Research Interests: Adera earned his Ph. My group works on a variety of applications including locomotion of legged robots, prosthetic control, autonomous vehicles, and soft robots. Research Interests: Modeling, analysis and control of dynamic systems; rotating or translating elastic systems; manufacturing automation; vehicle control. Research Interests: Understanding the inter-relationships between processing, alloying, microstructure and properties in metallic materials and in incorporating this knowledge into computational tools for use in research, education and engineering. Research Interests: Strategic issues related to the restructuring of the North American industry and trends in globalization, technology, market factors, and human resource requirements. NSF Engineering Research Center for Reconfigurable Manufacturing Systems Title: Miniaturized Fabry-Perot Polymer Film Ultrasound Sensor for Photoacoustic Endoscope System Date: 03/10/2023 11:00 am Location: BIOMEDICAL SCIENCE RESEARCH BUILDING, ROOM 2515. This project will focus on the design and testing of a lab-scale reactor prototype to see how system parameters impact the performance of the salts. Michigan Mechanical Engineering is home to four fully-funded, world-class centers. 10 /10 faculty. Contact: syadaval@umich.edu. Control of Hybrid Electric Powertrains. More about our vision > -Preparation of Design modifications and new designs for interior modifications for VIP and regular airline aircraft. Serve society. EPFL (cole polytechnique fdrale de Lausanne) Apr. He is particularly interested in the development of tethered systems for harnessing wind and marine hydrokinetic energy, the development of persistent mission planning algorithms for renewably powered robotic networks, and the use of connected and autonomous vehicles to realize substantial fuel economy improvements over conventional vehicles. Good engineering department and faculty as well as good research groups. Thesis Defense: Tong Li. Work on challenging problems in an environment where a convergence of disciplines meet in one department. Principal Investigator Solomon Adera Assistant Professor, Department of Mechanical Engineering, University of Michigan Education: PhD, MechE, MIT Phone off: (734) 647-2300 cell: (617) 852 - 2962 Email: sadera@umich.edu Address: 2350 Hayward Str eet, Ann Arbor, MI 48109 Off: 2428 G. G. Brown Lab: 2227 G. G. Brown Read more Realizing Breakthroughs In this SURE project, we explore the design and manufacture of tiny grips, related to some already used in middle ear bone (ossicular) replacement surgery, like Grace Medicals Megerian Nitinol SRP, are contemplated; however our needs are different and a modified approach is indicated. Biomechanics - Biomedical Engineering at the University of Michigan Home People Biomechanics Carlos Aguilar, Ph.D. Assistant Professor, Biomedical Engineering caguilar@umich.edu 734-764-8557 A10-183 North Campus Research Complex 2800 Plymouth Road Ann Arbor, Mi 48109-2099 NOBEL Lab Thomas Armstrong, Ph.D., MPH Professor, Biomedical Engineering The event Kazuhiro Saitou on LinkedIn: UM Mechanical Engineering 3 Minute Thesis (3MT) Competition Thats just the start of why our Centers and Institutes are a hub of academic and corporate innovation. Biomechanics Research Laboratory - Home for Biomechanics Research Laboratory Mechanical Engineering at the University of Michigan - Ann Arbor. 2350 Hayward SURE offers summer research internships to outstanding current U-M undergraduate students who have completed their sophomore or junior year (preference will be given to those who have completed three years of study) by the time of their internship. Brown Laboratory Learn more: 28 Feb 2023 22:17:30 Dearborn, MI 48128. Research Interests: Nano mechanics, electron microscopy, laser processed metallic alloys, metallic thin films, Research Interests: Dynamics of terrestrial locomotion, arrhythmic and transient locomotion, bio-inspired design, bio-inspired robotics, soft robotics, animal-robot interaction. Engineering research office: Associate Dean for Research (ADR), High-performance supercomputers and detailed numerical simulations to study the performance of combustion devices. Applications include biomedical engineering, energy, aeronautics, turbomachinery, naval engineering and high-energy density physics. GM/U-M Institute of Automotive Research and Education This is akin to how natural platelets and macrophages secrete enzymes when they become stimulated. Research Interests: Mechanical design, precision engineering, human-centric design, mechatronic systems, and robotics. Research Interests: Nanoparticle formations and interactions using computational tools (Molecular Dynamics, Machine Learning, Stochastic Solvers), with particular emphasis on biological systems, non-thermal plasma and reactive gas-phase conditions. Applications include renewable energy, disease transmission, and space exploration. Michigan Robotics | University of Michigan Work together. View on Map. We share a campus with leaders in business, medical and liberal arts, whose expertise elevates our engineering research. G.G. Computational optimal synthesis of structural assemblies. Research Interests: Inertial sensing, sensor data fusion, Kalman filtering, localization, biomechanics, and human gait analysis, Research Interests: Manufacturing Automation: with key applications in additive manufacturing (or 3-D printing), nano-positioning, machining, distributed manufacturing, and smart manufacturing systems, Research Interests: Micro-mechatronic systems for endoscopic imaging; micro-robotic systems for manipulation and autonomous locomotion; identification of physiological feedback systems using novel sensing technologies; modeling, system identification, and state estimation for microelectromechanical systems (MEMS), Research Interests: Nonlinear dynamics and control, time delay systems, connected and automated vehicles, traffic flow, Research Interests: Fracture and failure of materials, fatigue testing and modeling, constitutive laws for porous and pressure-sensitive materials, sheet metal forming, crankshaft fillet rolling and residual stresses, rolling modeling and fatigue, modeling/testing of fusion welds, solid state welds and mechanical joints, modeling/testing of deformation behavior of lithium-ion battery. There is growing interest around wider adoption of hydrogen and its potential economic and environmental benefits, and so the University of Michigan has launched a new initiative to support and catalyze multidisciplinary research involving the universe's lightest and most abundant element. Research Interests: Heat power, thermodynamics, experiential learning. We are interested in creating a synthetic cell that can secrete contents upon a stimulus. Phone: (734) 764-2694, 2021 The Regents of the University of Michigan, NSF Engineering Research Center for Reconfigurable Manufacturing Systems, GM/U-M Institute of Automotive Research and Education, Office of the Vice President for Communications. Michigan Engineering. Research Interests: My research is interdisciplinary, using scholarship in education, engineering, and Black studies, I study methods of counteracting anti-Black racism within mechanical engineering study and practice. 2515 BSRB 109 Zina Pitcher Pl, Ann Arbor, MI. Although promising, current salt hydrate reactors tend to be demonstrations and suffer from a lack of design optimization. There are a number of research opportunities available for students in the College of Engineering. 2000 - Heinz Prechter Engineering Complex. Markov chain models, including the application of predictive control. Find your fit and pursue your passion. Our campus is home to the worlds most powerful laser, ZEUS, a 32-acre proving ground for driverless technology, a two story earthquake lab, a robot playground and a 18,000 sq. Product development. Assistant Research Scientist, Mechanical Engineering. (734) 647-3823. Students who qualify are eligible for up to $500/semester (Fall/Winter) or a laptop. Research Interests: Dynamics and control systems, biomechanics of humans. Research Professor, Mechanical Engineering Research Professor, Internal Medicine Research Professor, Institute of Gerontology jaam@umich.edu (734) 763-2320 3443 G.G. Research Interests: My research interests lie in the field of deployable and reconfigurable structural systems. Ann Arbor, Michigan, United States. Michigan Engineering. 3666 G.G. Research Interests: Microscale heat transfer, especially related to electronic and optoelectronic devices; thermoelectric energy conversion; medical applications of heat transfer. Current energy-related projects include thermoelectricity, phonoelectricity, thermal switch, and multidimensional wicks for record conductance and heat flux. Michigan Mechanical Engineering is home to four fully-funded, world-class centers. Research Interests: Front-end design processes; idea generation; engineering creativity and divergent thinking; design cognition; socially-engaged design; socio-technical engineering skillsets; design ethnography; design problem finding and framing; design prototyping; design education, Research Interests: Renewable energy and energy storage; Batteries; Solar Energy; Catalysis; Nanomanufacturing; Atomic layer deposition; Bio-inspired materials; High-resolution microscopy and spectroscopy of nanomaterials; In situ/operando electrochemistry; Energy policy and economics. Professor, Biomedical Engineering . Research Interests: Wearable Robots, Legged Robots, Prosthetics & Orthotics, Bipedal Locomotion, Nonlinear Control Theory, Rehabilitation Engineering. Brown. We have already begun this redesign phase, creating CAD drawings and ideation of the design, and look to continue this process. Selection Process: Once the SUREManager has shared your application with the Department, we will provide the eligible applications to the Faculty Mentors who will review your application materials. MI Hydrogen, a joint venture by the Office of the . Research Interests: Control theory and engineering strategies in social systems to empower people and improve their well-being. Research Interests: Our current research efforts have been focused on physics-based modeling for various advanced manufacturing processes. Research Interests: Control theory and applications; iterative learning control; multi-agent systems; human/robot collaborations; smart manufacturing; manufacturing robotics; high-performance micro/nano-scale printing for electrical and biomedical applications, Research Interests: Current Energy Conversion; Enhancement of High-Damping, High-Reynolds Vortex Induced Vibration; Suppression of Vortex Induced Vibration; Mooring System Dynamics; Structural Redesign and Topology/Material Evolution; Riser and Pipeline Mechanics. Examples include creating novel mechano-chemical dynamic models of nanoscale intracellular transport processes, developing the next generation of highly-sensitive diagnosis and monitoring techniques, discovering novel methods for forecasting tipping points in complex systems such as disease epidemics and ecological systems, developing innovative reduced order models of multi-physics systems such as Li-ion batteries and complex structures, creating advanced system identification and control methodologies for smart structures and fluid-structural systems. Research Interests: Biomedical design and manufacturing; Digital health; Wearable technology; Intelligent systems; Robotics, Research Interests: Biosensors, Biomedical Microelectromechanical Systems (BioMEMS), Optofluidics, Lab on a Chip, Research Interests: Electrochemistry, grid energy storage, CO2 capture, organic batteries, desalination, solid-state batteries. Accepted applicants from the University of Michigan receive guidance by a faculty advisor in a College of Engineering research facility, a stipend of $6,000, attend regular meetings and seminars and contribute to an abstract booklet with highlights of their summer research project and/or experience. Research Interests: Dr. Vermillions interests lie in the application of optimal control and design optimization tools to cutting-edge problems in renewable energy and energy efficiency. This academic equivalency allows U-M graduate engineering students to bypass taking the certification exam to become certified system engineers, a major benefit. Specific research and development topics include constraint-based design, parallel kinematics, flexure mechanisms, dynamics of flexible systems, electromagnetic actuators, medical devices for minimally invasive surgery, precision motion stages for semiconductor metrology, motion sickness mitigation in autonomous vehicles, rehab robotics, modular prostheses, and micro-electromechanical systems (MEMS). Each is unique but they all intersect. Classes are available in the Fall (September-December), Winter (January-April), Summer I (May-June) and Summer II (July-August) terms. ME x90 (290, 390, 490) are individual or group project work where students apply mechanical engineering principles to research, innovation, service or entrepreneurship projects. Multi-Disciplined area in mechanical and computer engineering. Research Interests: Combustion, focusing primarily on automotive engines.