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市場調查報告書

全球蛇型機器人市場的市佔率、策略、以及預測:2011∼2017年

Snake Robots Market Shares, Strategies, and Forecasts, Worldwide, 2011 to 2017

出版商 WinterGreen Research, Inc.
出版日期 2011年03月 商品編碼 172402
內容資訊 英文 216 PAGES 112 TABLES AND FIGURES
價格
US $ 3600 PDF by E-mail (Single User License)
US $ 3600 PDF by E-mail (Single User License) & Hard Copy
US $ 7200 PDF by E-mail (Site License)


全球蛇型機器人市場的市佔率、策略、以及預測:2011∼2017年 是由出版商WinterGreen Research, Inc.在2011年03月所出版的。 這份英文市場調查報告書包含216 PAGES 112 TABLES AND FIGURES 價格從美金3600起跳。

簡介

蛇型機器人是指使用於產業的機器人手臂,透過連結構造,使其可以自由動作。蛇型機器人應用在產業用手臂機器人和低侵入性外科裝置、以及軍事等各種領域。蛇型機器人正急速擴大當中。預期在2017年前將從現在的4,600萬美元擴大至85億美元。

本報告,分析全球的蛇型機器人市場,彙整市場概要與產品概要、企業以及大學研究機關的各種技術發展動向與資料,由下列摘要形式闡述。

報告摘要

第1章 蛇型機器人市場的概要與市場動向

  • 蛇型機器人
  • 最新的蛇型機器人
  • 在粗糙表面如蛇一般前進的蛇型機器人
  • 蛇型機器人的動作
  • 蛇行的機器人
  • 民眾認知到機器人學的"到來"
  • 次世代的蛇型機器人學

第2章 蛇型機器人的市佔率與市場預測

  • 市場促進因子
  • 市佔率
  • 各種應用領域
  • 市場預測
  • 蛇型機器人的價格
  • 地區別市場分析

第3章 蛇型機器人產品概要

  • 飛機組裝用OC Robotics製蛇型手臂
  • 密西根大學:全地形機器人學
  • 機器人學應用技術
  • NASA的機器蛇 其他

第4章 蛇型機器人技術

第5章 企業檔案資料

  • Applied Robotics Technologies, LLC
  • Cardiorobotics
  • OC Robotics
  • University of Michigan Mobile Robotics Lab Omnitread
  • Tokyo Institute of Technology Research Laboratories
  • Sintef 5-19
  • 大學一覽表

圖表

目錄

Abstract

LEXINGTON, Massachusetts (March 2, 2011) - WinterGreen Research announces that it has a new study on Snake Robots: Market Shares and Forecasts, Worldwide, 2011-2017. The study has 216 pages and 112 tables and figures.

A confined space needs snake shapes to achieve access. Confined spaces exist by design (aircraft engine), by failure (collapsed building) or naturally (human body). Snake-arm robots are self-contained portable devices and extensions to existing systems. These products build on software and hardware technology.

Confined spaces exist. A confined space exists because of a lack of ability to take apart or dismantle components. Confined spaces exist in nuclear reactors, aircraft, the human body, industrial processing plant, underwater environments, shipbuilding, space. Buildings, roads, pipelines and other man-made spaces all have confined spaces. The world is full of awkward confined spaces.

Snake robots are robotic arms used in industrial applications, but the arms are more versatile and move independently because of the jointed structure. Snake robots have a variety of applications. They are implemented as industrial arm robots, surgical minimally invasive devices, and for the military provide unique reconnaissance opportunities. The snake robots are the ultimate in an all-terrain units, they can go anywhere, even under doors and over mountains, in a way that no wheeled vehicle can maneuver.

According to Susan Eustis, lead author of the study, “Snake robots have a variety of applications. They are implemented as industrial arm robots, surgical minimally invasive devices, and for the military provide unique reconnaissance opportunities.” Snake robot markets are set to grow at a rapid pace. Markets at $46 million are anticipated to reach $8.5 billion by 2017. The reasons for strong growth are that the technology is proven, there are 100 successful reference accounts in a variety of industries, and the technology is useful.

Research Methodology

WinterGreen Research authors use a structured, consistent, and detailed research approach. The methodology supports an analytical approach to market research. In depth comparisons are made of many aspects of the market. Data relating to Industry segments is developed to permit presentation of forecasts and market share positioned to have substantive value.

Research has been automated using automation of interactive surveys that implement delta trend analysis and instant messaging in combination with e-mail. Automation is made possible because of a proprietary engine that implements multilayered cell based analysis. Modular systems support dynamic computing that use a graphical configuration engine to reach more people in a research modality.

Full spectrum research and information services, including market reports, customized research, and customer interviewing are available, reports and research are positioned to provide strategic value to industry participants, strategic planners, and product managers.

New systems combine sales tools and independent industry analysis, seeking to leverage the expertise of the sales force and combine it with the skepticism of the analysts to provide accurate return on investment analysis.

Table of Contents

1. Snake Robots Market Description and Market Dynamics

  • 1.1 Snake Robots Are Different
  • 1.2 Modsnake Robots
    • 1.2.1 Modsnake Robots Support Human Workers
  • 1.3 Snakelike Robots Slither over Rough Landscape
  • 1.4 Snake Robots Locomote
  • 1.5 Serpentine Robot Applications
    • 1.5.1 Seizing the Robotics Opportunity
    • 1.5.2 Modular Self-Reconfiguring Robotic Systems
  • 1.6 Public Aware That Robotics Have “Arrived”
  • 1.7 Next Generation Snake Robotics

2. Snake Robots Market Shares and Market Forecasts

  • 2.1 Snake Robot Market Driving Forces
  • 2.2 Snake Robots Market Shares
  • 2.3 Snake Robot Variety of Applications
    • 2.3.1 OC Robotics Snake-Arm for Aircraft Assembly
    • 2.3.2 Minimally Invasive Equipment Surgical Robots
    • 2.3.3 Cardioarm Is A Jointed Robot
    • 2.3.4 SINTEF Robot Snakes Climb Pipes
    • 2.3.5 University of Southampton.
    • 2.3.6 CCTV Inspection
  • 2.4 Snake Robot Market Forecasts
    • 2.4.1 Cardiac Surgery Snake Robots Market Forecasts
    • 2.4.2 Cardiorobotics Initial Goal Is To Help Avoid Open-Heart Surgery
    • 2.4.3 Minimally Invasive Surgery Positioning: Cardiorobotics Requires One Incision At The Bottom Of The Ribs Whereas The Da Vinci Endoscopic Surgical System Could Require Up To Six Incision Points
    • 2.4.4 Cardiorobotics Positioning
  • 2.5 Snake Robot Prices
    • 2.5.1 Inaccessible Spaces - OC Robotics
    • 2.5.2 Cardiac Surgery - Cardioarm
  • 2.6 Snake Robots Regional Market Analysis

3. Snake Robot Product Description

  • 3.1 OC Robotics Snake-Arm for Aircraft Assembly
    • 3.1.1 OC Robotics Extender Snake Range Of - Motion Robots Reach The Unreachable
    • 3.1.2 OC Robotics Snake-Arm -
  • 3.2 University of Michigan All-Terrain Robotics:
    • 3.2.1 University of Michigan Mobile Robotics Lab Omnitread
    • 3.2.2 OmniTread Robot Snakes
  • 3.3 Applied Robotics Technologies, LLC
    • 3.3.1 Applied Robotics Technologies Key Benefits
    • 3.3.2 Applied Robotics Technologies Pricing
  • 3.4 NASA Robotic Snakes
  • 3.5 Canadian Robotics Ltd.
  • 3.6 Japan Guru World-Class Snake Robotics
  • 3.7 NTNU and SINTEF in Norway World-Class Snake Robotics
    • 3.7.1 Sintef Climbing Robot
    • 3.7.2 Sintef Robot Learning
    • 3.7.3 Anna Konda Firefighting Snakebot
    • 3.7.4 SINTEF / NTNU Aiko - Snake Robot With Electric Motors
    • 3.7.5 Department of Engineering Cybernetics at NTNU Pneumosnake - Snake Robot With Pneumatic Bellows
  • 3.8 Hibot ACM-R5 Amphibious Robosnake
    • 3.8.1 HiBot Japanese Snake Robot
  • 3.9 Medical Devices for Minimally Invasive Surgery
    • 3.9.1 Cardiorobotics Snakelike Robots for Heart Surgery
    • 3.9.2 Cardiorobotics Cardiac Surgery Snake Robot
    • 3.9.3 Minimally Invasive Surgery Positioning: Cardiorobotics Requires One Incision At The Bottom Of The Ribs Whereas The Da Vinci Surgical System Could Require Up To Six Incision Points
  • 3.10 OC Robotics
    • 3.10.1 OC Energy & Environment Robotics
  • 3.11 Maintaining High Voltage Transmission Lines Using Robotics
    • 3.11.1 Hydro-Quebec Research Institute (IREQ)LineScout Tele-Operated Obstacle Crossing System
    • 3.11.2 HiBot Expliner
    • 3.11.3 America' s Electric Power Research Institute (EPRI) Autonomous Version

4. Snake Robot Technology

  • 4.1 Actuated Joints In A Tight Volume
  • 4.2 OC Robotics
    • 4.2.1 OC Robotics Develops Snake-Arm Robots For Confined Spaces
    • 4.2.2 OC Robotics Snake Arm Actuator Pack
    • 4.2.3 OC Robotics Snake Arm
    • 4.2.4 OC Robotics Tool
    • 4.2.5 OC Robotics Confined Space Piece Manipulation
    • 4.2.6 OC Robotics Confined Space Reach
  • 4.3 OC Robotics Snake-Arm Robot Basics
    • 4.3.1 OC Robotics Snake Robot Curvature -
    • 4.3.2 OC Robotics Protective Skins
    • 4.3.3 OC Robotics Manages Hazardous Environments -
    • 4.3.4 OC Robotics Software - SoftSnake
    • 4.3.5 OC Robotics PipeSnake
    • 4.3.6 OC Robotics Snake-Arm Robots Aircraft Assembly
  • 4.4 CISST ERC Snake Robot
  • 4.5 Bio-Robotics Lab
  • 4.6 Carnegie Mellon Robotics Institute
  • 4.7 Sintef
    • 4.7.1 Sintef Aiko Snake Robot With Electric Motors
  • 4.8 Hirose Fukushima Lab ACM Land and Amphibious Robot Snake
    • 4.8.1 Hirose Fukushima Lab ACM-R5 Control System
    • 4.8.2 Hirose Fukushima Lab ACM Slim Slime Robot
    • 4.8.3 Hirose Fukushima Lab Pneumatically-Driven Slime Robot
    • 4.8.4 Hirose-Fukushima Lab at Tokyo Institute of Technology Amphibious Snake Robot - ACM-R5
  • 4.9 DrGavin S7 Snake Robot Rectilinear Locomotion
    • 4.9.1 Nottingham Trent University
  • 4.10 Israeli Army Deploys Robot Snakes
    • 4.10.1 Israeli Military Develops Robot Snake Bomb Hirose Fukushima Lab
  • 4.11 Merlin Robotics, Nottingham Trent University Robot Snake Dance
  • 4.12 Snake Bot at Carnegie Mellon
    • 4.12.1 Carnegie Mellon Conforming Loop
  • 4.13 CardioArm Biomedicine Snakelike Robots for Heart Surgery
    • 4.13.1 Snake Robot Helps Wounded Soldiers
  • 4.14 Hughes Aircraft R7 Early Robotic Snake
  • 4.15 British ' Serpentine Spy'
  • 4.16 IDF Spy Robot Snake
  • 4.17 SINTEF Robot Snakes Climb Pipes
    • 4.17.1 SINTEF Anna Konda
  • 4.18 Climbing Snakes Biorobotics Lab, Carnegie Mellon University
  • 4.19 NASA Snake-bot VS InnoSTAR
  • 4.20 Applied Robotics Technologies, LLC

5. Snake Robots Company Profiles

  • 5.1 Applied Robotics Technologies, LLC
  • 5.2 Cardiorobotics
    • 5.2.1 Cardiorobotics Several Generations Of Snake Robot Platforms
    • 5.2.2 Cardiorobotics Advances Clinical Development of Snake Robot for Surgery
    • 5.2.3 Cardiorobotics Positioning
    • 5.2.4 Cardiac Surgery Gold Standard
    • 5.2.5 Cardiorobotics Snake Robot Technologies For Use In A Wide Range Of Surgical And Interventional Applications
    • 5.2.6 Cardiorobotics Technology & Research Center
  • 5.3 OC Robotics
    • 5.3.1 OC Roboics Robots Extend The Reach Of Manual Process
    • 5.3.2 OC Robotics A CANDU Snake-Arm Robot
    • 5.3.3 OC Robotics Snake-Arm Robots
  • 5.4 University of Michigan Mobile Robotics Lab Omnitread
  • 5.5 Tokyo Institute of Technology Research Laboratories
    • 5.5.1 Tokyo Institute of Technology / Hirose Fukushima Lab ACM
    • 5.5.2 Hirose Fukushima Lab ACM Hibot
  • 5.6 Sintef
  • 5.7 Selected List of University and Research Snake Robots

List of Tables and Figures

Snake Robots Executive Summary

  • Table ES-1: Snake Robot Market Driving Forces
  • Table ES-2: Confined Spaces
  • Figure ES-3: Snake Robots Market Shares, Dollars, Worldwide, 2010
  • Figure ES-4: Snake Robot Market Forecasts

Snake Robots Market Description and Market Dynamics

  • Figure 1-1: Mod Snake Robots Snake Robots Are Different.
  • Table 1-2: Serpentine Robot Applications

Snake Robots Market Shares and Market Forecasts

  • Table 2-1: Snake Robot Market Driving Forces
  • Table 2-2: Confined Spaces
  • Figure 2-3: Snake Robots Market Shares, Dollars, Worldwide, 2010
  • Figure 2-4: Snake Robots Market Shares, Dollars, Worldwide, 2010
  • Figure 2-5: Robotic Snake Permits Surgeon to Enter Heart Via Mouth
  • Figure 2-6: Snake Robot Market Forecasts
  • Table 2-7: Snake Robots Market Industry Segments, Dollars, Worldwide, 2011-2017
  • Figure 2-8: Snake Robot Market Industry Segments, Units, Worldwide, 2011-2017
  • Figure 2-9: Cardiac Surgery Snake Robots Market Forecasts, Dollars, Worldwide, 2011-2017
  • Figure 2-10: Reaching The Un Reachable Snake Robot Market Forecasts Dollars, Worldwide, 2011-2017
  • Figure 2-11: Snake Robots Regional Market Segments, Dollars, 2010
  • Table 2-12: Snake Robots Regional Market Segments, 2010

Snake Robots Product Description

  • Figure 3-1: OC Robotics Extender Snake Range Of - Motion
  • Figure 3-2: OC Robotics Extender Models and Payloads
  • Figure 3-2 (Continued): OC Robotics Extender Models and Payloads
  • Figure 3-3: OC Robotics Arms in Confined Spaces
  • Table 3-4: University of Michigan Mobile Robotics Lab Omnitread Robotic Motion Capabilities
  • Figure 3-5: Omnitread robot snakes
  • Figure 3-6: FLEXnav Proprioceptive Position Estimation (PPE) System
  • Figure 3-7: Applied Robotics Technologies Typical Experimental Results:Position Errors After 120-160 M Travel On Moderately Rugged Terrain
  • Figure 3-8: Sintef' s Anna Konda Snake Robot
  • Figure 3-9: Sintef PiKo Robot For Vertical Movement
  • Table 3-10: Sintef' s Anna Konda Firefighting Snakebot
  • Table 3-11: SINTEF Firefighting Snakebot Components
  • Figure 3-12: Norwegian Company Sintef Anna Konda
  • Table 3-13: SINTEF Firefighting Snakebot Target Markets
  • Table 3-14: SINTEF / NTNU Aiko
  • Table 3-15: SINTEF / NTNU Aiko Technical data
  • Figure 3-16: Department of Engineering Cybernetics at NTNU Pneumosnake - Snake Robot With Pneumatic Bellows
  • Table 3-17: Department of Engineering Cybernetics at NTNU Technical Data
  • Table 3-18: NTNU / SINTEF Next Generation Robotics for Norwegian Industry
  • Figure 3-19: Hibot ACM-R5 Amphibious Robosnake
  • Figure 3-20: Hibot ACM-R5 Amphibious Robosnake
  • Table 3-21: Cardiorobotics Medical Field Target Markets
  • Figure 3-22: Federal Reserve chairman Ben Bernanke Looking At Snaking Robot Camera Made by Cardiorobotics

Snake RobotsTechnology

  • Figure 4-1: OC Robotics Snake-Arm Robots Remote Car Inspection
  • Figure 4-2: Robotics Develops Snake-Arm Robots For Confined Spaces
  • Figure 4-3: OC Robotics Actuator Pack
  • Figure 4-4: OC Robotics Snake Arm
  • Figure 4-5: OC Robotics Snake Robot Tool
  • Table 4-6: OC Robotics Able To Snake Into Cluttered Environments
  • Figure 4-7: OC Robotics Extend Robot Arms With Elbows
  • Figure 4-8: OC Robotics Snake-Arm Robot Basics
  • Figure 4-9: OC Robotics Snake Curvatures
  • Figure 4-10: OC Robotics Protective Skins
  • Figure 4-11: OC Robotics Arm Materials Allow For Radiation, Heat, Vacuum, Magnetic Fields, And Operations In Explosive Atmospheres
  • Figure 4-12: OC Robotics Snake-Arm Robots Extend Reach Of The Human
  • Figure 4-13: OC Robotics PipeSnake
  • Figure 4-14: OC Robotics Snake Robot Angle of Curvature
  • Figure 4-15: OC Robotics Snake-Arm Robots Aircraft
  • Figure 4-16: OC Robotics Snake-Arm Robot Extender
  • Figure 4-17: OC Robotics Snake-Arm Robot Made Up Of A Large Number Of Segments
  • Figure 4-18: CISST ERC Snake Robot
  • Figure 4-19: Bio-Robotics Lab Snake Robots that Climb
  • Figure 4-20: Bio-Robotics Lab Snake Robot Climbing
  • Figure 4-21: Carnegie Mellon Robotics Institute Door Opening Robot
  • Figure 4-22: Sintef Snake Robot Designed To Be Used To Put Out Fires
  • Figure 4-23: Sintef Anna Konda Robot Equipped With Nozzles
  • Figure 4-24: Sintef Aiko Snake Robot With Electric Motors
  • Figure 2-25: Sintef' s Snake Robot
  • Figure 4-26: Hirose Fukushima Lab ACM-R5 - Amphibious Robot Snake
  • Figure 4-27: Hirose Fukushima Lab ACM Slim Slime Robot
  • Table 4-28: Slim Slime ACM Robot Features
  • Table 4-29: Hirose Fukushima Lab ACM Slim Slime Robot Applications
  • Figure 4-30: Hirose Fukushima Lab ACM Serpentine Propulsion
  • Figure 4-31: Hirose Fukushima Lab ACM xSlim Slime Robot With a Child
  • Figure 4-32: Hirose Fukushima Lab ACM Slim Slime Robot Module Construction
  • Figure 4-33: Tokyo Institute of Technology / Hirose Fukushima Lab ACM Snake Like Trackers
  • Figure 4-34: Tokyo Institute of Technology / Hirose Fukushima Lab ACM Snake Like Creep Motion Of Snake, Pedal Waves Of Snail And Limpet, Lateral Rolling, And Pivot Turn
  • Figure 4-35: Hirose Fukushima Lab ACM Robot Snake Modular Construction
  • Figure 4-36: Snake Robot Hirose-Fukushima Lab at Tokyo Institute of Technology
  • Figure 4-37: Hirose-Fukushima Lab at Tokyo Institute of Technology ACM-R5
  • Figure 4-38: Robot Hirose-Fukushima Lab at Tokyo Institute of Technology Amphibious Snake Robot - ACM-R5
  • Table 4-39: DrGavin S7 Rectilinear Locomotion Snake Robot
  • Figure 4-40: DrGavin S7 Sensor Suite That Includes Detectors
  • Figure 4-41: DrGavin S5 Robot Snake Control System Electronics Functional Diagram
  • Figure 4-42: DrGavin Robot Snake
  • Figure 4-43: Merlin Robotics / Nottingham Trent University Air Robot Snake
  • Figure 4-44: Israeli Army Deploys Robot Snakes
  • Figure 4-45: Israeli Army Bomb Hirose Fukushima Lab Robot Snakes
  • Figure 4-46: Israeli Snake Robot
  • Figure 4-47: Merlin Robotics, Nottingham Trent University Robot Snake Dance
  • Figure 4-48: Snake Bot at the Carnegie Mellon
  • Figure 4-49: Carnegie Mellon Modular Bot
  • Figure 4-50: Carnegie Mellon Modular Bot Tricycle Riding
  • Figure 4-51: Carnegie Mellon Obstacle Climbing
  • Figure 4-52: Carnegie Mellon Fence Climbing
  • Figure 4-53: Carnegie Mellon Stair Climbing
  • Figure 4-54: CardioArm Biomedicine Snakelike Robots for Heart Surgery
  • Figure 4-55: Snake Robot Helps Wounded Soldiers
  • Figure 4-56: Hughes Aircraft R7 Early Robotic Snake
  • Figure 4-57: British Military Reconnaissance Robot Can Be Dropped From A Helicopter
  • Figure 4-58: University of Southampton Anaconda Rubber Snake Generates Power From Waves
  • Figure 4-59: SINTEF Robot Snakes Climb Pipes
  • Figure 4-60: SINTEF Anna Konda The Fire Fighting Snake Robot
  • Figure 4-61: SINTEF Aiko Snake Robot With Electric Motors
  • Figure 4-62: Sintef Pneumosnake Snake Robot With Pneumatic Bellows
  • Figure 4-63: Climbing Snakes Biorobotics Lab, Carnegie Mellon University
  • Figure 4-64: InnoSTAR™ Robotic Kit
  • Figure 4-65: Applied Robotics Technologies, LLC Fiber Optic Gyros Function Of Rate Of Rotation And Temperature

Snake RobotsCompany Profiles

  • Table 5-1: Cardiac Surgery Improvements
  • Table 5-2: Cardiorobotics Snake Robot Technologies For Use In A Wide Range Of Surgical And Interventional Applications
  • Table 5-3: Cardiorobotics Snake Robot Technologies Specialist Areas Served
  • Figure 5-4: OC Robotics Conducts Inspections Within CANDU Reactors
  • Figure 5-5: OC Robotics Snake-Arm Robot Technology
  • Table 5-6: University of Michigan Mobile Robotics Lab Areas Of Interest
  • Figure 5-7: Tokyo Institute of Technology Electrochemistry Spextroscopic Techniques
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