The quality of remote communication is uplifted by the robotic platform approach to connecting people located in different places. The visualization provided by the telepresence robot is not reproducible by the smartphone and large telepresence systems are not mobile. So ultimately all people will want access to telepresence robots in order to move around and see for themselves what is going on in another place.
Clearly terrorism is here to stay. As nationalistic wars decline as a way to settle disputes terrorism has emerged in spades. The recent terrorist attacks in Boston Paris and Belgium illustrate the risk that civilian populations are exposed to. Telepresence robots represent the best and perhaps last line of defense against terrorists. Telepresence robots can go where no man or woman can go they can go safer they can go faster they can provide a presence that might not be achieved in any other way.
There are more civil uses for telepresence robots: in education healthcare business and manufacturing. People can drive a telepresence robot around a work environment around a school around a hospital to reach people that they night otherwise have a difficult time contacting.
Remote telepresence healthcare diagnosis and treatment market is especially important for the treatment of stroke. Stroke damage can be mitigated if symptoms are treated within 4 hours of the onset of symptoms otherwise the stroke damage is likely permanent. Global telehealth partnerships. The aim is to integrate diagnostic tools into tele-stroke solutions.
Stroke occurs when a vessel in the brain ruptures or is blocked by a blood clot. There are two types of strokes: hemorrhagic and ischemic. An ischemic stroke occurs as a result of an obstruction within a blood vessel supplying blood to the brain which accounts for 87% of all stroke cases. A hemorrhagic stroke occurs when a weakened blood vessel ruptures and spills blood into brain tissue. 800000 people in the U.S. and 15 million people worldwide suffer a stroke each year.
These markets portend to be very large worldwide and represent good uses of telepresence. The ability of a clinician specialist to diagnose and initiate immediate treatment of a stroke from a gold course or other location is lifesaving.
Manufacturing and engineering telepresence robot uses are expected to proliferate. Monitoring and telepresence are being combined to achieve remote repairs that provide better customer services at lower cost. Manufacturing and engineering resources for companies frequently are in different places. The same is true for IT the software developer engineers and the software IT users are frequently located in different places. It is useful to have a mobile device that can be controlled by the engineer to go have a look around when a trouble call comes in from a site.
A remote telepresence device can use monitoring and telepresence to achieve remote repairs. The ability to integrate the remote physical location with the engineer who knows the system often involves travel sometimes long arduous travel. Telepresence and mobile video telecommunications technologies can be very useful in postponing or eliminating the travel.
A mobile real-time 3D-hybrid telepresence system permits the user to go and have a look around and talk to different people about the problem without actually being there. Integration of telepresence images with computer generated virtual environments can be superimposed over the remote real worldview. This integrated system incorporates emerging mobile telecommunications technologies to give rapid and easy access to the real and virtual construction sites from arbitrary locations. This system allows remote surveillance of the construction site and integration of real world images of the site with virtual reality representations derived from planning models for progress monitoring.
“Use of the telepresence robot with the video and microphone capability to achieve remote presence is a vital aspect of personal mobility devices. Telepresence robots are poised to achieve a vital extension of electronic communication in ways that will become indispensable to everyone soon.”
Telepresence robot device markets at $825 million in 2015 are anticipated to reach $7 billion by 2022 as next generation robotic devices systems and instruments are introduced to manage remote presence. The robotic platform will be extended to include grippers and cameras of all types sensors and sophisticated navigation software.
The complete report provides a comprehensive analysis including units sold market value forecasts as well as a detailed competitive market shares and analysis of major players’ success challenges and strategies in each segment and sub-segment. The report covers markets for security law enforcement manufacturing healthcare education and business telepresence.
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Table Of Contents:
Telepresence Robots Executive Summary 29
Telepresence Robots Market Driving Forces 29
Remote Telepresence Healthcare Diagnosis and Treatment 34
Manufacturing and Engineering Uses Monitoring and Telepresence to Achieve Remote Repairs 35
Local Law Enforcement Border Patrol and First Responder Markets Entering A New Era 36
Telepresence Robots Implement Full Array Of Sensors Grippers Analytics 39
Surveillance Robots 39
Business Telepresence Negotiator Robots 41
Telepresence Robots Market Shares First Responder Border Patrol and Law Enforcement 42
First Responder Border Patrol and Law Enforcement Robot Market Shares 42
Telepresence Robots Market Forecasts 43
1. Telepresence Robots Market Description And Market Dynamics 46
1.1 Globalization Of The Enterprise 46
1.1.1 Globalization Supported By Ubiquitous Communications Networks 48
1.1.2 Growing Need For Collaboration Across Distance And Time 51
1.1.3 Elements of a Complete Communications and Collaboration Solution 52
1.1.4 US Federal Information Processing Standards 55
1.2 Classic Telepresence Robot 56
1.3 Telepresence Robots 57
1.3.1 Telehealth 59
1.4 RP-VITA Remote Virtual Independent Telemedicine Assistant 61
1.5 Robot as Messenger 61
1.6 Robot as Patient Care Assistant 62
1.7 First Responders 63
1.7.1 First Responder Need for Robots 64
1.8 First Responder Robot Border Patrol 67
1.8.1 Border Patrol and Homeland Security 68
2. Telepresence Robots Market Shares And Market Forecasts 69
2.1 Telepresence Robots Market Driving Forces 69
2.1.1 Remote Telepresence Healthcare Diagnosis and Treatment 74
2.1.2 Manufacturing and Engineering Uses Monitoring and Telepresence to Achieve Remote Repairs 75
2.1.3 Local Law Enforcement Border Patrol and First Responder Markets Entering A New Era 76
2.1.4 Telepresence Robots Implement Full Array Of Sensors Grippers Analytics 79
2.1.5 Surveillance Robots 79
2.1.6 Business Telepresence Negotiator Robots 81
2.2 Telepresence Robots Market Shares First Responder Border Patrol and Law Enforcement 82
2.2.1 First Responder Border Patrol and Law Enforcement Robot Market Shares 82
2.2.2 Challenges That Define Modern Civilian Security 85
2.2.3 Challenges That Define Modern Civilian Security 86
2.2.4 General Dynamics Robotic Sentry – Intruder Detection and Assessment 88
2.2.5 Northrop Grumman 88
2.2.6 Northrop Grumman 88
2.2.7 Northrop Grumman Cutlass 89
2.2.8 Northrop Grumman Mini-ANDROS II 90
2.2.9 QinetiQ Law Enforcement Robots 91
2.2.10 QinetQ TALON 91
2.2.11 ReconRobotics 93
2.2.12 SDR LT2 / LT2-F 93
2.2.13 iRobot Surveillance Robots 94
2.2.14 iRobot Research / iRobot Collaborative Systems 96
2.2.15 iRobot Packbot 96
2.2.16 iRobot Selling its Defense and Security Division: Protecting Those in Harm’s Way 97
2.3 Telepresence Robots for Education Healthcare Business and Manufacturing Market Shares 98
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