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Snake Robots Market Shares, Strategies, and Forecasts, Worldwide, 2013 to 2019

Winter Green Research
Published Date » 2013-08-08
No. Of Pages » 272

WinterGreen Research announces that it has published a new study Snake Robots: Market Shares, Strategy, and Forecasts, Worldwide, 2013 to 2019. The 2013 study has 272 pages, 142 tables and figures. Worldwide snake robot markets are poised to achieve significant growth as the next generation units provide an access and movement mechanism that is unique and useful.

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, ship-building, space. Buildings, roads, pipelines and other man-made spaces all have confined spaces. The world is full of awkward confined spaces.

Snake-arm robots are self-contained portable devices and extensions to existing systems. These products build on software and hardware technology.

Snake robots used for small space access, inside airplane wing access, first responder tasks, and surgery: They are used for going where nothing else can go. Snake robots provide systems that significantly improve traditional open surgery by consolidating the number of minimally invasive access ports to one and eliminating open surgery.

The automated process revolution in surgery, first responder help, and communications is being implemented via robots. Robots are automating systems, providing significant improvement in the accuracy of surgery and penetration of spaces that were previously impenetrable. .

According to Susan Eustis, lead author of the study, "A confined space needs snake shapes to achieve access. Confined spaces exist by design (aircraft engine), by failure (collapsed building) or naturally (human body). Existing open surgery can be replaced in large part by robotic and minimally invasive surgery (MIS). Minimally invasive surgery MIS, drug therapies, radiation treatment, and emerging interventional surgical approaches complement robotic surgery techniques as a replacement for or complement to open surgery. The snake robots reduce the number of ports needed to gain access and repair the heart."

During a robot assisted surgical procedure, the patient-side cart is positioned next to the operating table with the electromechanical arms arranged to provide access to the initial ports selected by the surgeon. Metal tubes attached to the arms are inserted through the ports, and the cutting and visualization instruments are introduced through the tubes into the patient's body. The surgeon performs the procedure while sitting at a console, manipulating the instrument controls and viewing the operation through a vision system. When a surgeon needs to change an instrument the instrument is withdrawn from the surgical field using the controls at the console. This is done many times during an operation.

The companies that get an early foothold in the market have significant strategic advantage. The robotic snake leverages a new technique for robotic movement that benefits users by providing efficient access to difficult spaces. This factor is driving demand for snake robot systems. Since robotics provide a precise, repeatable and controlled ability to perform procedures in tight spaces, they are increasingly in demand.

The aging US population has supported demand for robotic surgical instruments, since the occurrence of health issues that require medical devices is higher in the elderly population. Buoyed by strong demand and sales, industry profit margins have increased. Snake robot device markets at $33.6 million in 2012 are anticipated to reach $2.3 billion by 2019 as next devices, systems, and instruments are introduced to manage access to difficult spaces through small ports when large openings are unavailable or inconvenient.

Companies Profiled

Market Leaders

  • OC Robotics
  • HiBot
  • Medrobotics

Hirose Fukushima Lab ACM

Sintef

Market Participants

  • Applied Robotics Technologies, LLC
  • University of Michigan Mobile Robotics Lab Omnitread
  • Tokyo Institute of Technology Research Laboratories
  • Selected List of University and Research Snake Robots

Check Out These Key Topics

  • Robot Snakes
  • Modsnake Robots
  • Snake Robots
  • Snake Robots Locomote
  • Next Generation Snake Robotics
  • Snake-Arm
  • Jointed Robot
  • Robot Snakes Climb Pipes
  • Robots for Heart Surgery
  • Minimally Invasive Surgery
  • Endoscopic Surgical System
  • Inaccessible Spaces
  • Snake-Arm
  • Robotic Snake-Arm
  • Climbing Robot
  • Climbing Snake Robot
  • Firefighting Snakebot
  • Confined Spaces
  • Snake Shapes
  • Terrain Robot
  • Industrial Arm Robots
  • Surgical Minimally Invasive Devices
  • Snake Arm Actuator Pack
  • Robotics Confined Space Piece Manipulation
  • Robotics PipeSnake
TABLE OF CONTENT

Snake Robots Market Shares and Market Forecasts
Snake Robot Market Driving Forces
Snake Robots Market Shares
Snake Robot Market Forecasts

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

2. Snake Robots Market Shares and Market Forecasts
2.1Snake Robot Market Driving Forces2-
2.2Snake Robots Market Shares
2.3Snake Robot Variety of Applications
2.3.1HiBot / Hirose Fukushima Lab ACM
2.3.2OC Robotics Snake-Arm for Aircraft Assembly
2.3.3Minimally Invasive Equipment Surgical Robots
2.3.4Medrobotics Cardioarm Is A Jointed Robot
2.3.5SINTEF Robot Snakes Climb Pipes
2.3.6University of Southampton.
2.3.7CCTV Inspection
2.4Snake Robot Market Forecasts
2.4.1Snake Robots Market Industry Segments
2.4.2Cardiac Surgery Snake Robots Market Forecasts
2.4.3Medrobotics Initial Goal Is To Help Avoid Open-Heart Surgery
2.4.4Minimally Invasive Surgery Positioning: Medrobotics Requires One Incision At The Bottom Of The Ribs Whereas The Da Vinci Endoscopic Surgical System Could Require Up To Six Incision Points
2.4.5Medrobotics Positioning
2.4.6Cardiac Surgery Snake Robots Market Forecasts
2.4.7Reaching The Un Reachable Snake Robot Market Forecasts
2.5Snake Robot Prices
2.5.1Inaccessible Spaces - OC Robotics
2.5.2Cardiac Surgery - Medrobotics
2.6Snake Robots Regional Market Analysis
 
3. Snake Robot Product Description
3.1OC Robotics
3.1.1OC Robotics The Explorer Range
3.1.2OC Robotics Snake-Arm Control
3.1.3OC Robotics Snake-Arm Simulator
3.1.4OC Robotics Snake-Arm for Aircraft Assembly
3.1.5OC Robotics Extender Snake Range Of –Motion Robots Reach The Unreachable
3.1.6OC Robotics Snake-Arm –
3.1.7OC Robotics
3.1.8OC Energy & Environment Robotics
3.1Medrobotics Techonology
3.1.1Medrobotics Medical Devices for Minimally Invasive Surgery
3.1.2Medrobotics Flexible Robot Platform
3.1.3Medrobotics Snakelike Robots for Heart Surgery
3.1.4Medrobotics Cardiac Surgery Snake Robot
3.1.5Minimally Invasive Surgery Positioning:
3.2University of Michigan All-Terrain Robotics:
3.2.1University of Michigan Mobile Robotics Lab Omnitread
3.2.2OmniTread Robot Snakes
3.3Applied Robotics Technologies, LLC
3.3.1The FLEXnav Proprioceptive Position Estimation (PPE) System
3.3.2Applied Robotics Technologies Pricing
3.3.3Heuristic Drift Reduction for Gyros in Vehicle Tracking Applications
3.3.4Applied Robotics Technologies Key Benefits
3.3.5Applied Robotics Technologies Pricing
3.4NASA Robotic Snakes
3.5Canadian Robotics Ltd.
3.6Japan Guru World-Class Snake Robotics
3.7NTNU and SINTEF in Norway World-Class Snake Robotics
3.7.1Sintef Anna Konda
3.7.2Anna Konda Firefighting Snakebot
3.7.3Sintef Aiko
3.7.4Sintef Pneumosnake
3.7.5Sintef PiKo
3.7.6Sintef Climbing Robot
3.7.7Sintef Robot Learning
3.7.8Department of Engineering Cybernetics at NTNU Pneumosnake – Snake Robot With Pneumatic Bellows
3.8Hibot Pipetron
3.8.1HiBot Expliner
3.8.2HiBot ACM-R4H
3.8.3HiBot ACM-R5
3.8.4Hibot ACM-R5 Amphibious Robosnake
3.8.5HiBot Japanese Snake Robot
3.8.6Maintaining High Voltage Transmission Lines Using Robotics
3.8.7Hydro-Quebec Research Institute (IREQ)LineScout Tele-operated obstacle crossing system
3.8.8HiBot Expliner
3.8.9America’s Electric Power Research Institute (EPRI) Autonomous Version

4. Snake Robot Technology
4.1Actuated Joints In A Tight Volume
4.2OC Robotics
4.2.1OC Robotics Develops Snake-Arm Robots For Confined Spaces
4.2.2OC Robotics Snake Arm Actuator Pack
4.2.3OC Robotics Snake Arm
4.2.4OC Robotics Tool
4.2.5OC Robotics Confined Space Piece Manipulation
4.2.6OC Robotics Confined Space Reach
4.3OC Robotics Snake-Arm Robot Basics
4.3.1OC Robotics Snake Robot Curvature –
4.3.2OC Robotics Protective Skins
4.3.3OC Robotics Manages Hazardous Environments –
4.3.4OC Robotics Software - SoftSnake
4.3.5OC Robotics PipeSnake
4.3.6OC Robotics Snake-Arm Robots Aircraft Assembly
4.4CISST ERC Snake Robot
4.5Bio-Robotics Lab
4.6Carnegie Mellon Robotics Institute
4.7Sintef
4.7.1Sintef Aiko Snake Robot With Electric Motors
4.8Hirose Fukushima Lab ACM Land and Amphibious Robot Snake
4.8.1Hirose Fukushima Lab ACM-R5 Control System
4.8.2Hirose Fukushima Lab ACM Slim Slime Robot
4.8.3Hirose Fukushima Lab pneumatically-driven Slime Robot
4.8.4Hirose-Fukushima Lab at Tokyo Institute of Technology Amphibious Snake Robot - ACM-R5
4.9DrGavin S7 Snake Robot Rectilinear Locomotion
4.9.1Nottingham 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
5.1Applied Robotics Technologies, LLC
5.2HiBot
5.3Medrobotics
5.3.1Medrobotics $10 Million Financing From Hercules
5.1.1Medrobotics Several Generations Of Snake Robot Platforms
5.1.2Medrobotics Advances Clinical Development of Snake Robot for Surgery
5.1.3Medrobotics Positioning
5.1.4Medrobotics Cardiac Surgery Gold Standard
5.1.5Medrobotics Snake Robot Technologies Used In Range Of Surgical And Interventional Applications
5.1.6Medrobotics Technology & Research Center
5.4OC Robotics
5.4.1OC Robotics Technology & Innovation
5.4.2OC Robotics Robots Extend Reach Of Manual Process
5.4.3OC Robotics A CANDU Snake-Arm Robot
5.4.4OC Robotics Snake-Arm Robots
5.5University of Michigan Mobile Robotics Lab Omnitread
5.6Tokyo Institute of Technology Research Laboratories
5.6.1Tokyo Institute of Technology / Hirose Fukushima Lab ACM
5.6.2Hirose Fukushima Lab ACM Hibot
5.7Sintef
5.8Selected List of University and Research Snake Robots

List of Tables


Table ES-1 Snake Robot Market Driving Forces
Table ES-2 Confined Spaces That Need Snake Shapes To Achieve Access
Figure ES-3 Control of the Snake-Arm Robot
Figure ES-4 Nose Following Snake Robots
Figure ES-5 BOC Robotics Snake-Arm Simulator
Table ES-6 Confined Spaces
Figure ES-7 Snake Robots Market Shares, Dollars, Worldwide, 2012
Figure ES-8 Snake Robot Market Forecasts, Dollars, Worldwide, 2013-2019
Figure 1-1 Mod Snake Robots Snake robots are different.
Table 1-2 Serpentine Robot Applications
Table 2-1 Snake Robot Market Driving Forces
Table 2-2 Confined Spaces That Need Snake Shapes To Achieve Access
Figure 2-3 Control of the Snake-Arm Robot
Figure 2-4 Nose Following Snake Robots
Figure 2-5 OC Robotics Snake-Arm Simulator
Table 2-6 Confined Spaces
Figure 2-7 Snake Robots Market Shares, Dollars, Worldwide, 2012
Figure 2-8 Snake Robots Market Shares, Dollars, Worldwide, 2012
Figure 2-9 HiBot Inspection of High-Voltage Power Lines
Figure 2-10 HiBot Balances on High-Voltage Power Lines
Figure 2-11 Robotic Snake Permits Surgeon to Enter Heart Via Mouth
Figure 2-12 Snake Robot Market Forecasts, Dollars, Worldwide, 2013-2019
Table 2-13 Snake Robot Markets, Dollars, Worldwide, 2013-2019
Table 2-14 Snake Robots Market Industry Segments, Reaching Unreachable, Surgery, Surveillance, Dollars, Worldwide,2013-2019
Figure 2-15 Snake Robot Market Forecasts, Units, Worldwide, 2013-2019
Table 2-16 Snake Robots Market Industry Segments, Reaching Unreachable, Surgery, Military, Surveillance, Units, Worldwide, 2013-2019
Figure 2-17 Cardiac Surgery Snake Robots Market Forecasts, Dollars, Worldwide, 2013-2019
Figure 2-18 Reaching The Un Reachable Snake Robot Market Forecasts Dollars, Worldwide, 2013-2019
Figure 2-19 Snake Robots Regional Market Segments, Dollars,  2012
Table 2-20 Snake Robots Regional Market Segments, 2012
Figure 3-1 OC Robotics Explorer Range
Figure 3-2 OC Robotics Explorer Range User Interface
Figure 3-3 OC Robotics Explorer Range Actuator Pack
Figure 3-4 OC Robotics Explorer Range Snake Arm
Figure 3-5 OC Robotics Explorer Arm Extensions
Figure 3-6 OC Robotics Extender Snake Range Of –Motion
Figure 3-7 OC Robotics Extender Models and Payloads
Figure 3-7 (Continued) OC Robotics Extender Models and Payloads
Figure 3-8 OC Robotics Arms in Confined Spaces
Table 3-9 Medrobotics Medical Field Target Markets
Figure 3-10 Federal Reserve Chairman Ben Bernanke Looking At Snaking Robot Camera Made by Medrobotics / Cardiorobotics
Table 3-11 University of Michigan Omnitread Innovations:
Figure 3-12 University of Michigan Omnitread
Table 3-13 University of Michigan Mobile Omnitread Robotic Motion Capabilities
Table 3-14 University of Michigan Mobile Robotics Lab Omnitread Robotic Motion Capabilities
Figure 3-15 Omnitread robot snakes
Figure 3-16 FLEXnav PPE System
Table 3-17 FLEXnav PPE System Features
Figure 3-18 Applied Robotics Technologies Typical Experimental Results: Position Errors After 120-160 M Travel On Moderately Rugged Terrain
Figure 3-19 Sintef Anna Konda
Table 3-20 Anna KondaTechnical data
Figure 3-21 Sintef’s Anna Konda Snake Robot
Table 3-22 Sintef’s Anna Konda Firefighting Snakebot
Table 3-23 SINTEF Firefighting Snakebot Components
Figure 3-24 Norwegian Company Sintef Anna Konda
Table 3-25 SINTEF Firefighting Snakebot Target  Markets
Figure 3-26Sintef Aiko
Table 3-27 SINTEF / NTNU Aiko Technical data
Figure 3-28 Sintef Pneumosnake
Figure 3-29 Sintef PiKo
Figure 3-30 Sintef PiKo Robot For Vertical Movement
Figure 3-31 Department of Engineering Cybernetics at NTNU Pneumosnake – Snake Robot With Pneumatic Bellows
Table 3-32 Department of Engineering Cybernetics at NTNU Technical data
Table 3-33 NTNU / SINTEF Next Generation Robotics for Norwegian Industry
Figure 3-34 HiBot  
Figure 3-35 HiBot Expliner
Figure 3-36 HiBot ACM-R4H
Figure 3-37 HiBot ACM-R5
Figure 3-38 Hibot ACM-R5 Amphibious Robosnake
Figure 3-39 Hibot ACM-R5 Amphibious Robosnake
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
Table 5-1 Medrobotics Cardiac Surgery Improvements
Table 5-2 Medrobotics Snake Robot Technologies For Use In A Wide Range Of Surgical And Interventional Applications
Table 5-3 Medrobotics Snake Robot Technologies Specialist Areas Served
Figure 5-4 OC Robotics
Figure 5-5 OC Robotics Conducts Inspections Within CANDU Reactors
Figure 5-6 OC Robotics Snake-Arm Robot Technology
Table 5-7 University of Michigan Mobile Robotics Lab Areas Of Interest
Figure 5-8 Tokyo Institute of Technology Electrochemistry Spextroscopic Techniquees

List of Figures

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