins Precision Medicine Center of Excellence in Neurocritical Care. He has secondary faculty appointments in the Johns Hopkins Department of Biomedical Engineering, the Institute for Computational Medicine, the Institute for Cell Engineering, and the FM Kirby Center for Functional Neuroimaging. Dr. Stevens is an Associate Editor for the journals \u003C/span>\u003Ci>Thorax\u003C/i>\u003Cspan style=\"background-color:rgb(255,255,255);color:rgb(42,61,81);\">, \u003C/span>\u003Ci>Critical Care Medicine\u003C/i>\u003Cspan style=\"background-color:rgb(255,255,255);color:rgb(42,61,81);\">, \u003C/span>\u003Ci>Neurocritical Care\u003C/i>\u003Cspan style=\"background-color:rgb(255,255,255);color:rgb(42,61,81);\">, \u003C/span>\u003Ci>Annals of Intensive Care\u003C/i>\u003Cspan style=\"background-color:rgb(255,255,255);color:rgb(42,61,81);\"> and\u003C/span>\u003Ci> Frontiers in Neurology\u003C/i>\u003Cspan style=\"background-color:rgb(255,255,255);color:rgb(42,61,81);\">.  \u003C/span>\u003C/p>","2024-09-24T19:31:25.724Z","85",{"id":18,"name":1410,"alternativeText":16,"caption":16,"width":763,"height":764,"formats":1411,"hash":1417,"ext":719,"mime":722,"size":1418,"url":1419,"previewUrl":16,"provider":24,"provider_metadata":16,"createdAt":1420,"updatedAt":1420},"stevens-robert-1760413231.jpg",{"thumbnail":1412},{"ext":719,"url":1413,"hash":1414,"mime":722,"name":1415,"path":16,"size":1416,"width":771,"height":638},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/thumbnail_stevens_robert_1760413231_6687672e42.jpg","thumbnail_stevens_robert_1760413231_6687672e42","thumbnail_stevens-robert-1760413231.jpg",4.69,"stevens_robert_1760413231_6687672e42",8.99,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/stevens_robert_1760413231_6687672e42.jpg","2024-09-24T19:31:08.333Z",[1422],{"id":753,"url":1423,"platform":703},"https://profiles.hopkinsmedicine.org/provider/robert-david-stevens/2702555","-51",{"id":1078,"contact":1426},{"id":1427,"name":1428,"committee":16,"position":16,"affiliation":1429,"email":16,"biography":1430,"createdAt":1431,"updatedAt":1431,"url_path_id":1432,"contactPhoto":1433,"socialLinks":1440,"url_path":1443},48,"Amparo Guemes Gonzales ","University of Cambridge","\u003Cp style=\"margin-left:20px;text-align:justify;\">Dr Amparo Güemes is a postdoctoral 1851 Research Fellow at the Bioelectronics Lab, led by Prof George Malliaras. As a researcher, Dr Güemes distinguishes herself in the field of metabolic treatments based on neuromodulation. The interdisciplinary nature of her work includes signal processing, modelling, bioelectronics and electrophysiology to develop advanced algorithms and neurotechnology to be integrated into a closed-loop platform aiming to improve metabolic control.\u003C/p>\u003Cp style=\"margin-left:20px;text-align:justify;\">Dr Güemes received her B.S. in Biomedical Engineering (2016) from the Polytechnic University of Madrid (Madrid, Spain), and her M.S. in Biomedical Engineering (2017) and PhD in Electrical Engineering (2021) from Imperial College London (London, UK), where she was supervised by Prof Pantelis Georgiou. Her PhD research focused on the design of mathematical models of the neural regulation of glucose homeostasis. During her doctoral training, Amparo was a visiting PhD research fellow in the Computational Sensory-Motor Systems Lab led by Prof Ralph Etienne-Cummings at Johns Hopkins University (US), where she gained knowledge on the in vivo impact of neural stimulation on blood glucose fluctuations. \u003C/p>\u003Cp style=\"margin-left:20px;text-align:justify;\">Dr Güemes\u003Cstrong> \u003C/strong>is author of more than 15 publications and presentations, in highly recognized journals and international conferences, such as the Journal of Neural Engineering and the IEEE Journal of Biomedical and Health Informatics. She has won multiple awards from leading institutions including Imperial College and John Hopkins University, such as the \u003Ci>Ash Prize\u003C/i> for the best academic performance and the \u003Ci>Stella Bagrit \u003C/i>Centenary Memorial Prize for the best MSc individual project in her MSc in Neurotechnology in Imperial College London, and received the 3rd Prize in the prestigious \u003Ci>Spanish National End of Degree Excellence Awards \u003C/i>in 2020. She has also been recipient of the \u003Ci>Rafael del Pino Felowship\u003C/i> to pursue her master and PhD at Imperial College London, and was recently awarded the prestigious \u003Ci>1851 Research Fellowship\u003C/i> by the Royal Commission for the Exhibition of 1851 to continue her research as a postdoctoral researcher at the University of Cambridge. She has recently received the Engineering Award from the \u003Ci>L’Oréal-UNESCO UK and Ireland For Women in Science Rising Talent Programme\u003C/i>, which encourages the contribution of women pursuing their research careers.\u003C/p>","2024-09-24T19:33:10.404Z","86",{"id":17,"name":1434,"alternativeText":16,"caption":16,"width":1435,"height":1435,"formats":16,"hash":1436,"ext":719,"mime":722,"size":1437,"url":1438,"previewUrl":16,"provider":24,"provider_metadata":16,"createdAt":1439,"updatedAt":1439},"01147869Guemes.jpg",153,"01147869_Guemes_cf2c6a0c0a",5.64,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/01147869_Guemes_cf2c6a0c0a.jpg","2024-09-24T19:32:37.232Z",[1441],{"id":781,"url":1442,"platform":703},"https://www.eng.cam.ac.uk/profiles/ag2239","-52",{"id":1385,"contact":1445},{"id":350,"name":1446,"committee":16,"position":16,"affiliation":1447,"email":16,"biography":1448,"createdAt":1449,"updatedAt":1449,"url_path_id":1450,"contactPhoto":1451,"socialLinks":1466,"url_path":1469},"Pamela Abshire"," Brain and Behavior Institute","\u003Cp>Pamela Abshire is a Professor in the Department of Electrical and Computer Engineering and the Institute for Systems Research at the University of Maryland, College Park. Her areas of specialty are in the fields of VLSI circuit design and bioengineering.  Dr. Abshire's research focuses on better understanding the tradeoffs between performance and resources in natural and engineered systems.\u003C/p>\u003Cp>Prior to her arrival at the University of Maryland in November, 2001, she was a graduate student in the Sensory Communications and Microsystems Lab in the Department of Electrical and Computer Engineering at The Johns Hopkins University.  Her advisor was Andreas G. Andreou, and her dissertation topic was Sensory Information Processing Under Physical Constraints.  Her research interests include information theory for physical systems, noise theory for electronic, photonic, and biological systems, analysis and design of sensory information processing systems, and algorithm, VLSI circuit, and microsystem design, especially for low power applications. Dr. Abshire was born in Fayetteville, North Carolina, and grew up in the Roanoke Valley in southwestern Virginia.  She graduated as valedictorian of the class of 1988 from Salem High School in Salem, VA. From 1985 to 1988 she also attended the Roanoke Valley Governor's School for Science and Technology in Roanoke, VA.  She received her B.S. degree in Physics with Honor in 1992 from the California Institute of Technology in Pasadena, CA.  Between 1992 and 1995 she worked as a Research Engineer in the Bradycardia Research Department of Medtronic, Inc. in Minneapolis, MN.  In 1995 she began her graduate education in the Department of Electrical and Computer Engineering at The Johns Hopkins University.  She received her M.S. degree in Electrical and Computer Engineering in 1997 and completed her Ph.D. degree in Electrical and Computer Engineering in October 2001.\u003C/p>","2024-09-24T19:34:39.814Z","87",{"id":1452,"name":1453,"alternativeText":16,"caption":16,"width":1454,"height":764,"formats":1455,"hash":1462,"ext":719,"mime":722,"size":1463,"url":1464,"previewUrl":16,"provider":24,"provider_metadata":16,"createdAt":1465,"updatedAt":1465},98,"pabshire.jpg",210,{"thumbnail":1456},{"ext":719,"url":1457,"hash":1458,"mime":722,"name":1459,"path":16,"size":1460,"width":1461,"height":638},"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/thumbnail_pabshire_2b1775b258.jpg","thumbnail_pabshire_2b1775b258","thumbnail_pabshire.jpg",4.98,131,"pabshire_2b1775b258",10.71,"https://confcats-siteplex.s3.us-east-1.amazonaws.com/neuro24/pabshire_2b1775b258.jpg","2024-09-24T19:34:21.642Z",[1467],{"id":821,"url":1468,"platform":703},"https://bbi.umd.edu/clark/faculty/347/Pamela-Abshire","-53",{"id":250,"__component":1471,"componentVariation":1472,"styles":16,"header":1473,"body":16},"content.content","Content Image Left",{"id":29,"heading":16,"prose":1474,"lead":16,"eyebrow":16,"badge":16,"componentVariation":658,"containerWidth":16,"image":16},"\u003Chr>\u003Cdiv class=\"raw-html-embed\">\u003Cdiv class=\"not-prose pt-6 flex justify-center\">\n    \u003Ca href=\"/workshop-information/panelist-abstracts\" rel=\"noopener\" target=\"_blank\" class=\"btn-primary btn-md text-white btn last:!mr-0 gap-3\">\n        \u003Cspan>View Panelist Abstracts\u003C/span>\n        \u003Csvg xmlns=\"http://www.w3.org/2000/svg\" viewBox=\"0 0 24 24\" fill=\"currentColor\" aria-hidden=\"true\" class=\"h-5 w-5\">\n            \u003Cpath fill-rule=\"evenodd\" d=\"M16.28 11.47a.75.75 0 010 1.06l-7.5 7.5a.75.75 0 01-1.06-1.06L14.69 12 7.72 5.03a.75.75 0 011.06-1.06l7.5 7.5z\" clip-rule=\"evenodd\">\u003C/path>\n        \u003C/svg>\n    \u003C/a>\n\u003C/div>\u003C/div>",{"data":1476,"meta":1477},{"id":296,"heading":291,"createdAt":297,"updatedAt":298,"publishedAt":299,"url_path_id":300,"url_path":303,"contentType":92},{},1778851519206]