161. Yoky Matsuoka's RI Page Personal site. robotics Institute Associate Professor, Mechanical engineering and the Center for Neural Based Cognition. http://www-2.cs.cmu.edu/~yoky/

Yoky Matsuoka, Anna Loomis McCandless Assistant Professor Robotics Institute Mechanical Engineering Center for the Neural Basis of Cognition and Biomedical Engineering (by courtesy) Recent Awards: 2005 IEEE Early Career Award in Robotics and Automation, (link) 2004 Anna Loomis McCandless Faculty Chair 2004 Presidential Early Career Award for Scientists and Engineers, (link) Address: Robotics Institute 5000 Forbes Ave. NSH 3207, Pittsburgh, PA 15213 Phone: Fax: Email: yoky 'at' cs.cmu.edu Education Neurobotics Lab Courses Students ... Other

162. NASA Glenn Research Center FIRST Buckeye Regional Features information for participants, volunteers, mentors, and sponsors of this highschool engineering contest held in Cleveland. http://www.firstbuckeye.org/

Media Information Brought to you by: NASA Glenn Research Center Educational Programs Office Responsible Official: Jo Ann Charleston Web Curator Dave Mazza Website Designed by Shanessa L. Jackson Scroll down to see additional sponsors of the 2005 event:

163. Engineering Solutions And Graphic Simulations For Automation, Robotics, Machine Provides engineering solutions and graphic simulations for industrial automation, robotics, machine design, electrooptical systems. http://www.2020e.com/

20/20 Engineering Inc. was established in and has been responsible for providing outstanding Engineering Solutions for Automotive, Telecommunications and Aerospace Industries ever since. In a tough competitive environment, 20/20 Engineering was founded on the philosophy of combining expertise from various industries and use of out-of-the-box thinking. Our specialty is in the area of Industrial Automation, Robotics Systems, Machine Design and Electro-Optical Systems. Our regular customers particularly value our creativity in finding solutions to complex problems, design accuracy, quick turnarounds and responsiveness. Our strengths include mechanical engineering, structural analysis, thermal analysis, optomechanical and electromechanical design. We are always in pursuit of finding simple, cost and time effective solutions to a large variety of applications. If you are viewing this text, your browser lacks the ability to read frames. Don't worry, you can still enjoy our site. All the pages can be viewed from the contents page. Please come inside! Contents

164. Robotics Institute: Yoky Matsuoka Academic site. robotics Institute Associate Professor, Mechanical engineering and the Center for Neural Based Cognition. http://www.ri.cmu.edu/people/matsuoka_yoky.html

RI People Text only version of this site Yoky Matsuoka Assistant Professor Associated center: MRTC Email address: yoky@cs.cmu.edu Mailing address: Carnegie Mellon University Robotics Institute 5000 Forbes Avenue Pittsburgh, PA 15213 For more information, see my personal homepage Jump to: Research interests Keywords Projects Publications Research interests See my Neurobotics Laboratory description for my research interests. This section last updated - February 2004. Research interest keywords bioengineering control haptics human-computer interaction ... medical robotics , and quality-of-life technology Neurobotics Laboratory - Investigating neural control of movement, brain-machine interface, and devices for rehabilitation, motor enhancement, and entertainment. Robotics Education Lab - The Robotics Education Lab is a central resource to support courses and individual projects in robotics. Current Projects Anatomically Correct Testbed (ACT) Hand - We are building a dynamic model of the human hand that is anatomically correct. Feedback Distortion for Rehabilitation - We are developing a virtual environment with a robotic device to extend the strength and mobility of people recovering from strokes.

165. Wired 8.04: Why The Future Doesn't Need Us. By Bill Joy, chief scientist at Sun Microsystems. Our most powerful 21stcentury technologies - robotics, genetic engineering, and nanotech - are threatening to make humans an endangered species. Wired magazine http://www.wired.com/wired/archive/8.04/joy.html

Search: Wired News Animation Wired Magazine HotBot (the Web) Pg 1 of 11 Print email , or fax this article for free. Why the future doesn't need us. Our most powerful 21st-century technologies - robotics, genetic engineering, and nanotech - are threatening to make humans an endangered species. By Bill Joy PLUS A Tale of Two Botanies From the moment I became involved in the creation of new technologies, their ethical dimensions have concerned me, but it was only in the autumn of 1998 that I became anxiously aware of how great are the dangers facing us in the 21st century. I can date the onset of my unease to the day I met Ray Kurzweil, the deservedly famous inventor of the first reading machine for the blind and many other amazing things. Ray and I were both speakers at George Gilder's Telecosm conference, and I encountered him by chance in the bar of the hotel after both our sessions were over. I was sitting with John Searle, a Berkeley philosopher who studies consciousness. While we were talking, Ray approached and a conversation began, the subject of which haunts me to this day. I had missed Ray's talk and the subsequent panel that Ray and John had been on, and they now picked right up where they'd left off, with Ray saying that the rate of improvement of technology was going to accelerate and that we were going to become robots or fuse with robots or something like that, and John countering that this couldn't happen, because the robots couldn't be conscious.

166. Turnkey Robotic Welding Systems, UK Industrial Robotics Integration Services, Sp Offers complete turnkey robotic automation systems for welding and wandling. Also offers reengineering services for existing robot systems. Located in Southampton, United Kingdom. http://www.ics-robotics.co.uk/

Established since 1989, our success has been built on a reputation for technical excellence and an ability to identify solutions in Robot Integration. Our services include: Design and build of Turnkey Systems Robot Integration Services Special Purpose design and build Re-engineering of existing systems About Us Unique Offers Contact Home ... Sitemap

167. Untitled Document Personal site. robotics Institute and Electrical and Computer engineering Associate Professor. http://www-2.cs.cmu.edu/~agn/

research fun about projects research fun about projects ... teaching

168. Tulane University Department of Mechanical engineering. Principle research areas Fluid and Thermal Sciences, robotics and Control Systems, and Solid Mechanics. http://www.me.tulane.edu/

169. Robotics Institute: Andreas Nowatzyk Academic site. robotics Institute and Electrical and Computer engineering Associate Professor. http://www.ri.cmu.edu/people/nowatzyk_andreas.html

RI People Text only version of this site Andreas Nowatzyk Associate Professor, RI/ECE No longer a member of RI. Associated center: MRTC Email address: agn@andrew.cmu.edu For more information, see my personal homepage Jump to: Research interests Keywords Publications Research interests My primary area of research is computer architecture, in particular scalable systems and their interconnect structures (switching fabrics, system area networks, network interfaces and protocol engines). Advancing technology and changing requirements continue to pose new problems for multiprocessor systems, particularly concerning reliability, availability and serviceability (RAS). I like to work at boundaries between computing systems and their implementation technologies, drawing on my background in physics, electronics and optics. In the past, this included projects ranging from high speed interconnect links (optical and electronic), over computer chess machines (Deep Thought) to chasing RF interference problems in avionics packages for computer controlled, small scale airplanes. Currently, I'm focussed on developing a special purpose microscope to trace the neuronal structures of small biological specimens. The long term goal of this research is to "reverse engineer" these biological computing structures. I believe that research in computer architecture is best driven by concrete, real applications. In this context, the microscope mentioned above poses a tough challenge in the areas of image processing and scientific signal processing. To be able to scan an object as large as a laboratory mouse, nearly 20 Peta-Byte of raw data must be processed in real time. This is a very interdisciplinary research projects that includes VLSI circuit design, fiber optics, sensor development, holography, lasers, RF electronics, micro-robotics, and applied computer science. The beauty (to me) of this project is that number of very different technologies have to come together to sole one concrete, easy to fathom purpose.

170. Trinity College Dublin Computer Science Department. Research groups cover AI, computer architecture, computational linguistics, computer vision, image synthesis, robotics, information systems development, knowledge and data engineering, medical informatics and distributed systems. http://www.cs.tcd.ie/

171. COE Robotics And Automation Laboratory The College of engineering robotics and Automation Laboratory was established by Professor Mark W. Spong in January, 1987, as the Department of General http://robot0.ge.uiuc.edu/

College of Engineering Robotics and Automation Laboratory College of Engineering University of Illinois Room 316, Transportation Building Professor Mark W. Spong , Director The College of Engineering Robotics and Automation Laboratory was established by Professor Mark W. Spong in January, 1987, as the Department of General Engineering Robotics Laboratory. Initial support was provided by General Motors Corporation, Zenith Corporation, the Department of General Engineering and the College of Engineering In 1992-1994 the laboratory received a major upgrade with the help of a grant from the National Science Foundation Instrumentation and Laboratory Improvement (ILI) Program. Subsequently, the laboratory was merged with the Department of Electrical and Computer Engineering Robotics Laboratory as part of an effort to establish interdisciplinary, college wide laboratory facilities. The current name of the laboratory reflects its broader mission. The laboratory is used by a number of classes including: GE 370/ECE 370 (Introduction to Robotics) GE 389/ECE 389 (Robot Dynamics and Control) GE 497/ECE 497 (Differential Geometric Methods in Nonlinear Control) GE 293 (Undergraduate Research in Robotics and Automation) ... Mfg.E. 210 (Introduction to Manufacturing Systems)

172. Irving J. Oppenheim Personal site. robotics Institute and Civil engineering Professor. http://www.ce.cmu.edu/~ijo/

Irving J. Oppenheim Professor of Civil and Environmental Engineering; Professor of Architecture Near the 3000-ft level on El Capitan, Yosemite Valley. Research Interests Robotics, structural mechanics, building design, micro-electronics for infrastructure applications. Educational Background B.E. 1968, The Cooper Union, M.S. 1970, Lehigh University, Ph.D. 1972, Cambridge University Research Activities Representative Publications Rigopoulos, D.R., and I.J. Oppenheim, "Intelligent Objects for Synthesis of Structural Systems", Journal of Computing in Civil Engineering , ASCE, Vol. 6, 1992. Bullock, D.M. and I.J. Oppenheim, "Object-Oriented Programming in Robotics Research for Excavation," Journal of Computing in Civil Engineering , ASCE, Vol. 6, 1992. Oppenheim, I.J., "The Masonry Arch as a Four-Link Mechanism under Base Motion," Earthquake Engineering and Structural Dynamics ,"Vol. 21, 1992. Petrosky, L. J., and I. J. Oppenheim, "Inertially Favorable Trajectories for Robot Motion in Space,"

173. Information Control Engineering Group At MIT Aerial robotics. Publications News releases Videos Picture gallery. Links Click to enlarge. Helicopter flight tests videos. Manual flight http://gewurtz.mit.edu/research/heli.htm

Aerial robotics Publications News releases Videos Picture gallery ... Links Helicopter flight tests videos Manual flight Manual aggressive maneuvers Windows Media - 1.3 Mb or AVI - 2.2 Mb acrobatic maneuvers under manual control of an expert pilot, Summer 1998 Data recording flights Hammerhead 180 AVI - 5.6 Mb ): manual 180-degree hammerhead maneuvers, July 2000. Autonomous flights Autonomous roll 1 Windows Media - 422 kb or AVI - 600 kb first flight with an autonomous aileron roll maneuvers. During the flight the pilot took off manually and gained 70 meters altitude, at which point “velocity/heading rate/altitude hold” mode was engaged. The pilot accelerated by commanding full forward speed (15 m/sec). From that point on the pilot uses only turn rate (or, equivalently, bank angle) command to change direction of flight, while the helicopter autopilot maintains altitude, cruise velocity, and turn coordination (no sideslip). By flipping a designated switch the pilot initiates an automatic aileron roll maneuver sequence. At the completion of 360 degree roll the autopilot stops the rolling motion, and returns the stabilized helicopter to level cruise flight at a new altitude. Landing is manual. November, 2001. Autonomous roll 2 Windows Media - 271 kb or AVI - 1 Mb : third autonomous aileron roll, November 2001

174. à ÌÐ - Ó÷ïëÞ Çëåêôñïëüãùí Ìç÷áíéêþí Department of Electrical and Computer engineering. Research labs cover algorithms and logic, digital signal processing, pattern recognition, multimedia, robotics, knowledge and database systems, network management, and software engineering. http://www.ece.ntua.gr/

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175. What Will Your Next Move Be To Prepare For The Future Kankakee Area Career Center educational program. Students build a robot and study topics including electrical, robotics, fluid power, and Autocad. Located in Bourbonnais, Illinois, United States http://www.kacc.k12.il.us/Class Descriptions/Automation Engineering Page.htm

HOME HOME

176. Robotics Institute: A Problem Has Occurred Academic site. robotics Institute and Civil engineering Professor. http://www.ri.cmu.edu/people/oppenheim_irving.html

RI A problem has occurred The page you requested could not be accessed for the following reason: The requested data does not exist. If you think that this is a genuine error, please notify the webmaster by by email (robotwebmaster@ri.cmu.edu). The Robotics Institute is part of the School of Computer Science Carnegie Mellon University For updates and comments, please see these instructions This page maintained by robotwebmaster@ri.cmu.edu

177. Robotics And Electrical Engineering Webring! Join the robotics and Electrical engineering Webring, and increase your website s traffic. Or, browse the webring. http://www.reconnsworld.com/webring.html

reconn's reconn's world world .com September 25, 2005 Tell a friend about this site Home Robotics: Smallbot Electronics: Schematics Depot Both!: Robotics and EE Webring Store General Interest: Link to Us Questions? Feedback? E-mail me Here Want to know when reconnsworld.com is updated? Join the reconnsworld.com mailing list! Subscribe Unsubscribe I started this webring to make it easy to find robotics and electronics stuff on the net. This webring is all about robotics and ee! It's a great, and simple way to find quality robotics and electronics content on the web. What is the webring? The webring is a large collection of websites brought together, so that they can be found easily by those looking for Robotics and Electronics content. How do you use the webring? Each website has a webring fragment placed on one of it's pages. Most commonly on the index page (the main page,) or on the Webrings page. This allows visitors to go from one member's site to the next by using the simple navigational links (next site, prev. site, random, etc..) What do the webring fragments look like?

178. Polygon-Tamarisk - General Engineering And Robotics A mechanical engineering office specializing in automation and robotics, development of technological products and turnkey services. Includes company profile and contact information. http://www.polygon-tamarisk.co.il/

Consulting and building a working concept. Integrates the concept, through alpha and beta series, until the production line stage. Polygon Tamarisk specializes in general engineering services for Hi-tech industriesand companies, medical production and more:. From minimized medical applications to robotics-based machinery... From concept stage to final production... s="na";c="na";j="na";f=""+escape(document.referrer) Polygon Tamarisk Ltd. 24 Hata'as St, Kfar Saba 44425, Israel Phone Fax: E-mail sales@polygon-tamarisk.co.il Web site created by ic-creations Quick Search Turn-Key High-accuracy machinery Grinding Machines Servo controlled press Pneumatic manipulators

179. Fischertechnik North America German manufacturer of a flexible construction system and robot kits that can be utilized to learn and teach concepts in engineering, robotics, PLC/computercontrol, and industrial robots. http://www.fischertechnik.us/

Download the latest software updates in the computing section. by Model A Technology, Inc., the official representative for fischertechnik in the United States Site Contents SALES CATALOG FROM EDUBOTS INTERNATIONAL SITES RETAIL OUTLETS fischer technik is the flexible construction system for young and older system designers alike. Produced in Germany to high standards, these robot kits allow a multitude of systems and 3D models to be created by slotting precision-engineered parts together. Created by one of Europe's leading manufacturers of industrial connectors, fischertechnik has now been innovating and manufacturing the world's most advanced robotics modeling systems since 1965 Although the robot kits are designed to be easy to use, they can be utilized to learn and teach advanced concepts in engineering, robotics, PLC or computer control. As a matter of fact

180. Robotics Institute: Metin Sitti Academic site. robotics Institute Associate Professor, Mechanical engineering. http://www.ri.cmu.edu/people/sitti_metin.html

RI People Text only version of this site Metin Sitti Assistant Professor, RI/Mech E Associated center: CFR Email address: msitti@andrew.cmu.edu Office: SH 315 Phone: Fax: Mailing address: 5000 Forbes Ave 315 Scaife Hall Pittsburgh, PA 15213-3890 For more information, see my personal homepage Jump to: Research interests Keywords Research interests My research interests focus on robotic systems working at the very small scales (from milimeter scale down to molecular scale), such as autonomous miniature swimming, flying, and walking robots, nanoprobe based robots for nano-manufacturing, biologically inspired micro/nanosystems, etc. Our interdisciplinary group designs, analyzes, constructs, controls, and applies novel micro/nanorobotic systems for biotechnology, medical, information technology, materials, and nanotechnology applications. Keeping the main axis as robotics, we also specialize on nanotechnology, micro/nano-electromechanical systems, and biotechnology fields. My NanoRobotics Lab is located in Scaife Hall B-2 and some of the projects are: Autonomous and teleoperated nano-manufacturing systems using Atomic Force Microscope nanoprobes, optical tweezers, and dielectrophoresis for precision assembly of carbon nanotubes, biological objects (DNA, RNA, cell, tissue, etc.), nanoparticles, nanowires, etc.

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