Herr, Hugh - Media Laboratory, Massachusetts Institute of Technology (MIT)

• Jennifer L. Johansson, MS Delsey M. Sherrill, MS
• IEEE TRANSACTIONS ON ROBOTICS, VOL. 24, NO. 1, FEBRUARY 2008 1 Lower Extremity Exoskeletons and Active Orthoses
• a uNIQue perspecTIVe Innovation is essential for achieving competitive advantage in today's high-pressure business environ-
• Massachusetts Institute of Technology
• 25 YEARS OF INVENTING THE FUTURE When the Media Lab first opened its doors in 1985, it combined a vision of a digital future with a
• JOURNAL OF AUTOMATIC CONTROL, UNIVERSITY OF BELGRADE; VOL. 12:16-22, 2002 Abstract --A three-dimensional numerical model of human
• 1.1 1.2 1.3 1.4 1.5 1.6 1.7 1.8 1.9 2 1.1 1.2 1.3 1.4 1.5 1.6 1.7 1.8 1.9 2
• MASSACHUSETTS INSTITUTE OF TECHNOLOGY School of Architecture and Planning Faculty Personnel Record
• Patient-Adaptive Prosthetic and Orthotic Leg Systems Hugh Herr1,2,3
• Computer Science and Artificial Intelligence Laboratory Technical Report
• Adaptive Virtual Model Control of a Bipedal Walking Robot Jianjuen Hu, Jerry Pratt, Chee-Meng Chew, Hugh Herr and Gill Pratt
• Program in Media Arts and Sciences Graduate Program
• Conservation of Angular Momentum During Human Loco-Marko Popovic, Wendy Gu & Hugh Herr
• Initial Experimental Study on Dynamic Interaction Between an Amputee and a Powered Ankle-Foot Prostheses
• Abstract--The aim of this study was to examine the ankle joint during level walking, stair ascent, and stair descent to
• New horizons for orthotic and prosthetic technology: artificial muscle for ambulation
• User-adaptivecontrolof a magnetorheological
• INTRODUCTION The advancement of a comprehensive model of human walking
• Proceedings of the 2006 IEEE/RSJ International Conference on Intelligent Robots and Systems
• Workloop Energetics of Antagonist Muscles Waleed Farahat and Hugh Herr
• Series Elasticity and Actuator Power Output Daniel Paluska
• Global Motion Control and Support Base Planning Marko B Popovic Hugh Herr
• http://ijr.sagepub.com Robotics Research
• ZERO SPIN ANGULAR MOMENTUM CONTROL: DEFINITIONAND APPLICABILITY
• IEEE TRANSACTIONS ON NEURAL SYSTEMS AND REHABILITATION ENGINEERING, VOL. 13, NO. 4, DECEMBER 2005 473 An Apparatus for Characterization and
• In running, kinetic and potential energy removed from the body during the first half of a running step is transiently stored
• Body size has a profound impact on many aspects of animal physiology and ecology, including locomotion (Schmidt-
• From Swimming to Walking: Examples of How Biology is helping us Design Better Machines
• Energetics and mechanics of human running on surfaces of different stiffnesses
• Engineered Muscle Actuators: Cells and Tissues
• Efficacy of Hammerstein Models in Capturing the Dynamics of Isometric Muscle Stimulated at
• MITLibraries Document Services
• Design of a Quasi-Passive Parallel Leg Exoskeleton to Augment Load Carrying for Walking
• Force-Controllable Ankle Foot Orthosis (AFO) to Assist Drop Foot Gait Joaquin A. Blaya
• Biologically Inspired Autoadaptive Control of a Knee Prosthesis
• Active Orthoses for the Lower-Limbs: Challenges and State of the Art
• Angular Momentum Regulation during Human Walking: Biomechanics and Control
• Sensors and Actuators A 133 (2007) 500505 Stacking nematic elastomers for artificial muscle applications
• Proceedings of the 2006 IEEE/RSJ International Conference on Intelligent Robots and Systems
• March 25, 2007 14:55 WSPC/INSTRUCTION FILE ws-exopaper International Journal of Humanoid Robotics
• A Method for Identification of Electrically Stimulated Muscle Waleed Farahat and Hugh Herr
• Media Laboratory MIT Reports to the President 2008-2009 In FY 2009, the Media Lab established the Center for Future Storytelling. Made possible by a seven-year, $25-
• BioMed Central Page 1 of 9
• BOSTON UNIVERSITY COLLEGE OF ENGINEERING
• ZERO SPIN ANGULAR MOMENTUM CONTROL: DEFINITION AND APPLICABILITY
• Optimal Workloop Energetics of Muscle-Actuated Systems Waleed A. Farahat
• Biomimetic Design of an Under-Actuated Leg Exoskeleton For Load-Carrying Augmentation
• Proceedingsof 2004 1EEElRS.J International Conferenceon Intelligent Robots and Systems
• Development of a lightweight, underactuated exoskeleton for load-carrying augmentation
• Chapter 5: Cyborg Technology -Biomimetic Orthotic and Prosthetic Technology
• Ground Reference Points in Legged Locomotion: Definitions, Biological
• Powered Ankle-Foot Prosthesis for the Improvement of Amputee Walking Economy
• Angular Momentum Primitives for Human Walking: Biomechanics and Control
• 24 IEEE TRANSACTIONS ON NEURAL SYSTEMS AND REHABILITATION ENGINEERING, VOL. 12, NO. 1, MARCH 2004 Adaptive Control of a Variable-Impedance
• TOP 25 PRODUCTS AND PLATFORMS SPUN OUT OF MEDIA LAB RESEARCH OVER THE PAST 25 YEARS
• THE MIT MEDIA LAB AT A GLANCE The Media Lab is a place where the future is lived, not imagined. Our domain is applying unorthodox
• ENDOWMENT AND NAMING GRANTS (cont.)