Download - Robot Control
ByChun-Lung Lim
Jay Hatcher Clay Harris
Definition of a RobotDefinition of a Robot • Definition of a Robot According to The Robot
Institute of America (1979) : "A reprogrammable, multifunctional manipulator designed to move materials, parts, tools, or specialized devices through various programmed motions for the performance of a variety of tasks."
• According to the Webster dictionary: "An automatic device that performs functions normally ascribed to humans or a machine in the form of a human (Webster, 1993)."
A Brief History of RoboticsA Brief History of Robotics• Robotics' history is tied
to so many other technological advances that today seem so trivial, we don't even think of them as robots.
• How did a remote-controlled boat lead to autonomous metal puppies?
Nikola TeslaNikola Tesla
• Croatian-American scientist Nikola Tesla.
• Invented many things, including the alternating current system.
• Remote-controlled, submersible boat was acting on radio signals.
Slaves of steelSlaves of steel
• The first person to use the word robot was a playwright, Czechoslovakian writer Karel Capek first used the word robot in his satirical play, R.U.R. (Rossum's Universal Robots).
Cover page of the first edition
Wartime inventions Wartime inventions
• World War II was a big catalyst in the development of two important robot components: artificial sensing and autonomous control.
• The U.S. military created auto-control systems for mine detectors that would sit in front of a tank as it crossed enemy lines
• The Germans developed guided robotic bombs that were capable of correcting their trajectory.
German robot bomb found in France
Calculators and computers Calculators and computers
• John Atanassoff built the world's first digital computer.
• In 1946 the University of Pennsylvania completed the ENIAC (Electronic Numerical Integrator And Calculator), a massive machine made up of thousands of vacuum tubes. But these devices could only handle numbers.
• The UNIVAC I (Universal Automatic Computer) would be the first device to deal with letters.
ENIAC computer
A robot in every potA robot in every pot
• The invention of the transistor in 1948 increased the rate of electronic growth and the possibilities seemed endless.
• The creation of silicon microchips reinforced that growth.
• The seven-foot robot could smoke and play the piano.
Elecktro the smoking robot
Industrial-strength arms Industrial-strength arms
• 1961 General Motors installed the applied telecherics system on their assembly line. The one-armed robot unloaded die casts, cooled components and delivered them to a trim press.
• In 1978 the PUMA (Programmable Universal Machine for Assembly) was introduced and quickly became the standard for commercial telecherics.
PUMA industrial robot
Early personal robots
RB5X
Hero 1
Arms in spaceArms in space
The Canadarm -- Canada's Hand in the Sky (NASA)
From breadboard to on-board: small components were assembled and tested innumerable times before the final product was mated to the shuttle in 1981 (NASA)
Surgical toolsSurgical tools
• In 1985 Dr. Yik San Kwoh invented the robot-software interface used in the first robot-aided surgery, a stereo tactic procedure.
• The surgery involves a small probe that travels into the skull.
• A CT scanner is used to give a 3D picture of the brain, so that the robot can plot the best path to the tumor.
Dr. Yik San Kwoh with surgical robot
The Honda HumanoidThe Honda Humanoid
Hazardous dutiesHazardous duties
• Dante II aids in the dangerous recovery of volcanic gases and samples.
• These robotic arms with wheels saved countless lives defusing bombs and investigating nuclear accident sites.
Telecheric robot inspects suspicious package
Solar-powered insects Solar-powered insects
• Mark Tilden's BEAM robots look and act like big bugs.
• Tilden builds simple robots out of discrete components and shies away from the integrated circuits most other robots use for intelligence.
• Started in the early 1990s, the idea was to create inexpensive, solar-powered robots ideal for dangerous missions such as landmine detection.
A range of roversA range of rovers
• Sojourner, semi-autonomous robot platforms to be launched into Mars in 1996.
• The problem was, it could only travel short distances.
• In 2004, twin robot rovers caught the public's imagination again, sending back amazing images in journeys of kilometers, not meters.Mars rover
Entertaining petsEntertaining pets
• In the late '90s there was a return to consumer-oriented robots.
• One of the real robotic wonders of the late '90s was AIBO the robotic dog, made by Sony Corp.
• By using sensor array, AIBO can autonomously navigate a room and play ball.
AIBO takes a spill
Siggraph 2005 – Los Angeles
• Quasi can make responses based on guest input and can recognize speech patterns, track faces, detect proximity, dispense candy and even perform a karaoke duet.
• Softwares includes Alias Maya, BAT and so on. Quasi - Carnegie Mellon
University
AndroidAndroid
My beloved…. My beloved….
Repliee Q2Repliee Q2
Hawk Digital SystemHawk Digital System
Robot Project: Prototype Robot Robot Project: Prototype Robot Exhibition 2005Exhibition 2005
Network robotics, RT middleware Network robotics, RT middleware (9 projects)(9 projects)
• Robot with advanced auditory capabilities for human interaction • Companion robot that follows individuals by multimodal interaction • Multitask robot system that utilizes intelligent information infrastructure • Hyperrobot that serves people by integrating single-task domestic robots • Errand robot • Seven-degree-of-freedom double-arm unit and double-arm mobile robot • Superdistribution and combination robot system utilizing wireless links • Content-oriented robot that uses robot content • Environmental robot
Experiential robots (7 projects)Experiential robots (7 projects)
• Robot that decorates ceramic tableware and drinkware
• Portrait-drawing robot • Partner robot with artificial tongue • Future science encyclopedia and multifingered haptic
interface robot • Mutual telexistence robot that utilizes retroreflective
projection • Robot for encountering the microscopic world • Cyberassist meister robot
Outdoor skilled-work robotsOutdoor skilled-work robots (7 projects) (7 projects)
• Boarding robot for roaming natural landscapes • Ubiquitous robot • Caddy robot • Search and contaminant recovery robot for
response to nuclear, biological, and chemical terrorism
• Manually controlled heavy-duty robot to assist rescue operations
• Robot that searches through rubble
Special-environment robotsSpecial-environment robots(9 projects)(9 projects)
• Robot that evaluates duct interiors by impact-elastic waves • Pacemaker robot for marathons • Golden Shachihoko robot • Autonomous snow-plowing robot to support life in snowy
regions • Super-high-speed batting robot that can hit fastballs of up to
160 kph • Amphibious snake-type robot • Acrobatic airship robot • Data gathering double-kite-type robot, humanoid robot for a
comfortable lifestyle • High-performance flying robot
Medical and welfare robotsMedical and welfare robots(10 projects)(10 projects)
• Emergency rescue robot • Superdetail human body robot for medical skills training • Three-dimensional visual perception and display apparatus for
office, home, and medical robots, and microhand for medical and surgical use
• Remote microsurgery robot • Six-degrees-of-freedom robot for rehabilitation of upper limbs
including wrists • Handicap-assistive barrier-free robot interface system with high
learning ability • Semiautonomous robot system for self-care by disabled people • Wearable robot for musclular support: Muscle suit for upper limbs • Power augmentation robot • Robot suit to assist human movement
Partner robots (8 projects)Partner robots (8 projects)
• Canine robot as a mobile platform that exhibits high physical capabilities outdoors in urgent situations
• Android that interacts with people and nature • Cooperative framework for heterogeneous robots • Physical communication robot to cheer up children • Robot for scenario research that is capable of
authoring • Next-generation communication robot • Communicating heterogeneous robots • Dance partner robot
Performance robots (6 projects)Performance robots (6 projects)
• Six-legged walking robot that uses reinforcement learning (autonomous development of motion control)
• Self-configurable modular robot
• Artistic robot
• Limb mechanism robot
• Three-leg wheeled type robot
• Crawling and jumping soft robot
Humanoid robots (7 projects)Humanoid robots (7 projects)
• Humanoid probe robot • Interaction middleware for humanoid robots • Software that generates impact motions for the HRP-
2 robot • Animatronic humanoid robot • Musculoskeletal humanoid robot with a large-degree-
of-freedom flexible spine • Humanoid robot for research on dynamic motion • Bipedal humanoid robot as a simulator of human
motion
References:References:• http://www.robotics.utexas.edu/rrg/learn_more/history/• http://www.msnbc.com/modules/robot_history/• http://www.thelightningguy.com/tesla.htm• http://capek.misto.cz/obrazky/divadlo/theater.html• http://www.mlc-engineering.com/rb5x01.htm• http://www.honda.co.jp/robot/movie/• http://www.cooltoolawards.com/hardware/Humanoid.htm• http://www.tomshardware.com/site/videos/index.html• http://www.ed.ams.eng.osaka-u.ac.jp/development/Humanoid/
ReplieeQ2/ReplieeQ2_eng.htm• http://www.motionanalysis.com/applications/movement/sports/
hawksystem.html• http://www.expo2005.or.jp/en/robot/robot_project_02.html• Paper : Generating Natural Motion in an Android by Mapping
Human Motion