Researchmoz added Most up-to-date research on "Snake Robots: Market Shares, Strategy, and Forecasts, Worldwide, 2015 to 2021" to its huge collection of research reports.
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 in a variety of industries. Target markets are for confined spaces.
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 where radiation is dangerous for human, aircraft inside the wings and other small spaces that need to remain intact, the human body which likewise cannot be dismantled easily, industrial processing plants that have containers, underwater environments, ship-building, and 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 has come to robotics, used in surgery, industry, ships, airplanes, first responder help, and communications.
To Get Sample Copy of Report visit @ http://www.researchmoz.us/enquiry.php?type=S&repid=401827
Automated process 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.
Table of Content
Snake Robots Market Shares and Market Forecasts ES-1
Snake Robot Market Driving Forces ES-1
Snake Robots Market Shares ES-10
Snake Robot Market Forecasts ES-12
1. Snake Robots Market Description and Market Dynamics 1-1
1.1 Snake Robots Are Different 1-1
1.2 Modsnake Robots 1-2
1.2.1 Modsnake Robots Support Human Workers 1-3
1.3 Snakelike Robots Slither over Rough Landscape 1-4
1.4 Snake Robots Locomote 1-4
1.5 Serpentine Robot Applications 1-5
1.5.1 Seizing the Robotics Opportunity 1-6
1.5.2 Modular Self-Reconfiguring Robotic Systems 1-7
1.6 Public Aware That Robotics Have “Arrived” 1-7
1.7 Next Generation Snake Robotics 1-9
2. Snake Robots Market Shares and Market Forecasts 2-1
2.1 Snake Robot Market Driving Forces 2-1
2.2 Snake Robots Market Shares 2-10
2.3 Snake Robot Variety of Applications 2-13
2.3.1 HiBot / Hirose Fukushima Lab ACM 2-13
2.3.2 OC Robotics Snake-Arm for Aircraft Assembly 2-15
2.3.3 Minimally Invasive Equipment Surgical Robots 2-16
2.3.4 Medrobotics Cardioarm Is A Jointed Robot 2-17
2.3.5 SINTEF Robot Snakes Climb Pipes 2-18
2.3.6 University of Southampton. 2-18
2.3.7 CCTV Inspection 2-19
2.4 Snake Robot Market Forecasts 2-19
2.4.1 Snake Robots Market Industry Segments 2-21
2.4.2 Cardiac Surgery Snake Robots Market Forecasts 2-26
2.4.3 Medrobotics Initial Goal Is To Help Avoid Open-Heart Surgery 2-26
2.4.4 Minimally 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 2-27
2.4.5 Medrobotics Positioning 2-28
2.4.6 Cardiac Surgery Snake Robots Market Forecasts 2-28
2.4.7 Reaching The Un Reachable Snake Robot Market Forecasts 2-30
2.5 Snake Robot Prices 2-31
2.5.1 Inaccessible Spaces - OC Robotics 2-31
2.5.2 Cardiac Surgery - Medrobotics 2-31
2.6 Snake Robots Regional Market Analysis 2-33
3. Snake Robot Product Description 3-1
3.1 OC Robotics 3-1
3.1.1 OC Robotics The Explorer Range 3-2
3.1.2 OC Robotics Snake-Arm Control 3-7
3.1.3 OC Robotics Snake-Arm Simulator 3-7
3.1.4 OC Robotics Snake-Arm for Aircraft Assembly 3-8
3.1.5 OC Robotics Extender Snake Range Of –Motion Robots Reach The Unreachable 3-9
3.1.6 OC Robotics Snake-Arm – 3-12
3.1.7 OC Robotics 3-15
3.1.8 OC Energy & Environment Robotics 3-16
3.1 Medrobotics Techonology 3-17
3.1.1 Medrobotics Medical Devices for Minimally Invasive Surgery 3-18
3.1.2 Medrobotics Flexible Robot Platform 3-18
3.1.3 Medrobotics Snakelike Robots for Heart Surgery 3-19
3.1.4 Medrobotics Cardiac Surgery Snake Robot 3-20
3.1.5 Minimally Invasive Surgery Positioning: 3-24
3.2 University of Michigan All-Terrain Robotics: 3-25
3.2.1 University of Michigan Mobile Robotics Lab Omnitread 3-29
3.2.2 OmniTread Robot Snakes 3-32
3.3 Applied Robotics Technologies, LLC 3-33
3.3.1 The FLEXnav Proprioceptive Position Estimation (PPE) System 3-34
3.3.2 Applied Robotics Technologies Pricing 3-35
3.3.3 Heuristic Drift Reduction for Gyros in Vehicle Tracking Applications 3-36
3.3.4 Applied Robotics Technologies Key Benefits 3-39
3.3.5 Applied Robotics Technologies Pricing 3-39
3.4 NASA Robotic Snakes 3-39
3.5 Canadian Robotics Ltd. 3-40
3.6 Japan Guru World-Class Snake Robotics 3-40
3.7 NTNU and SINTEF in Norway World-Class Snake Robotics 41
3.7.1 Sintef Anna Konda 3-41
3.7.2 Anna Konda Firefighting Snakebot 3-47
3.7.3 Sintef Aiko 3-50
3.7.4 Sintef Pneumosnake 3-51
3.7.5 Sintef PiKo 3-52
3.7.6 Sintef Climbing Robot 3-55
3.7.7 Sintef Robot Learning 3-57
3.7.8 Department of Engineering Cybernetics at NTNU Pneumosnake – Snake Robot With Pneumatic Bellows 3-58
3.8 Hibot Pipetron 3-60
3.8.1 HiBot Expliner 3-61
3.8.2 HiBot ACM-R4H 3-62
3.8.3 HiBot ACM-R5 3-63
3.8.4 Hibot ACM-R5 Amphibious Robosnake 3-64
3.8.5 HiBot Japanese Snake Robot 3-66
3.8.6 Maintaining High Voltage Transmission Lines Using Robotics 3-68
3.8.7 Hydro-Quebec Research Institute (IREQ)LineScout Tele-operated obstacle crossing system 3-68
3.8.8 HiBot Expliner 3-68
3.8.9 America’s Electric Power Research Institute (EPRI)
4. Snake Robot Technology 4-1
4.1 Actuated Joints In A Tight Volume 4-1
4.2 OC Robotics 4-2
4.2.1 OC Robotics Develops Snake-Arm Robots For Confined Spaces 4-3
4.2.2 OC Robotics Snake Arm Actuator Pack 4-5
4.2.3 OC Robotics Snake Arm 4-6
4.2.4 OC Robotics Tool 4-6
4.2.5 OC Robotics Confined Space Piece Manipulation 4-7
4.2.6 OC Robotics Confined Space Reach 4-8
4.3 OC Robotics Snake-Arm Robot Basics 4-10
4.3.1 OC Robotics Snake Robot Curvature – 4-15
4.3.2 OC Robotics Protective Skins 4-16
4.3.3 OC Robotics Manages Hazardous Environments – 4-17
4.3.4 OC Robotics Software - SoftSnake 4-18
4.3.5 OC Robotics PipeSnake 4-18
4.3.6 OC Robotics Snake-Arm Robots Aircraft Assembly 4-22
4.4 CISST ERC Snake Robot 4-27
4.5 Bio-Robotics Lab 4-28
4.6 Carnegie Mellon Robotics Institute 4-31
4.7 Sintef 4-32
4.7.1 Sintef Aiko Snake Robot With Electric Motors 4-34
4.8 Hirose Fukushima Lab ACM Land and Amphibious Robot Snake 4-36
4.8.1 Hirose Fukushima Lab ACM-R5 Control System 4-37
4.8.2 Hirose Fukushima Lab ACM Slim Slime Robot 4-38
4.8.3 Hirose Fukushima Lab pneumatically-driven Slime Robot 4-40
4.8.4 Hirose-Fukushima Lab at Tokyo Institute of Technology Amphibious Snake Robot - ACM-R5 4-49
4.9 DrGavin S7 Snake Robot Rectilinear Locomotion 4-50
4.9.1 Nottingham Trent University 4-54
4.10 Israeli Army Deploys Robot Snakes 4-55
4.10.1 Israeli Military Develops Robot Snake Bomb Hirose Fukushima Lab 4-57
4.11 Merlin Robotics, Nottingham Trent University Robot Snake Dance 4-60
4.12 Snake Bot at Carnegie Mellon 4-61
4.12.1 Carnegie Mellon Conforming Loop 4-64
4.13 CardioArm Biomedicine Snakelike Robots for Heart Surgery 4-68
4.13.1 Snake Robot Helps Wounded Soldiers 4-70
4.14 Hughes Aircraft R7 Early Robotic Snake 4-72
4.15 British 'Serpentine Spy' 4-73
4.16 IDF Spy Robot Snake 4-74
4.17 SINTEF Robot Snakes Climb Pipes 4-75
4.17.1 SINTEF Anna Konda 4-76
4.18 Climbing Snakes Biorobotics Lab, Carnegie Mellon University 4-79
4.19 NASA Snake-bot VS InnoSTAR 4-81
4.20 Applied Robotics Technologies, LLC 4-82
5. Snake Robots Company Profiles 5-1
5.1 Applied Robotics Technologies, LLC 5-1
5.2 HiBot 5-1
5.3 Medrobotics 5-2
5.3.1 Medrobotics $10 Million Financing From Hercules 5-2
5.1.1 Medrobotics Several Generations Of Snake Robot Platforms 5-3
5.1.2 Medrobotics Advances Clinical Development of Snake Robot for Surgery 5-4
5.1.3 Medrobotics Positioning 5-4
5.1.4 Medrobotics Cardiac Surgery Gold Standard 5-5
5.1.5 Medrobotics Snake Robot Technologies Used In Range Of Surgical And Interventional Applications 5-56
5.1.6 Medrobotics Technology & Research Center 5-8
5.4 OC Robotics 5-9
5.4.1 OC Robotics Technology & Innovation 5-9
5.4.2 OC Robotics Robots Extend Reach Of Manual Process 5-11
5.4.3 OC Robotics A CANDU Snake-Arm Robot 5-13
5.4.4 OC Robotics Snake-Arm Robots 5-14
5.5 University of Michigan Mobile Robotics Lab Omnitread 5-17
5.6 Tokyo Institute of Technology Research Laboratories 5-20
5.6.1 Tokyo Institute of Technology / Hirose Fukushima Lab ACM 5-22
5.6.2 Hirose Fukushima Lab ACM Hibot 5-22
5.7 Sintef 5-23
5.8 Selected List of University and Research Snake Robots 5-25
Make an Enquiry of this report @ http://www.researchmoz.us/enquiry.php?type=E&repid=401827
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 in a variety of industries. Target markets are for confined spaces.
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 where radiation is dangerous for human, aircraft inside the wings and other small spaces that need to remain intact, the human body which likewise cannot be dismantled easily, industrial processing plants that have containers, underwater environments, ship-building, and 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 has come to robotics, used in surgery, industry, ships, airplanes, first responder help, and communications.
To Get Sample Copy of Report visit @ http://www.researchmoz.us/enquiry.php?type=S&repid=401827
Automated process 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.
Table of Content
Snake Robots Market Shares and Market Forecasts ES-1
Snake Robot Market Driving Forces ES-1
Snake Robots Market Shares ES-10
Snake Robot Market Forecasts ES-12
1. Snake Robots Market Description and Market Dynamics 1-1
1.1 Snake Robots Are Different 1-1
1.2 Modsnake Robots 1-2
1.2.1 Modsnake Robots Support Human Workers 1-3
1.3 Snakelike Robots Slither over Rough Landscape 1-4
1.4 Snake Robots Locomote 1-4
1.5 Serpentine Robot Applications 1-5
1.5.1 Seizing the Robotics Opportunity 1-6
1.5.2 Modular Self-Reconfiguring Robotic Systems 1-7
1.6 Public Aware That Robotics Have “Arrived” 1-7
1.7 Next Generation Snake Robotics 1-9
2. Snake Robots Market Shares and Market Forecasts 2-1
2.1 Snake Robot Market Driving Forces 2-1
2.2 Snake Robots Market Shares 2-10
2.3 Snake Robot Variety of Applications 2-13
2.3.1 HiBot / Hirose Fukushima Lab ACM 2-13
2.3.2 OC Robotics Snake-Arm for Aircraft Assembly 2-15
2.3.3 Minimally Invasive Equipment Surgical Robots 2-16
2.3.4 Medrobotics Cardioarm Is A Jointed Robot 2-17
2.3.5 SINTEF Robot Snakes Climb Pipes 2-18
2.3.6 University of Southampton. 2-18
2.3.7 CCTV Inspection 2-19
2.4 Snake Robot Market Forecasts 2-19
2.4.1 Snake Robots Market Industry Segments 2-21
2.4.2 Cardiac Surgery Snake Robots Market Forecasts 2-26
2.4.3 Medrobotics Initial Goal Is To Help Avoid Open-Heart Surgery 2-26
2.4.4 Minimally 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 2-27
2.4.5 Medrobotics Positioning 2-28
2.4.6 Cardiac Surgery Snake Robots Market Forecasts 2-28
2.4.7 Reaching The Un Reachable Snake Robot Market Forecasts 2-30
2.5 Snake Robot Prices 2-31
2.5.1 Inaccessible Spaces - OC Robotics 2-31
2.5.2 Cardiac Surgery - Medrobotics 2-31
2.6 Snake Robots Regional Market Analysis 2-33
3. Snake Robot Product Description 3-1
3.1 OC Robotics 3-1
3.1.1 OC Robotics The Explorer Range 3-2
3.1.2 OC Robotics Snake-Arm Control 3-7
3.1.3 OC Robotics Snake-Arm Simulator 3-7
3.1.4 OC Robotics Snake-Arm for Aircraft Assembly 3-8
3.1.5 OC Robotics Extender Snake Range Of –Motion Robots Reach The Unreachable 3-9
3.1.6 OC Robotics Snake-Arm – 3-12
3.1.7 OC Robotics 3-15
3.1.8 OC Energy & Environment Robotics 3-16
3.1 Medrobotics Techonology 3-17
3.1.1 Medrobotics Medical Devices for Minimally Invasive Surgery 3-18
3.1.2 Medrobotics Flexible Robot Platform 3-18
3.1.3 Medrobotics Snakelike Robots for Heart Surgery 3-19
3.1.4 Medrobotics Cardiac Surgery Snake Robot 3-20
3.1.5 Minimally Invasive Surgery Positioning: 3-24
3.2 University of Michigan All-Terrain Robotics: 3-25
3.2.1 University of Michigan Mobile Robotics Lab Omnitread 3-29
3.2.2 OmniTread Robot Snakes 3-32
3.3 Applied Robotics Technologies, LLC 3-33
3.3.1 The FLEXnav Proprioceptive Position Estimation (PPE) System 3-34
3.3.2 Applied Robotics Technologies Pricing 3-35
3.3.3 Heuristic Drift Reduction for Gyros in Vehicle Tracking Applications 3-36
3.3.4 Applied Robotics Technologies Key Benefits 3-39
3.3.5 Applied Robotics Technologies Pricing 3-39
3.4 NASA Robotic Snakes 3-39
3.5 Canadian Robotics Ltd. 3-40
3.6 Japan Guru World-Class Snake Robotics 3-40
3.7 NTNU and SINTEF in Norway World-Class Snake Robotics 41
3.7.1 Sintef Anna Konda 3-41
3.7.2 Anna Konda Firefighting Snakebot 3-47
3.7.3 Sintef Aiko 3-50
3.7.4 Sintef Pneumosnake 3-51
3.7.5 Sintef PiKo 3-52
3.7.6 Sintef Climbing Robot 3-55
3.7.7 Sintef Robot Learning 3-57
3.7.8 Department of Engineering Cybernetics at NTNU Pneumosnake – Snake Robot With Pneumatic Bellows 3-58
3.8 Hibot Pipetron 3-60
3.8.1 HiBot Expliner 3-61
3.8.2 HiBot ACM-R4H 3-62
3.8.3 HiBot ACM-R5 3-63
3.8.4 Hibot ACM-R5 Amphibious Robosnake 3-64
3.8.5 HiBot Japanese Snake Robot 3-66
3.8.6 Maintaining High Voltage Transmission Lines Using Robotics 3-68
3.8.7 Hydro-Quebec Research Institute (IREQ)LineScout Tele-operated obstacle crossing system 3-68
3.8.8 HiBot Expliner 3-68
3.8.9 America’s Electric Power Research Institute (EPRI)
4. Snake Robot Technology 4-1
4.1 Actuated Joints In A Tight Volume 4-1
4.2 OC Robotics 4-2
4.2.1 OC Robotics Develops Snake-Arm Robots For Confined Spaces 4-3
4.2.2 OC Robotics Snake Arm Actuator Pack 4-5
4.2.3 OC Robotics Snake Arm 4-6
4.2.4 OC Robotics Tool 4-6
4.2.5 OC Robotics Confined Space Piece Manipulation 4-7
4.2.6 OC Robotics Confined Space Reach 4-8
4.3 OC Robotics Snake-Arm Robot Basics 4-10
4.3.1 OC Robotics Snake Robot Curvature – 4-15
4.3.2 OC Robotics Protective Skins 4-16
4.3.3 OC Robotics Manages Hazardous Environments – 4-17
4.3.4 OC Robotics Software - SoftSnake 4-18
4.3.5 OC Robotics PipeSnake 4-18
4.3.6 OC Robotics Snake-Arm Robots Aircraft Assembly 4-22
4.4 CISST ERC Snake Robot 4-27
4.5 Bio-Robotics Lab 4-28
4.6 Carnegie Mellon Robotics Institute 4-31
4.7 Sintef 4-32
4.7.1 Sintef Aiko Snake Robot With Electric Motors 4-34
4.8 Hirose Fukushima Lab ACM Land and Amphibious Robot Snake 4-36
4.8.1 Hirose Fukushima Lab ACM-R5 Control System 4-37
4.8.2 Hirose Fukushima Lab ACM Slim Slime Robot 4-38
4.8.3 Hirose Fukushima Lab pneumatically-driven Slime Robot 4-40
4.8.4 Hirose-Fukushima Lab at Tokyo Institute of Technology Amphibious Snake Robot - ACM-R5 4-49
4.9 DrGavin S7 Snake Robot Rectilinear Locomotion 4-50
4.9.1 Nottingham Trent University 4-54
4.10 Israeli Army Deploys Robot Snakes 4-55
4.10.1 Israeli Military Develops Robot Snake Bomb Hirose Fukushima Lab 4-57
4.11 Merlin Robotics, Nottingham Trent University Robot Snake Dance 4-60
4.12 Snake Bot at Carnegie Mellon 4-61
4.12.1 Carnegie Mellon Conforming Loop 4-64
4.13 CardioArm Biomedicine Snakelike Robots for Heart Surgery 4-68
4.13.1 Snake Robot Helps Wounded Soldiers 4-70
4.14 Hughes Aircraft R7 Early Robotic Snake 4-72
4.15 British 'Serpentine Spy' 4-73
4.16 IDF Spy Robot Snake 4-74
4.17 SINTEF Robot Snakes Climb Pipes 4-75
4.17.1 SINTEF Anna Konda 4-76
4.18 Climbing Snakes Biorobotics Lab, Carnegie Mellon University 4-79
4.19 NASA Snake-bot VS InnoSTAR 4-81
4.20 Applied Robotics Technologies, LLC 4-82
5. Snake Robots Company Profiles 5-1
5.1 Applied Robotics Technologies, LLC 5-1
5.2 HiBot 5-1
5.3 Medrobotics 5-2
5.3.1 Medrobotics $10 Million Financing From Hercules 5-2
5.1.1 Medrobotics Several Generations Of Snake Robot Platforms 5-3
5.1.2 Medrobotics Advances Clinical Development of Snake Robot for Surgery 5-4
5.1.3 Medrobotics Positioning 5-4
5.1.4 Medrobotics Cardiac Surgery Gold Standard 5-5
5.1.5 Medrobotics Snake Robot Technologies Used In Range Of Surgical And Interventional Applications 5-56
5.1.6 Medrobotics Technology & Research Center 5-8
5.4 OC Robotics 5-9
5.4.1 OC Robotics Technology & Innovation 5-9
5.4.2 OC Robotics Robots Extend Reach Of Manual Process 5-11
5.4.3 OC Robotics A CANDU Snake-Arm Robot 5-13
5.4.4 OC Robotics Snake-Arm Robots 5-14
5.5 University of Michigan Mobile Robotics Lab Omnitread 5-17
5.6 Tokyo Institute of Technology Research Laboratories 5-20
5.6.1 Tokyo Institute of Technology / Hirose Fukushima Lab ACM 5-22
5.6.2 Hirose Fukushima Lab ACM Hibot 5-22
5.7 Sintef 5-23
5.8 Selected List of University and Research Snake Robots 5-25
Make an Enquiry of this report @ http://www.researchmoz.us/enquiry.php?type=E&repid=401827
No comments:
Post a Comment