Humanoid Robot Developed Based on Technical Transfer from AIST.Tokyo, Japan, July 13, 2006 - (JCN JCN Japan Corporate News JCN Journal of Cognitive Neuroscience JCN Journal of Cardiovascular Nursing JCN Journal of Christian Nursing JCN Job Control Number JCN Journal of Child Neurology JCN joint communications network (US DoD) Newswire) - Using research results from the Humanoid Research Group of the Intelligent Systems Research Institute of AIST AIST Advanced Industrial Science and Technology (Japan) AIST National Institute of Advanced Industrial Science and Technology (Japan) AIST Association for Iron & Steel Technology , two start-up companies approved by AIST, i.e., General Robotix, Inc. and Moving Eye, Inc. working together with Pirkus Robotix, Inc. and Dai Nippon Technical Research Institute have developed a humanoid robot called "HRP-2m Choromet," or "Choromet," for short. Chromet is 35 cm high, weighs 1.5 kg, and has 20 degrees of freedom. It has triaxial tri·ax·i·al adj. Having three axes. tri·ax  i·al i·ty n. force/torque sensors on its legs and
accelerometer accelerometerInstrument that measures acceleration. Because it is difficult to measure acceleration directly, the device measures the force exerted by restraints placed on a reference mass to hold its position fixed in an accelerating body. and gyroscope gyroscope (jī`rəskōp'), symmetrical mass, usually a wheel, mounted so that it can spin about an axis in any direction. When spinning, the gyroscope has special properties. on its trunk, and a small, energy-saving controller developed at AIST that is driven in real-time by Linux (ARTLinux). Also developed at the same time at AIST was base software that runs on the Linux system. Moving Eye (ME) had already been working on the miniature controller and ARTLinux, while General Robotix (GRX GRX Getright Download List (file extension) GRX Granada, Spain - Granada (Airport Code) GRX Grunts (FAO fish species code) GRX GPRS Roaming Exchange Node GRX Graphics ) had already been working on the base software for the robot. Chromet is the result of combining these technologies. Given these traits, the software used to move and control Chromet may have applications in education and research. AIST has so far developed the humanoid robot HRP-2 Promet and fundamental technologies for humanoid robots such as the software platform OpenHRP. AIST has also developed ARTLinux (developed by Yoichi Ishiwata, currently CTO (Chief Technical Officer) The executive responsible for the technical direction of an organization. See CIO and salary survey. of ME) which has achieved real-time processing in the user space, and the small energy-saving controller into which ARTLinux is loaded. These results have been put to practical use by GRX and ME, two start-up companies working with AIST. HRP-2 Promet has been used in R&D organizations such as universities as a research and development platform. Unfortunately, the very high unit price of tens of millions of yen is impeding its widespread use. The present work was undertaken to enable the use of high-level research results like OpenHRP and ARTLinux to be used with low-cost robots. The robot in this project was developed by high-tech start-up and other companies with technology that had been transferred from AIST, an excellent example of AIST's function as a hub for innovation. Development Details Choromet was developed to be small and inexpensive. For this reason, it uses a servomotor ser·vo·mo·tor n. A motor that controls the action of the mechanical device in a servomechanism. [French servomoteur : Latin servus, slave + French moteur, motor for hobby robots. Moreover, its link structure allows it to be made with metal plates, but it was designed so that there would be as little offset as possible in the joint axes. The rigidity of this robot has reached the level where the effectiveness of its motion patterns can be tested at the same level as movement patterns for humanoid robots. In the above sectors, there have been development results for small, two-legged robots at Pirkus. Under the supervision of Jin Sato, Pirkus is in charge of designing mechanical links, which is its specialty. The controller, a small (business card-sized) energy-saving controller (SH-4 240 MHz (MegaHertZ) One million cycles per second. It is used to measure the transmission speed of electronic devices, including channels, buses and the computer's internal clock. A one-megahertz clock (1 MHz) means some number of bits (16, 32, 64, etc. , 32M) developed by AIST, has been given a new serial interface which provides input and output with the servomotor, sensors, and so on. In charge of this development is ME, which has been working on practical use of ARTLinux. This controller features some of the functions of the humanoid robot software platform OpenHRP, which has helped give the robot movements such as walking on two legs and getting up. The creation of movement patterns based in part on ZMP ZMP Zero Moment Point ZMP Zenith MUD Protocol ZMP Zinc Matrix Power and the control of sensor feedback has allowed the new robot to walk with smaller feet than conventional hobby robots. The above development is being handled by GRX. The exterior of the robot was designed to not restrict the range of movement of the joints, to be as safe as possible, and to approximate HRP-2 Promet. The overall design was supervised by Yutaka Izubuchi, who was also in charge of the design for HRP-2 Promet. The development of the plastic model, robot exterior, etc., was undertaken by Dai Nippon Technical Research Institute. In summary, it has become possible to run Choromet on a software-based movement program on a real-time Linux platform, which has reached the level where the effectiveness of the humanoid robot motion patterns can be corroborated. Future Plans Plans call for corroboration tests to be conducted using this prototype robot, evaluations to be made of its mechanical rigidity, the minimum required sensors be selected, and necessary changes be made in order to market this as a low-cost platform for education and research. Plans also call for the creation of a simulator for Choromet and the development of contents for educational uses. The prototype robot was exhibited at the Robotics and Mechatronics (MECHAnics elecTRONICS) The combination of mechanical and electronic systems. Embracing robotics, industrial control systems and human interfaces in numerous disciplines, mechatronics is a major step beyond "electromechanical," in which only electricity is required. Symposium of the Japan Society of Mechanical Engineers held on May 27-28, 2006 at the Okubo campus of Department of Science and Technology, the Waseda University. About AIST The National Institute of Advanced Industrial Science and Technology The National Institute of Advanced Industrial Science and Technology (産業技術総合研究所 (the new AIST) began operations on April 1, 2001. AIST is a newborn research organization that comprises 15 research institutes previously under the former Agency of Industrial Science and Technology (the former AIST) in the Ministry of International Trade and Industry The Ministry of International Trade and Industry (通商産業省 Tsūsho-sangyō-shō or MITI) was one of the most powerful agencies in the Japanese government. and the Weights and Measures weights and measures, units and standards for expressing the amount of some quantity, such as length, capacity, or weight; the science of measurement standards and methods is known as metrology. Training Institute. The new AIST is Japan's largest public research organization with many research facilities and around 3,200 employees in all. Source: AIST Contact: AIST Planning Headquarters 1-3-1, Kasumigaseki, Chiyoda-ku, Tokyo, 100-8921 Japan Tel +81-3-5501-0830 Fax +81-3-5501-0855 Copyright [c] 2006 JCN Newswire. All rights reserved. A division of Japan Corporate News Network K.K. |
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