Research projects in Dr. MacDonald’s IRIS Design lab have three foci: (1) Modeling the role of the public’s decisions in effective large-scale sustainability implementation; (2) Improving engineering designers’ abilities to address complex customer preference for sustainability; and (3) Using data on how consumers perceive products, especially visually, to understand how products are evaluated and subsequently improve those evaluations. While our application area domain is autonomous assistive technology, our primary focus is robotic assistants (mobile manipulators and humanoids) with the goal of deployment for service tasks that may be highly dynamic and require dexterity, situational awareness, and human-robot collaboration. The ME310 Design Team Development Loft (Bldg 550)Larry Leifer (Design), Microfluidics LabJuan Santiago (Thermosciences). The Design Research Laboratory provides for the investigation of the design process by observing teams of designers in situ. Assistive Robotics and Manipulation Laboratory. While this is a simplistic example, its components can be generalized and require the understanding of the humans' current action, the anticipation of the human's future action and an understanding of the situation or process leading to the next stage of service. The Stanford Literary Lab is a research collective that applies computational criticism, in all its forms, to the study of literature. Find this interesting? The lab aims to develop feedback methods and technology to accelerate the effectiveness of engineering product innovation teams. * “Regioselective Synthesis of [3]Naphthylenes and Tuning of Their Antiaromaticity” J. The collective devices must leverage situational awareness to anticipate service actions. The Stanford Intelligent Systems Laboratory (SISL) researches advanced algorithms and analytical methods for the design of robust decision making systems. Interfacial science among combustion, nanomaterials and energy conversion. A multi-site teaching facility with roots in ME and deep synergies with the Stanford Design Program and the d.school, where Stanford students design and create objects of lasting value. The Stanford Robotics Group is involved in research pertaining to all aspects of robotic manipulation and control. Nanomaterials Synthesis LabXiaolin Zheng (HTGL). While our application area domain is autonomous assistive technology, our primary focus is robotic assistants (mobile manipulators and humanoids) with the goal of deployment for service tasks that may be highly dynamic and require dexterity, situational awareness, and human-robot collaboration. Space, Telecommunications and Radioscience Laboratory. Globally distributed product development teams working on corporate projects are assigned a desktop design station with internet video studio support. We define robotic assistants as robots that can autonomously, physically interact with their environment, and in often have mobility within their environment. Stanford University. We encourage, support, and celebrate diverse perspectives. Scheinman spent the summer at the MIT AI lab, designing a new arm that became the MIT Arm, completing the design back at Stanford. The CVA Group investigates methods for applying VLSI technology to information processing problems. The Navigation and Autonomous Vehicles (NAV) Lab researches on robust and secure positioning, navigation and timing technologies. A unique multidisciplinary facility focused on osteoarthritis and the mechanics of sports injury through studies that examine the interactions between the biomechanics of movement, joint structure, cell biology and clinical medicine. Located at Building 02-660 Rm 132. These foci represent three corresponding design vantage points: (1) system-level; (2) human-scale or product-level and (3) single-decision-level, as shown in the Figure. Smart Products Design Lab. Decrease the time necessary for a user to reach full maximum dexterity potential of a prosthetic arm (achieved through intent estimation) Increase the overall maximum dexterity potential of a prosthetic arm (achieved through situtational awareness of the task(s)) … Work fast with our official CLI. Robots we commonly use are stationary manipulators (stationary robotic arms), mobile manipulators (robotic arms mounted on movable base) and humanoid robots (full arms and legs). The ARMLab is directed by Assistant Professor Monroe Kennedy III in the Mechanical Engineering department at Stanford University. We specialize in developing intelligent robotic systems that can perceive and model environments, humans and tasks and leverage these models to predict system processes and understand their assistive role. A fellowship to prepare physicians to lead healthcare innovation. The lab includes several shock tubes for study of both high-speed flows and reaction kinetics, a supersonic combustion wind tunnel, a large plasma torch, several high-vacuum chambers, a research furnace, several smaller combustion facilities and extensive laser-diagnostics capabilities. We're modeling human motion and controlling robots to move like humans. The HTGL houses research on high temperature, high speed and reacting flows.