Stanford University
Showing 101-150 of 1,896 Results
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Julia Palacios
Associate Professor of Statistics, of Biomedical Data Science and, by courtesy, of Biology
BioDr. Palacios seek to provide statistically rigorous answers to concrete, data driven questions in evolutionary genetics and public health . My research involves probabilistic modeling of evolutionary forces and the development of computationally tractable methods that are applicable to big data problems. Past and current research relies heavily on the theory of stochastic processes, Bayesian nonparametrics and recent developments in machine learning and statistical theory for big data.
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Yellappa Palagani
Postdoctoral Scholar, Cardiothoracic Surgery
BioYellappa Palagani is currently a Postdoctoral Fellow in Cardiothoracic Surgery at Stanford University. In Dr Ma's lab, he is developing an MRI-compatible mock circulatory loop and cardiac phantoms to simulate common congenital heart defects. Prior to joining Stanford, he was a Postdoctoral Associate in Cardiac Surgery at Yale University from April 2021 to March 2023, where he worked on left ventricular assist devices and smart inductive stents. In August 2020, he received his Ph.D. in Electronics Engineering from Kyungpook National University, South Korea. During his Ph.D., he worked on wirelessly powered cardiac pacemakers and wearable cardiac arrhythmia indicators.
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Latha Palaniappan, MD, MS
Professor of Medicine (Cardiovascular Medicine) and, by courtesy, of Epidemiology and Population Health
Current Research and Scholarly InterestsDr. Palaniappan has published over 200 peer reviewed manuscripts, abstracts, and book chapters over the last 20 years in the areas of chronic disease prevention and treatment in diverse populations. She has expertise in epidemiological research using big data, use of electronic health records for research, and clinical trials.
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Daniel Palanker, PhD
Professor of Ophthalmology and, by courtesy, of Electrical Engineering
Current Research and Scholarly InterestsInteractions of electric field and light with biological cells and tissues and their applications to imaging, diagnostics, therapeutics and prosthetics, primarily in ophthalmology.
Specific fields of interest:
Electronic retinal prosthesis;
Electronic enhancement of tear secretion;
Electronic control of blood vessels;
Non-damaging retinal laser therapy;
Ultrafast laser surgery;
Interferometric imaging of neural signals;
Cell transplantation and retinal plasticity. -
Jonathan P. Palma
Clinical Professor, Medicine - Biomedical Informatics Research
Current Research and Scholarly InterestsInterventional informatics to achieve examples of a learning healthcare system; optimization of commercial EMRs to support complex clinical workflows in newborn intensive care; clinical decision support; real-time clinical dashboards; electronic sign-out tools; IT-supported patient/family communication.
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Jasmin E. Palmer
Ph.D. Student in Mechanical Engineering, admitted Autumn 2019
BioJasmin earned a Bachelor of Science in Mechanical Engineering with a concentration in Controls, Instrumentation, and Robotics at the Massachusetts Institute of Technology (MIT) and a Master of Science in Mechanical Engineering at Stanford University. Jasmin is currently pursuing her Ph.D. in Mechanical Engineering at Stanford University and conducting research with faculty supervisor Professor Allison Okamura in the Collaborative Haptics in Robotics in Medicine (CHARM) Lab. Jasmin’s Ph.D. research centers around human-computer interaction and haptics, the science of and relating to the sense of touch. Developing technology that provides beneficial haptic feedback to human operators requires a multi-pronged and interdisciplinary approach. Her work leverages concepts from psychology and neuroscience to understand human perception, experimental design, and statistical analysis, and also applies her engineering background in dynamic modeling of physical systems and mechatronic system development in order to develop novel designs for wearable devices. The goal of her thesis is to develop an adaptable simulation framework that provides realistic haptic feedback for humans to perform various dexterous manipulation tasks in dynamic virtual reality (VR) and mixed reality (MR) environments using wrist-worn tactile devices. Jasmin wants to become an inspiration for other women of color to pursue careers in STEM fields. Jasmin also enjoys composing music, playing the flute, and studying foreign languages.
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Matthew Palmer
COLLEGE Lecturer
BioMatthew Palmer (he/him/his) is a Lecturer in Civic, Liberal, and Global Education (COLLEGE).
Fluent in Modern Standard Chinese ("Mandarin") and Japanese, Matthew focuses his research at the intersection of corpus linguistics and computer-assisted language learning. His recent doctoral dissertation reveals previously-unattested language learner comprehension gaps pertaining to the perfective 了 "le": a ubiquitous yet frequently misunderstood Chinese grammatical marker. During his time as a Ph.D. candidate in Stanford's Department of East Asian Languages and Cultures, Matthew taught Chinese linguistics and advanced Chinese language courses.
Matthew holds professional experience in East Asia product localization, automated language assessment, and pedagogical inclusivity training. He is a recipient of the U.S. Department of State Critical Language Scholarship (CLS), the U.S. Department of Education Fulbright-Hays Scholarship, the U.S. Department of Education Foreign Language and Area Studies (FLAS) Graduate Fellowship, and the Stanford University Pigott Scholars Award.
In his spare time, Matthew is passionate about mindfulness, video games, and group fitness. -
Theo Palmer
Professor of Neurosurgery, Emeritus
Current Research and Scholarly InterestsMembers of the Palmer Lab study the biology of neural stem cells in brain development and in the adult. Our primary goal is to understand how genes and environment synergize in influencing stem cell behavior during development and how mild genetic or environmental risk factors for disease may synergize in their detrimental effects on brain development or in the risk of neuronal loss in age-related degenerative disease.