AIROLAB - Artificial Intelligence And Robotics Laboratory AIROLAB is part of the Department of Computer Science and engineering at the University of Notre Dame. The lab specializes in the software aspects of agent design and implemented of agent architectures are on various robots. http://www.nd.edu/~airolab/
Gary K. Fedder Home Page Personal site. robotics Institute and Electrical and Computer engineering Associate Professor. http://www.ece.cmu.edu/~fedder/
TUM Informatik - Faculty of Informatics. Research groups focus on programming, distributed systems, formal languages, compiler construction, database systems, engineering applications of computer science, numerical methods, real time systems, robotics, theoretical computer science, artificial intelligence, communication, deduction, knowledge based systems, image processing, computer architecture, applied computer science, operating systems, networks, and algorithms. http://www.informatik.tu-muenchen.de/index_en.html
Extractions: Campus Garching Current Events New Announcements Student mit MAC OS X Kenntnissen gesucht! DA: Konzeption und Umsetzung einer Community-Plattform für eine 'Sports Innovation Community' Diplom/Master/Bachelorarbeiten zu Verteilten Anwendungen/CSCW im Projekt Cobricks (Lehrstuhl Schlichter) SEP - Virtuelle Hochschule ... ... More ... Search in Announcements Courses Persons Rooms Web-Pages Student in München? Check out studiosity.de
Introduction To Robotics - Engineering Sciences 159/259 Introduction to robotics engineering Sciences 159/259. Harvard University - Fall 1997. Lectures MWF 1000 (plus labs, times to be arranged), Pierce Hall, http://www.deas.harvard.edu/courses/es159/
Extractions: NOTE: Pick up missed handouts and graded assignments from Ms. Toomey Teaching Fellow: Dr. Jack Dennerlein, phone 496-9098, email jax@hrl Textbook: Fundamentals of Robotics: Analysis and Control Robert J. Schilling Prentice-Hall, 1990 (10 copies at the Coop) Reserves: A number of references and alternate texts are on reserve in Gordon McKay Library, third floor Pierce Hall, under ES259. There will be weekly problem sets, two midterm exams, and a final exam. In addition, there will be three or four laboratory experiments, most of which will require written reports. Students taking the course for graduate-level credit must complete a project on an approved topic in addition to ES159 requirements. This project will consist of two parts: (1) a literature review of an area of robotics research, and (2) an independent research effort on a specific aspect of robotics. The literature review will be assigned in November and due around Thanksgiving, and the project will be due at the end of the reading period.
International Society For Group Theory In Cognitive Science Group theory in robotics, ProblemSolving, Planning, Learning, Language, Perception, Art, Design, engineering, Manufacturing, Epistemology, Measurement, Computation, Neuroscience, Anthropology, Semiotics. http://www.rci.rutgers.edu/~mleyton/GT.htm
Australian Centre For Field Robotics University of Sydney group concerned with the application of advanced control, sensing and systems engineering principles to the development of autonomous machines operating in outdoor, variable and hostile environments. http://www.acfr.usyd.edu.au/
Robotics Institute: Gary Fedder Academic site. robotics Institute and Electrical and Computer engineering Associate Professor. http://www.ri.cmu.edu/people/fedder_gary.html
Extractions: Pittsburgh, PA 15213-3890 For more information, see my personal homepage Jump to: Research interests Keywords Projects Publications Research interests Our research group designs, fabricates, and tests microdevices that are primarily made using a process in high conventional foundry CMOS is followed by simple micromachining steps. This process provides us with high-performance electronics integrated on chip with electrostatically actuated microstructures, capacitive and piezoresistive sensors, and polysilicon thermal heaters. Projects include micromechanisms for magnetic probe-based data storage, accelerometers and gyroscopes for inertial sensing, and ciliary sensors for tactile and acoustic imaging. Of particular interest is how large arrays of these sensors and actuators may improve overall system-level performance. Issues include system design and integration, distributed control and communication, and interfacing to the environment. MEMS are coupled multi-domain systems and, therefore, are difficult to design without expertise in a diverse set of fields. To address this problem in our lab, MEMS designers and CAD developers work closely together in a synergetic research environment. We are developing a multi-domain hierarchical design methodology to speed up the design cycle. A MEMS schematic is being developed in which mechanical, electromechanical, and electronic elements are graphically interconnected, resulting in rapid simulation and evaluation of designs. We are also modeling topologies for common MEMS applications, such as accelerometry, to codify design constraints for use in automated synthesis tools.
Welcome Private research lab involved in engineering, studies and consulting statistics, data analysis, signal processing, signal understanding, data mining, image understanding, vision, modelling knowledgebased systems, robotics. La Garenne Colombes, France. http://www.nexyad.com/
Current Projects - Robotics Part of the Center for engineering and Science Advanced Research at Oak Ridge Laboratory. Specializes in multirobot learning, cooperative, distributed heterogeneous sensing, mapping, path planning. http://www.cesar.ornl.gov/robotics.html
Extractions: Highlight Current Research Research Accomplishments Fig. 1 : Results: a) Empirical studies of multi-robot learning strategies on CESAR multi-robot team. A particularly challenging domain for multi-robot learning concerns tightly coupled, inherently cooperative tasks. In these tasks, the utility of the action of one robot is dependent upon the current actions of its team members. Such inherently cooperative tasks cannot be decomposed into independent subtasks to be solved by a loosely coupled distributed robot team. Instead, the success of the task is measured by the combined actions of the robot team, rather than the individual robot actions and contributions. This problem domain is extremely difficult for robots to learn autonomously because of the challenges of assigning performance credit to individual robots based only upon global rewards provided to the team as a whole. However, the solution to this problem is critical for reducing the cost of programming multi-robot teams, and for enabling the teams to autonomously adapt to new environmental conditions.
Robotics Institute: Kaigham Gabriel Academic site. robotics Institute and Electrical and Computer engineering Associate Professor. http://www.ri.cmu.edu/people/gabriel_kaigham.html
Extractions: Pittsburgh, PA 15213 For more information, see my personal homepage Jump to: Research interests Keywords Projects Publications Research interests As information systems increasingly leave fixed locations and appear in our pockets and palms, they are getting closer to the physical world, creating new opportunities for perceiving and controlling our machines, structures and environments. To exploit these opportunities, information systems will need to sense and act as well as compute. Investing engineered systems with the ability to sense and act is the focus for my research activities in microelectromechanical systems (MEMS). This section last updated - January 1999. Research interest keywords bioengineering display devices haptics human-computer interaction ... microrobotics , and tissue engineering Microelectromechanical Systems Laboratory - We are developing miniature sensor and actuator systems using integrated-circuit fabrication processes. Tissue Engineering - Applying the principles of biology and engineering to develop tissue substitutes to restore, maintain, or improve the function of diseased or damaged human tissues.
Extractions: UP DEEE Mobile Robotics Laboratory Mobile Robotics Laboratory University of the Philippines DEEE Building Velasquez Street, UP Diliman Campus Quezon City, 1101, Philippines (632) 9818500 voip 3362 Mobot Lab at Bangkok, Thailand for the 2003 ABU Robocon. At the right is the trophy awarded to Mobot Lab during the MADC 2003. The laboratory is mainly concerned with research on mobile robots as intelligent agents. This being the case, the members of the laboratory involve themselves in various fields including almost every aspect of electrical engineering (power electronics, instrumentation and controls, communications, embedded systems, AI, operating systems, a little of computer science, mechanics, biology, and yes, even philosophy). The insight and skills gained from developing actual mobile robotic platforms as well as the platforms themselves, serve as building blocks for the upcoming researches of the lab. For comments and suggestions, e-mail
Rehabilitation Robotics Research Program The rehabilitation robotics research program at the Applied Science and engineering Rehabilitation engineering Research Center on Rehabilitation robotics. http://www.asel.udel.edu/robotics/
Robotics Institute: Angel Jordan Academic site. robotics Institute Keithley University Professor of robotics Institute and Electrical and Computer engineering, Emeritusin the robotics Institute and Electrical and Computer engineering. http://www.ri.cmu.edu/people/jordan_angel.html
Extractions: Pittsburgh, PA 15213 Jump to: Biography Research interests Additional Interests and Responsibilities Projects ... Publications Biography BORN September 19, 1930, Pamplona, Spain; Naturalized American in 1966. ADDRESS: 5874 Aylesboro Avenue, Pittsburgh, PA 15217. PHONE: (412) 421 2384 (Home); (412) 268 2590 (Office); (412) 268 5016 (Fax); email ajordan@cs.cmu.edu EXPERIENCE Software Engineering Institute, Carnegie Mellon University, July 2003 - July 2004, Acting Director and CEO. 1990 - 1997 University Professor of Electrical and Computer Engineering. 1983 - 1991 Provost. 1987 - 1988 Acting Dean, Mellon College of Science. 1986 Acting Director, Software Engineering Institute. 1983 - 1985 Acting President, Mellon Institute of Industrial Research. 1979 - 1983 Dean, Carnegie Institute of Technology (engineering college). 1972 - 1980 U.A. and Helen Whitaker Professor of Electronics and Electrical Engineering.
Extractions: Active Structures Laboratory Department of Mechanical Engineering and Robotics History and expertise The team Research activities Teaching activities ... Contact and useful information A short story of the Department and a summary of our fields of expertise Detailed team composition with fields or research and contact addresses. Extended description of field of research, past and present contracts, multimedia features (pictures, movies,...), past and present PhD's... Useful information for our students Course announcements, and others events related to the Active Structures Laboratory Address of the Department, access maps, accommodation in Brussels,... Extended list of scientific publications sorted in chronological order. Check for updates here (September 3rd 2005 teaching ... INTRANET
Newlands Engineering, Maidstone, Kent Precision engineering components for communications, robotics, medical, automotive, security industries. In Maidstone. http://www.newlands-engineering.co.uk/
Index Of /engineering/research/mechatronics Lancaster University group specializing in mobile robots, construction robotics, control systems, and engineering structures. http://www.comp.lancs.ac.uk/engineering/research/mechatronics/
Robotics Research Group Home Page robotics Research Group engineering Science Department Parks Road Oxford The robotics Research Group is based on the engineering Science triangle in the http://www.robots.ox.ac.uk/
Robotics Institute: Pradeep Khosla Academic site. robotics Institute Philip and Marsha Dowd Professor of engineering and robotics. Department Head, Electrical and Computer engineering, Electrical and Computer engineering. http://www.ri.cmu.edu/people/khosla_pradeep.html
Extractions: Pittsburgh, PA 15213 For more information, see my personal homepage Jump to: Biography Research interests Projects Publications Biography From January 1994 to August 1996 he was on leave from Carnegie Mellon and served as a DARPA Program Manager in the Software and Intelligent Systems Technology Office (SISTO), Defense Sciences Office (DSO) and Tactical Technology Office (TTO) where he managed advanced research and development programs, with a total budget exceeding $50M in FY96, in the areas of Information based Design and Manufacturing, Web based Information Technology Infrastructure, Real-Time Planning, and Distributed AI and Intelligent Systems, Real-Time Embedded Software, Sensor-based Control, and Collaborative Robotics. Professor Khosla's research interests are in the areas of internet-enabled distributed and collaboratve design, collaborating autonomous systems, agent-based architectures for embedded control, software composition and reconfigurable software for real-time embedded systems, reconfigurable and distributed robotic systems, and distributed information systems. His research is multidisciplinary and has focused on the theme of "creating complex embedded and information systems through composition of and collaboration amongst building blocks".
Washtenaw Community College robotics and preengineering programs are ever-changing and offer great job and career opportunities. Tour includes information about one-year certificate http://www.reachoutmichigan.org/exploringsci/tourlisting/wcc/wcctour5.html
Extractions: Contact Person: Brad Hoth Robotics and pre-engineering programs are ever-changing and offer great job and career opportunities. Tour includes information about one-year certificate programs and two-year associate degree programs. Tour Length: 1-2 hours Related Careers: Robotics, Engineering Public Access: AATA bus stop nearby Group Size: Age Level: Middle and High School Interests: Robotics, Engineering Previous Classes/Knowledge: Math and Science Other Tours Offered by Washtenaw Community College Back to Coalition Tour Directory
Southeastern Engineering - Machine Shop Melbourne Palm Bay Florida Specializes in machining services for the semiconductor, oceanographic, aerospace, robotics and biomedical industries. Offers a quote form and employment opportunities. http://www.southeasternengineering.com/
Extractions: Southeastern Engineering is a precision CNC Machine Shop specializing in the semiconductor, oceanographic, aerospace, robotics and biomedical technology industries. With communication options including e-mail, fax, Next Day Air and Express Shipping capabilities, we work with businesses across the country. We are proud of our high quality products and superior customer service. SEI has been in business since 1980. Our 12,000 square foot facility is located 20 minutes from the Melbourne International Airport and 3 miles from I-95. Our plant is fully air-conditioned. Our operation is comprised of the following departments. Administration CNC Programming Assembly Engineering Manufacturing Tool Crib Quality Control Bonded Material Area Shipping / Receiving Please browse our website to get a better understanding of our services and capabilites.
