School of Engineering

Showing 291-300 of 710 Results

• Donald Iglehart

  Professor of Engineering-Economic Systems & Operations Research, Emeritus
  

  BioDonald L. Iglehart is a John von Neumann Theory Prize recipient who has made fundamental contributions to performance analysis, optimization, and simulation of stochastic systems. Iglehart received his Bachelor’s degree in Engineering Physics from Cornell in 1956, his Master’s degree in Mathematical Statistics from Stanford University in 1959, and his PhD in the same subject from Stanford in 1961. His dissertation was supervised by Herbert E. Scarf and Samuel Karlin, and the topic was on dynamic programming and stationary analysis of inventory problems. He taught at Cornell University from 1961 to 1967 and came to Stanford in 1967, where he has been emeritus since 1999. In1976, he spent a very productive year as an Overseas Fellow at Churchill College at Cambridge University. In his capacity as a PhD advisor, he has had many notable students, including Peter Glynn, Peter Haas, Phil Heidelberger, Doug Kennedy, and Ward Whitt.
  
  Iglehart was jointly awarded the John von Neumann Theory Prize in 2002 with Cyrus Derman, the same year he was named an inaugural Fellow of the Institute for Operations Research and the Management Sciences. He was recognized for having pioneered and developed diffusion limits and approximations for heavily congested stochastic systems. His ideas provided tractable limiting processes and readily computable approximations for complex queueing and other stochastic systems for which closed-form solutions have proved intractable. Iglehart’s original research and contributions have heavily influenced queueing theory in the years since their publication, and his papers have been cited in hundreds of publications. Some of his other work has focused on inventory and distribution problems.
  
  Iglehart was also honored by the INFORMS Simulation Society in 2012 with its highest honor, the Lifetime Professional Achievement Award (LPAA). His foundational work in that field recognized and exploited the underlying stochastic structure of simulation as a means of producing enhanced simulation methodologies. For example, he introduced and led the development of the regenerative method for stochastic simulation output analysis, inspiring a flood of significant contributions to simulation methodology. In the late 1980s, Iglehart and Glynn incorporated such techniques as importance sampling into stochastic simulations. The LPAA also noted his ability to clearly organize and articulate deep theory in his presentations and writing, and recognized his education of Ph.D. students who have had, individually and cumulatively, a profound impact on simulation education and research. The citation for his award states that "It is no exaggeration to say that Don Iglehart’s contributions made simulation a respectable research discipline in some circles of the operations research community."
  
  In addition to being an INFORMS Fellow, Iglehart was elected in 1999 to the National Academy of Engineering, having been selected for his contributions to queueing theory, simulation methodology, inventory control, and diffusion approximations. He was also honored in 1971 through his induction as a Fellow of the Institute of Mathematical Statistics.
  
  *****
  Historical Academic Appointments:
  
  1961-67 School of Operations Research and Industrial Engineering, Cornell University
  1967-96 Department of Operations Research, Stanford University
  1996-99 Department of Engineering-Economic Systems and Operations Research, Stanford University

  • Contact Info

    • Terman Center 367
    • Stanford, California 94305-4026

    • (650) 723-0850 (office)

    (650) 723-4107 (fax)

    iglehart@stanford.edu
• 

  Matthias Ihme

  Professor of Mechanical Engineering, of Photon Science and, by courtesy, of Energy Science and Engineering
  

  BioLarge-eddy simulation and modeling of turbulent reacting flows, non-premixed flame, aeroacoustics and combustion generated noise, turbulence and fluid dynamics, numerical methods and high-order schemes.

  • Contact Info

    • 440 ESCONDIDO MALL
    • STANFORD, California 94305

    Mail Code: 3035

    • (650) 724-3730 (office)

    mihme@stanford.edu
• 

  Umran Inan

  Professor of Electrical Engineering, Emeritus
  

  BioThrough measurements in space and at multiple remote sites in Antarctica, Alaska, and the continental United States, Professor Inan studies the Earth's ionosphere and upper atmosphere. Of particular interest are ionospheric effects of lightning discharges and the recently discovered phenomena of electrical discharges and luminous glows at high altitudes above thunderstorms. He also studies physical processes in the Earth's near-space environment, including space weather effects on navigation and communication signals, electrodynamic coupling of the ionosphere to the magnetosphere, wave-induced precipitation of particles out of the radiation belts, and cyclotron resonant interactions between electromagnetic waves and energetic electrons. He is also involved in the development of ultra-low-power and miniaturized radio receivers for use in remote polar regions and on micro-satellites.

  • Contact Info

    Mail Code: 9515

    inan@stanford.edu
• 

  Mark Z. Jacobson

  Professor of Civil and Environmental Engineering and Senior Fellow at the Woods Institute for the Environment
  

  BioMark Z. Jacobson’s career has focused on better understanding air pollution and global warming problems and developing large-scale clean, renewable energy solutions to them. Toward that end, he has developed and applied three-dimensional atmosphere-biosphere-ocean computer models and solvers to simulate air pollution, weather, climate, and renewable energy. He has also developed roadmaps to transition states and countries to 100% clean, renewable energy for all purposes and computer models to examine grid stability in the presence of high penetrations of renewable energy.

  • Contact Info

    • Yang & Yamazaki Environment & Energy Building
    • 473 Via Ortega, Room 397
    • Stanford, California 94305

    Mail Code: 4020

    • (650) 723-6836 (office)

    jacobson@stanford.edu

  • Web page:

    http://web.stanford.edu/group/efmh/jacobson
• 

  Rishee Jain

  Associate Professor of Civil and Environmental Engineering
  

  BioProfessor Jain's research focuses on the development of data-driven and socio-technical solutions to sustainability problems facing the urban built environment. His work lies at the intersection of civil engineering, data analytics and social science. Recently, his research has focused on understanding the socio-spatial dynamics of commercial building energy usage, conducting data-driven benchmarking and sustainability planning of urban buildings and characterizing the coupled dynamics of urban systems using data science and micro-experimentation. For more information, see the active projects on his lab (Stanford Urban Informatics Lab) website.

  • Contact Info

    Mail Code: 4020

    rishee.jain@stanford.edu
• 

  Doug James

  Professor of Computer Science and, by courtesy, of Music
  

  Current Research and Scholarly InterestsComputer graphics & animation, physics-based sound synthesis, computational physics, haptics, reduced-order modeling

  • Contact Info

    • 362 Gates Hall
    • Department of Computer Science
    • Stanford University
    • Stanford, California 94305

    Mail Code: 9035

    • (650) 723-0104 (office)

    djames@cs.stanford.edu
• 

  Antony Jameson

  Professor (Research) of Aeronautics and Astronautics, Emeritus
  

  BioProfessor Jameson's research focuses on the numerical solution of partial differential equations with applications to subsonic, transonic, and supersonic flow past complex configurations, as well as aerodynamic shape optimization.

  • Contact Info

    • DURAND 381
    • Stanford, California 94305-4035

    Mail Code: 4035

    (650) 723-1685 (fax)

    antony.jameson@stanford.edu
• 

  Thomas Jaramillo

  Professor of Chemical Engineering, of Energy Science Engineering, and of Photon Science
  

  On Leave from 10/01/2024 To 06/30/2025

  BioRecent years have seen unprecedented motivation for the emergence of new energy technologies. Global dependence on fossil fuels, however, will persist until alternate technologies can compete economically. We must develop means to produce energy (or energy carriers) from renewable sources and then convert them to work as efficiently and cleanly as possible. Catalysis is energy conversion, and the Jaramillo laboratory focuses on fundamental catalytic processes occurring on solid-state surfaces in both the production and consumption of energy. Chemical-to-electrical and electrical-to-chemical energy conversion are at the core of the research. Nanoparticles, metals, alloys, sulfides, nitrides, carbides, phosphides, oxides, and biomimetic organo-metallic complexes comprise the toolkit of materials that can help change the energy landscape. Tailoring catalyst surfaces to fit the chemistry is our primary challenge.

  • Contact Info

    • 443 VIA ORTEGA
    • Stanford University
    • STANFORD, California 94305

    Mail Code: 5025

    (650) 723-9780 (fax)

    jaramillo@stanford.edu

  • Other Names:

    Tom Jaramillo
• Joshua Jennings

  Basic Life Research Scientist
  

  • Contact Info

    Mail Code: 4245

    jholden2@stanford.edu
• 

  Michael Christopher Jewett

  Professor of Bioengineering
  

  BioMichael Jewett is a Professor of Bioengineering at Stanford University. He received his B.S. from UCLA and PhD from Stanford University, both in Chemical Engineering. He completed postdoctoral studies at the Center for Microbial Biotechnology in Denmark and the Harvard Medical School. Jewett was also a guest professor at the Swiss Federal Institute of Technology (ETH Zurich). His research group focuses on advancing synthetic biology research to support planet and societal health, with applications in medicine, manufacturing, sustainability, and education.

  • Contact Info

    Mail Code: 4245