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Educational and Entertainment Robot Market Assessment
Educational and Entertainment Robot Market Strategy, Market Shares, and Market Forecasts, 2008-2014

Educational and Entertainment Robot Market Assessment Educational and Entertainment Robot Market Strategy, Market Shares, and Market Forecasts, 2008-2014

The automated process revolution in educational and entertainment robots promises strong growth that extends beyond the direct markets. Once studenst learn how to use robots, they move into industry and make functional robots for business automated process and for communications and entertainment. Robots are automating systems, leaving more time for leisure activities. The educational kits are designed for pure fun and for educational competitions where students put together modules in innovative ways to create designs that work. Robots are set to provide more variety to entertainment as well. The robotic ability to sing and dance and fight provides endless new modalities of entertainment as people organize their robots in a creative manner. Innovation is set to be stimulated by the modular systems that are available in the robotic community. Humanoid robots and innovative shaped robots are evolving a place in homes and offices, providing information and communications, as well as automated locomotion. The modularity of robot kits makes them versatile and flexible. Modules can be put together in a variety of ways, give users choices about what functionality the robot will have.

Educational robots are used by every level of student. Kits are geared to various age and skill levels. Robotics competitions are being held for every age level. Students do not yet receive formal education on robots and are more likely to enter competitions as clubs competing against each other representing different educational institutions. The automated process revolution in business process and communications is being extended to robots. Markets for educational robotic kits at 541,000 units in 2007 are anticipated to reach 35.8 million units by 2014. As the price comes down and schools begin to institutionalize robotics programs, there is very fast growth anticipated. Growth at the low end robotic kits starts to level off as demand increases for robots with more components and more functionality. Robotics transcends national boundaries. Children in Germany, Japan, Korea, India and Great Britain all are equally captivated by robotics systems.

In countries across the world, those responsible for educating the future workforce, a workforce that must compete in an internationalized economy where the science and engineering acumen of workers can mean the difference between maintaining standards of living or falling behind, robotics is rightly viewed as a key enabler and educational tool. In these countries, like the US, robotics will become a mainstay of educational curricula at all education levels.

Robotics kits are being used for education and entertainment to get students started and comfortable with the technology, programming, and concepts of robots. In some competitions, the robot must fit inside a 4'x4'x4' cube for the entire duration of its run. Robots must be autonomous. Remote control is not allowed with the exception of the remote control safety switches. Robot types include insects and animal robots, listening, touching and seeing robots, robot arms, programmable robots, educational kits, hackable robot kits, legged robot platforms and kits, and wheeled platforms. Robotics teaches skills for every field of interest

Robotics teaches skills for every field of interest from the arts to zoology. Components are used to make a robot from a kit. Robot kits are for all ages, skills, interests and budgets. The robot must be constructive. No damage the environment or other robots is envisioned or tolerated by kit manufacturers. No kit robot weighs more than 50 pounds. Competitions do not permit use of an internal or external combustion engine.

Vendors have developed extensive robotics curriculum that is taught in high schools and colleges around the world. Vendors sell books and parts kits. They also make all the books available for free download. A robot kit gives access to a huge library of technical training and information that is specifically designed for the robot.

Many entertainment robots are available. WowWee Robopanda is a playful and talkative interactive friend. With his engaging personality and bright animated eyes, Robopanda loves to share stories and jokes, play games, sing songs and talk with children of all ages. He's a fun-filled robotic bear who can even crawl on all fours and return to a sitting position. Designed to work without a remote control, Robopanda is controlled directly by touch and sound. Users experience hours of delight and entertainment playing with him and his interactive cartridge-based content.

Markets for education al robotic kits at $27.5 million in 2007 are anticipated to reach $1.69 billion by 2014.

Robot entertainment and educational markets at $184.9 million in 2007 are anticipated to reach $2.985 billion by 2014. Market growth is spurred by the evolution of a new technology useful in a range of industry segments. The educational and entertainment robots represent a first step in the evolution of the robotic markets because they provide the teaching aspect of the market that precedes any other market evolution in the services and mobility segments of consumer robotics.

  • Report Methodology
  • Educational and Entertainment Robot Market Description and Market Dynamics
  • 1. Educational and Entertainment Robot Market Description and Market Dynamics1-1
    • 1.1 Robot Kits
      • 1.1.1 Modular Self-Reconfiguring Robotic Systems
      • 1.1.2 Design, Development and Standards Track
      • 1.1.3 Tools and Platforms Track
    • 1.2 Enabling Technology
      • 1.2.1 Educational Robotics Proliferate
      • 1.2.2 Formal Incorporation of Robotics within School Age and University Level Curricula
      • 1.2.3 Personal Computers Provide an Example
      • 1.2.4 Robotics Educational Lifecycle
      • 1.2.5 Educational Robotics Everywhere
    • 1.3 Robotics Competitions
      • 1.3.1 FIRST Vex Challenge
      • 1.3.2 Robo-Magellan Robotics Competition
      • 1.3.3 Georgia Tech Scores RoboCup 2007 for Atlanta
      • 1.3.4 Nanogram League
    • 1.4 Seizing the Robotics Opportunity
      • 1.4.1 Robotic Kit Enabling Technology
    • 1.5 Public Aware That Era Mobile Robotics Has

      "Arrived"

    • 1.6 Market Research Risk Mitigation
  • Educational and Entertainment Market Shares and Market Forecasts
  • 2. Educational Kit and Entertainment Robots Market Shares and Forecasts
    • 2.1 Educational and Entertainment Robot Market Driving Forces
    • 2.2 Educational Robot Market Shares
      • 2.2.1 Innovation First / IFIrobotics
      • 2.2.2 First / Vex Robotics
      • 2.2.3 Revell VEXplorer Robotics System
      • 2.2.4 Lego Strategic Positioning
      • 2.2.5 Lego MindStorms Robots
    • 2.3 Educational Robot Market Forecasts
      • 2.3.1 Educational Robot Market Dollar Forecasts
      • 2.3.1 Toy Robot Kits
      • 2.3.2 Basic Robot Kits Market Forecasts
      • 2.3.3 BEAM Robot Kits
      • 2.3.4 BEAM Solar Robot Kits
      • 2.3.5 Programmable Robot Kits
      • 2.3.6 Worldwide Educational Programming Robots
      • 2.3.1 Electronics Soldering Robot Kits
      • 2.3.2 Robot Soldering Kits
    • 2.4 Humanoid and Entertainment Robot Market Shares
      • 2.4.1 Ugobe's Pleo dino-bot
      • 2.4.2 WowWee Robopanda Playful and Talkative Interactive
      • 2.4.3 WowWee next Generation Robosapien, the RS Media
      • 2.4.4 Robosapien RS Media in Europe
      • 2.4.5 WowWee Robosapien
      • 2.4.6 Other Humanoid Robots
      • 2.4.7 Toyota Robot That Plays "Pomp and Circumstance" on The Violin
    • 2.5 Humanoid Robot Market Forecasts
      • 2.5.1 User Programmable Robot
    • 2.6 Educational, Humanoid, Entertainment, and Toy Robot Kit Market Regional Analysis
  • Educational and Entertainment Robot Product Description
  • 3. Educational and Entertainment Robot Product Description
    • 3.1 Robotics Design System Starter Kits
    • 3.2 First / Vex Robotics
      • 3.2.1 Revell VEXplorer Robotics System
      • 3.2.2 Innovation First / Vex Power Pack
      • 3.2.3 Innovation First / Vex Crystal Upgrade Kit (A or B)
      • 3.2.4 Innovation First / Vex Transmitter and Receiver Kit
      • 3.2.5 Vex Robotics Programming
      • 3.2.6 Vex Hardware and Metal Kit
      • 3.2.7 Vex Gear Kit
      • 3.2.8 Vex Motor Kit
      • 3.2.9 Vex Servo Kit
      • 3.2.10 Vex Wheel Kit
      • 3.2.11 Vex Tank Tread Kit
      • 3.2.12 Vex Sprocket and Chain Kit
      • 3.2.13 Vex Omni Directional Wheel
      • 3.2.14 VexLabs Advanced Gear Kit
      • 3.2.15 Vex Large Omni Directional Wheel Kit
      • 3.2.16 Vex Limit Switch Kit
      • 3.2.17 Vex Light Sensor Kit
      • 3.2.18 Vex Line Tracking Kit
      • 3.2.19 Vex Bumper Switch Kit
      • 3.2.20 Vex Optical Shaft Encoder
      • 3.2.21 Vex Ultrasonic Range Finder
      • 3.2.22 Vex Safety Glasses
    • 3.3 Microsoft Robotics Studio
    • 3.4 LEGO MindStorms Robots
      • 3.4.1 Lego Mindstorms NXT system
      • 3.4.2 Built-in Rotation Sensor
      • 3.4.3 Lego Alpha Rex
      • 3.4.4 Lego Spike
      • 3.4.5 Lego RoboArm T-56
      • 3.4.6 Lego
      • 3.4.7 Lego TriBot
      • 3.4.8 LEGO Education
    • 3.5 Parallax Complete Robot Kits
      • 3.5.1 Parallax Penguin Robot (Red)
      • 3.5.2 Parallax Boe-Bot Complete Robot
      • 3.5.3 Parallax SumoBot Robot Competition Kit
      • 3.5.4 Parallax Scribbler Robot
      • 3.5.5 Parallax Toddler Full Robot Kit - Blue
      • 3.5.6 Parallax Rogue Robotics Complete Kits
    • 3.6 Fischertechnik Complete Robot Kits
    • 3.7 M-TRAN Modular Transformer
      • 3.7.1 M-TRAN
      • 3.7.2 M-TRAN System
      • 3.7.3 M-TRAN. Shape shifting (Self-Reconfiguration)
      • 3.7.4 M-TRAN Locomotion Shape Shifting
    • 3.8 Mondo-tronics OctoBot Survivor Robot Kit
      • 3.8.1 OctoBot Survivor Robot Kit
    • 3.9 SuperDroid
      • 3.9.1 Autonomous All-Terrain Robot Kits
      • 3.9.2 SuperDroid Tamiya Educational Series Robot
      • 3.9.3 SuperDroid Vectoring Robot Kits
      • 3.9.4 SuperDroid Modular Programmable Autonomous Robot Kits
      • 3.9.5 SuperDroid Trekker Programmable Autonomous Robot Kits
      • 3.9.6 SuperDroid GearMotors, Servos, and Wheels
      • 3.9.7 SuperDroid Sensors and LCDs
      • 3.9.8 SuperDroid Wireless Cameras
      • 3.9.9 SuperDroid Jungle Robot Kit
      • 3.9.10 SuperDroid Rockit Robot Kit
      • 3.9.11 SuperDroid Weasel Robot Kit
      • 3.9.12 SuperDroid Robots
      • 3.9.13 SuperDroid Police Robot
    • 3.10 OLogic Designs Technology
      • 3.10.1 OLogic Designs Complete Robotic Systems
      • 3.10.2 OLogic IGOR - XYZ The Robot
    • 3.11 NeuroSky
      • 3.11.1 NeuroSky ThinkGearTM Module with Dry-Active Sensor
      • 3.11.2 NeuroSky ThinkGearTM Module eSenseTM Algorithm Library
      • 3.11.3 NeuroSky Prototype
    • 3.12 Solarbotics B.E.A.M. Robotics
    • 3.13 Segway
    • 3.14 Ugobe's Pleo dino-bot
      • 3.14.1 Organic Robotics Technology and Behaviors Breathes Life into Robotics
    • 3.15 Wow Wee Robosapien
      • 3.15.1 Robosapien:
      • 3.15.2 WowWee Robopanda Playful and Talkative Interactive
      • 3.15.3 WowWee Roboquad
      • 3.15.4 Wow Wee Robotics
    • 3.16 Honda ASIMO
    • 3.17 VIA Robotics
      • 3.17.1 VIA Open Systems Robotics Development Platform
    • 3.18 Toyota
    • 3.19 Hitachi
    • 3.20 China's Third Generation of Intelligent Robots
      • 3.20.1 Robots Serve Customers in Restaurant
      • 3.20.2 Chinese Robots Can "Wink" and "Draw
    • 3.21 1st "Robot Bird" Completed in Qingdao
    • 3.22 Robotis / Bioloid Bipedal Robot Construction Kit
      • 3.22.1 Bioloid Motion Editor
      • 3.22.2 Hitec/Robonova-1
    • 3.23 HiTec RoboNova-1
    • 3.24 TAEJON_D2E Robotics
  • Educational and Entertainment Robot Strategy, Technology, and Industry Specific Applications
  • 4. Educational and Entertainment Robot Technology
    • 4.1 Open Robotic Control Software
      • 4.1.1 PC-Bots
    • 4.2 Advanced Robot Technology: Navigation, Mobility, and Manipulation
      • 4.2.1 Robot Intelligence Systems
      • 4.2.2 Real-World, Dynamic Sensing
    • 4.3 User-Friendly Interfaces
      • 4.3.1 Tightly-Integrated, Electromechanical Robot Design
    • 4.4 Field Based Robotics Iterative Development
      • 4.4.1 next-Generation Products Leverage Model
      • 4.4.2 Modular Robot Structure and Control
      • 4.4.3 Lattice Architectures
      • 4.4.4 Chain / Tree Architectures
      • 4.4.5 Deterministic Reconfiguration
      • 4.4.6 Stochastic Reconfiguration
      • 4.4.7 Modular Robotic Systems
    • 4.5 Autonomous Modular Robotics Used in Space
    • 4.6 Telepario
    • 4.7 Self-Reproducing Machines
      • 4.7.1 M-TRAN Modular Transformer
    • 4.8 Attitude Control in Space by Control Moment Gyros
    • 4.9 Lego Brick Construction
    • 4.10 Robotics Government Regulations
    • 4.11 Segway Mobile Robotic Technology
      • 4.11.1 Segway Brains and The Brawn
    • 4.12 Hitachi Configuration of Robots Using The SuperH Family
      • 4.12.1 Hitachi Concept of MMU and Logic Space
  • Educational and Entertainment Robot Company Profiles
  • 5. Educational and Entertainment Robot Company Profiles
    • 5.1 Anybots
    • 5.2 ComCam
    • 5.3 Draganfly Innovations
    • 5.4 EH Publishing / Robotics Trends
      • 5.4.1 EH Publishing
    • 5.5 Evolution Robotics
    • 5.6 Electromechanica
    • 5.7 Fischertechnik
    • 5.8 Fujitsu
    • 5.9 Hitachi
    • 5.10 Honda
    • 5.11 QinetiQ North America / FosterMiller / Automatika / Applied5- Perception
      • 5.11.1 Foster-Miller
      • 5.11.2 Automatika and Applied Perception
    • 5.12 Gostai SAS
    • 5.13 Idealab / Evolution Robotics
    • 5.14 Innova Holdings / CoroWare
      • 5.14.1 Innova Robotics & Automation / CoroWare
      • 5.14.2 Innova Robotics and Automation
      • 5.14.3 Innova Robotics and Automation Companies
      • 5.14.4 Innova Robotics and Automation Alliances
    • 5.15 Innovation First Robotics
      • 5.15.1 Innovation First (RackSolutions) Technical Overview & Capabilities
      • 5.15.2 Innovation First / VexRobotics
      • 5.15.3 VexRobotics
      • 5.15.4 Innovation First
      • 5.15.5 Innovation First / IFIrobotics
      • 5.15.6 Revell-Monogram LLC
      • 5.15.7 VexRobotics
    • 5.16 IntelliVision
    • 5.17 iRobot
      • 5.17.1 iRobot Strategy
      • 5.17.2 iRobot Strategic Alliances
      • 5.17.3 iRobot and Deere & Company
      • 5.17.4 iRobot and Clorox Company
      • 5.17.5 iRobot Sales and Distribution Channels
      • 5.17.6 iRobot Revenue
      • 5.17.7 iRobot Customer Service and Support
      • 5.17.8 iRobot Marketing and Brand
    • 5.18 Lego
      • 5.18.1 LEGO Group Revenue
      • 5.18.2 Lego Strategy
      • 5.18.3 Lego Market and Sales Development
      • 5.18.4 Lego Strategy Three phases
      • 5.18.5 New Generation of Le Go Robots, Mindstorms Nxt
    • 5.19 Microsoft
      • 5.19.1 Microsoft Robotics Studio Provides for Robotics Innovation
      • 5.19.2 Key Features of Microsoft Robotics Studio Environment
      • 5.19.3 Microsoft Industry Partners
      • 5.19.4 Microsoft Sponsors Carnegie Mellon Center for Innovative Robotics
      • 5.19.5 Microsoft Robotics Studio / via Platform
      • 5.19.6 Microsoft Robotics Group
    • 5.20 NeuroSky
    • 5.21 Object Management Group OMG
      • 5.21.1 Object Management Group Computer Industry Consortium
      • 5.21.2 Object Management Group Technology Transfer Program
    • 5.22 OLogic
    • 5.23 Optimal Group / WowWee
      • 5.23.1 Optimal Group
      • 5.23.2 Optimal Group Variety of Businesses
    • 5.24 Parallax
    • 5.25 Robotics Trends, Inc
      • 5.25.1 RoboDevelopment Conference Overview
    • 5.26 Rogue Robotics
    • 5.27 Sensory
    • 5.28 SJAutomation
    • 5.29 SRI International
    • 5.30 SuperDroid Robots Inc
    • 5.31 Systronix
    • 5.32 Toyota
    • 5.33 Trossen Robotics
    • 5.34 Ugobe
    • 5.35 VIA Technologies
      • 5.35.1 via Market Challenge
      • 5.35.2 via Enabling New Markets
      • 5.35.3 via Robotics
      • 5.35.4 via PC-Bots
    • 5.36 Selected List of Educational Robotics Distribution Companies
      • 5.36.1 Selected Robotics Initiatives
      • 5.36.2 Selected Electronics and Automotive Vendors with Robotics Programs
      • 5.36.3 Selected Military \ Aerospace Vendors with Robotics Programs
      • 5.36.4 Selected Toys and Entertainment with Robotics Programs
      • 5.36.5 Selected Home Automation with Robotics Programs
  • List of Tables
    • Table ES-1 ES-2 Robotics Kits, Modules, Parts, and Accessories
    • Table ES-2 ES-3 Modular Robotics Market Driving Forces
    • Table ES-2 (Continued) ES-4 Modular Robotics Market Driving Forces
    • Table 1-2 Design, Development and Standards Track Topics
    • Table 1-2 (Continued) Design, Development and Standards Track Topics
    • Table 1-3 Tools and Platforms Track Topics
    • Table 1-4 Robotics Technology Elements
    • Table 1-4 (Continued) Robotics Technology Elements
    • Table 1-5 Robotics Pattern of Adoption
    • Table 2-1 Robotics Kits, Modules, Parts, and Accessories
    • Table 2-2 Modular Robotics Market Driving Forces
    • Table 2-2 (Continued) Modular Robotics Market Driving Forces
    • Table 2-17 Robosapien Features:
    • Table 2-23 Number of Universities
    • Table 3-3 Vex Robotics Kits, Parts. and Accessories
    • Table 3-4 Vex Robotics Kits, Parts and Accessories
    • Table 3-6 Revell VEXplorer Robotics System Engineering Systems
    • Table 3-14 Vex Robot Parts
    • Table 3-15 Vex Robotics Design System (Starter Kit) - List of Contents
    • Table 3-15 (Continued) Vex Robotics Design System (Starter Kit) - List of Contents
    • Table 3-15 (Continued) Vex Robotics Design System (Starter Kit) - List of Contents
    • Table 3-15 (Continued) Vex Robotics Design System (Starter Kit) - List of Contents
    • Table 3-15 (Continued) Vex Robotics Design System (Starter Kit) - List of Contents
    • Table 3-16 Vex Robotics Design System (Starter Kit) - Image of Contents
    • Table 3-17 LEGO MindStorms Robot Component Structures
    • Table 3-18 LEGO MindStorms Robot Component Functions
    • Table 3-21 Lego Alpha Rex
    • Table 3-24 Lego TriBot
    • Table 3-25 Parallax Product Features
    • Table 3-26 Parallax Robots
    • Table 3-28 Parallax Penguin Features:
    • Table 3-29 Parallax Boe-Bot Robot's Flexibility Features
    • Table 3-33 Parallax SumoBot Robot Kit Design Specifications:
    • Table 3-36 M-TRAN (Modular Transformer) Shapes
    • Table 3-37 M-TRAN System Functions
    • Table 3-42 M-TRAN Adaptation to Environmental Changes
    • Table 3-44 SuperDroid Robots Custom Engineering and Fabrication
    • Table 3-44 (Continued) SuperDroid Robots Custom Engineering and Fabrication
    • Table 3-48 SuperDroid All Terrain Robot Customizable Functions
    • Table 3-49 SuperDroid All Terrain Robot Security Functions
    • Table 3-54 OLogic IGOR Features:
    • Table 3-56 OLogic Odyssey Features:
    • Table 3-58 Ologic Flexo Two-Wheeled Balancing Robot Features
    • Table 3-59 NeuroSky ThinkGearTM Module Characteristics
    • Table 3-60 B.E.A.M. Robotics Functions
    • Table 3-61 Solarbotics B.E.A.M. Robotics Robots
    • Table 3-64 Ugobe Pleo Features
    • Table 3-64 (Continued) Ugobe Pleo Features
    • Table 3-68 WowWee Robopanda Features
    • Table 3-70 WowWee Roboquad
    • Table 3-71 VIA Robotics Systems:
    • Table 3-72 Toyota Motor Violin Robot Performs
    • Table 3-75 Software Utilities That Come with The Bioloid kit
    • Table 3-76 Commands Provided with The Bioloid Behaviour Control Program
    • Table 3-77 Tribotix Behavior Control Program
  • List of Figures
    • Figure ES-3 ES-5 Worldwide Educational Robotic Kit Shipments Market Shares, Dollars, 2007
    • Figure ES-4 ES-7 Worldwide Robot Kits Market Forecasts, Dollars, 2008-2014
    • Figure 1-1 Robotics Starter Kit Design System
    • Figure 2-3 Worldwide Educational Robotic Kit Shipments Market Shares, Dollars, 2007
    • Figure 2-4 Worldwide Educational Robotic Kit Shipments Market Shares, Dollars, 2007
    • Figure 2-5 Worldwide Educational Robot Market Percent Penetration, Units, 2008-2014
    • Figure 2-6 Worldwide Educational Robot Market Penetration Forecasts, Units, 2008-2014
    • Figure 2-7 Worldwide Educational Robot Kits Market Forecasts, Units Shipped, 2008-2014
    • Figure 2-8 Worldwide Basic Robot Kits Market Forecasts, Units, 2008-2014
    • Figure 2-9 Worldwide Robot Kit Market Forecasts, Dollars, 2008-2014
    • Figure 2-10 Worldwide Educational Robot Market Forecasts, Dollars, 2008-2014
    • Figure 2-11 Worldwide Basic Robot Kits Market Forecasts, Dollars, 2008-2014
    • Figure 2-12 Worldwide B.E.A.M. Robot Kits Market Forecasts, Dollars, 2008-2014
    • Figure 2-13 Worldwide Educational Programming Robot Market Forecasts, Dollars, 2008-2014
    • Figure 2-14 Worldwide Educational Soldering Robot Market Forecasts, Dollars, 2008-2014
    • Figure 2-15 Worldwide Humanoid and Entertainment Robot Shipments Market Shares, Dollars, 2007
    • Figure 2-16 Worldwide Humanoid and Entertainment Robot Shipments Market Shares, Dollars, 2007
    • Figure 2-18 Toytoa Violin Playing Robot
    • Figure 2-19 Worldwide Humanoid and Entertainment Robot Shipments Market Forecasts, Dollars, 2008-2014
    • Figure 2-20 Worldwide Humanoid and Entertainment Robot Shipments Market Forecasts, Dollars, 2008-2014
    • Figure 2-21 Educational and Entertainment Robot Shipments Regional Market Segments, Dollars, 2007
    • Figure 2-22 Worldwide Humanoid and Entertainment Robot Shipments Market Forecasts, Dollars, 2008-2014
    • Figure 3-1 Vex Robotics Starter Kit Design System Case
    • Figure 3-2 Vex Robotics Design System (Starter Kit) Robotics
    • Figure 3-5 Vex Robots
    • Figure 3-7 Innovation First / Vex Spycam
    • Figure 3-8 Innovation First / Vex Claw Horizontal or Vertical Mount
    • Figure 3-9 Innovation First / Vex Arm Servo Motors
    • Figure 3-10 Innovation First / Vex All Terrain Tires -
    • Figure 3-11 Innovation First / Vex 6-Channel Hobby-Class Transmitter -
    • Figure 3-12 VexLabs - Vex Robotics: 4 Motor, Dual Tank Tread Drive-Train
    • Figure 3-13 VexLabs - Vex Robotics Parts & Accessories 4 Motor, Dual Tank Tread Drive-Train
    • Figure 3-19 Lego Mindstorms NXT system
    • Figure 3-20 Lego Robot Built-in Rotation Sensor's Ability to Measure Distance:
    • Figure 3-22 Lego Alpha Rex
    • Figure 3-23 Lego RoboArm T-56
    • Figure 3-27 Parallax Penguin Robot Kit
    • Figure 3-30 Parallax Boe-Bot
    • Figure 3-31 Parallax SumoBot Robot Kit
    • Figure 3-32 Parallax Robot Kit
    • Figure 3-34 Fischertechnik Bionic Robots Building Set
    • Figure 3-35 M-TRAN (Modular Transformer)
    • Figure 3-38 M-TRAN Two Module Connection Varieties
    • Figure 3-39 M-TRAN Lattice Structure and Robotic Motions
    • Figure 3-40 M-TRAN. Shape shifting (Self-Reconfiguration)
    • Figure 3-41 M-TRAN Locomotion
    • Figure 3-43 Mondo-tronics OctoBot Survivor Robot
    • Figure 3-45 SuperDroid Police Robot
    • Figure 3-46 SuperDroid All Terrain
    • Figure 3-47 SuperDroid Robots All Terrain Vehicle
    • Figure 3-50 SuperDroid Police Robot
    • Figure 3-51 OLogic Designs Robotic Systems Controller
    • Figure 3-52 OLogic Designs Robotic Systems Wheel Unit
    • Figure 3-53 OLogic Designs Robotic Systems Wheel and Disk
    • Figure 3-55 OLogic Odyssey
    • Figure 3-57 Ologic Flexo Two-Wheeled Balancing Robot
    • Figure 3-62 Segway Personal Transporter-
    • Figure 3-63 Ugobe Pleo
    • Figure 3-65 WowWee Robot Features
    • Figure 3-66 WowWee RobosapienV2
    • Figure 3-67 WowWee Robopanda
    • Figure 3-69 WowWee Robopanda Activity Features
    • Figure 3-73 Hitachi EMIEW "Excellent Mobility and Interactive Existence as Workmate".
    • Figure 3-74 19 DOF Humanoid from Bioloid Kit
    • Figure 3-78 Hitec/Robonova-1 Sensors
    • Figure 3-79 Hitec/Robonova-1 Robot
    • Figure 4-1 Hitachi Modular Robot Configuration
    • Figure 5-1 iRobot Growth Positioning
    • Figure 5-2 iRobot Roomba Positioning
    • Figure 5-3 iRobot Roomba Strategy
    • Figure 5-4 Parallax Mission
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