Emerging Robotic Exoskeleton Technologies

Advances in Lightweight, Soft Exoskeletons can Drive Increased Growth Opportunities in Military and Healthcare Sectors

RELEASE DATE
07-Apr-2017

REGION
Global

Research Code: D7A2-01-00-00-00

SKU: IA01376-GL-TR_19880

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SKU

IA01376-GL-TR_19880

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Description
Table of Contents
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Description

Robotic Exoskeleton has been experiencing significant technology enhancements in the recent years. This advanced technology is destined to play a critical role in transforming the everyday lives of people, especially patients with disabilities. It has opportunities in manufacturing, for instance in warehouse applications. Robotic exoskeletons can be classified into six main categories:

Full body powered suits
Limb assistance suits
Back support suits
Powered gloves
Supernumerary robotic arms
Tool holding exoskeletons

Robotic exoskeletons are anticipated to impact the healthcare, military, and manufacturing industries significantly. The technology literally improves the physical strength, functionality, and performance of the user.

The ‘Emerging Robotic Exoskeleton Technologies’ technology and innovation report reviews the recent technology advancements and innovations impacting various industries. Key questions covered in this research service:
What is the significance and impact of robotic exoskeleton technology across industries?
What is the key industry trends propelling adoption?
What are the major drivers and challenges?
What are the key innovations?
What is the patent and funding trend?
Who are the key stakeholders?
What is the technology roadmap for the next five years (2017-2022)?
What are key growth opportunity areas?

1.0 Executive Summary

1.1 Research Scope

1.2 Research Methodology

1.3 Research Methodology Step-by-Step Approach

1.4 Technology Impact across Industries is Expected to Increase

1.5 Innovations and Developments are Increasing the Adoption Rate of this Novel Technology

1.6 Competition Between Key Stakeholders Has Significantly Increased the Funding Level

2.0 A Sneak Preview of Robotic Exoskeleton Technology

2.1 Segmentation of Robotic Exoskeletons Can Be Anticipated in the Next Five Years

2.2 Robotic Exoskeleton Segmentation by Application

3.0 Application Landscape Assessment

3.1 The Technology Impact and Adoption Scenario is Anticipated to Increase in the Coming Years

4.0 Factors Influencing Technology Adoption–Drivers and Challenges

4.1 Patient Rehabilitation is One of the Key Drivers for Wide-Scale Adoption

4.2 Lack of Funding is One of the Critical Challenges Hindering the Adoption of the Technology

5.0 Patent Assessment

5.1 Most Patents Pertain to the Assembly Method of Robotic Exoskeletons

5.2 A Neck-to-Neck Race to the Finish – Technology Development and Global Adoption Footprint

6.0 Recent Innovations and Advances

6.1 An Exoskeleton to Improve the User’s Mobility

6.2 A Knee Brace Exoskeleton to Improve Soldiers’ Movement

6.3 Remotely Controlled Robotic Exoskeleton

6.4 A Robotic Exoskeleton to Help People with Spinal Cord Injury

6.5 A Biologically Inspired Ankle Exoskeleton Suit

6.6 Biofidelic Robotic Exoskeleton Suit

6.7 An Exoskeleton Power Suit to Assist Paraplegics

7.0 Key Industry Initiatives

7.1 Companies are Developing Proprietary Technologies to Improve the Functionality of the Exoskeleton

7.2 Most Companies are Focusing on Developing Full-body Exoskeleton Suits for the Military Industry

7.3 Key Players in the Industry are Investing Heavy Funding for R&D Purposes

8.0 Recent Industry Activities

8.1 The Race to Increase Company Portfolio

8.2 Sudden Shift Introduces New Participants into the Market

9.0 Mergers & Acquisitions, Funding

9.1 Strategic Collaborations for Large-scale Adoption and Growth

9.2 The Funding Scenario is Expected to Tremendously Increase in the Future

10.0 Technology Benchmarking (2017–2022)

10.1 Technology Readiness and Wide-scale Adoption of Limb Assistance Suits are Anticipated to Foresee a Significant Change

10.2 The Technical Features of Full Body Powered Exoskeletons Directly Impact its Wide-scale Adoption Footprint

10.3 Wide-scale Adoption and Increase in Number of Patents are Expected During 2017 to 2022

11.0 Technology Roadmap (2017–2022)

11.1 The Road Ahead

12.0 Key Patents

12.1 Patents Pertaining to Assembly Techniques for Robotic Exoskeletons

12.2 Patents for an Adjustable Force Exoskeleton and Ambulatory Exoskeleton Propulsion

12.3 Patents Pertaining to Resistive Exoskeleton Control System and Exoskeleton Slipper

12.4 Patents Pertaining to Exoskeleton for Limbs

12.5 Patents for Leg and Arm Support Exoskeletons

13.0 Key Contacts

13.1 Key Contacts

Legal Disclaimer

14.0 The Frost & Sullivan Story

14.1 The Frost & Sullivan Story

14.2 Value Proposition: Future of Your Company & Career

14.3 Global Perspective

14.4 Industry Convergence

14.5 360º Research Perspective

14.6 Implementation Excellence

14.7 Our Blue Ocean Strategy

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Details

Robotic Exoskeleton has been experiencing significant technology enhancements in the recent years. This advanced technology is destined to play a critical role in transforming the everyday lives of people, especially patients with disabilities. It has opportunities in manufacturing, for instance in warehouse applications. Robotic exoskeletons can be classified into six main categories: Full body powered suits Limb assistance suits Back support suits Powered gloves Supernumerary robotic arms Tool holding exoskeletons Robotic exoskeletons are anticipated to impact the healthcare, military, and manufacturing industries significantly. The technology literally improves the physical strength, functionality, and performance of the user. The ‘Emerging Robotic Exoskeleton Technologies’ technology and innovation report reviews the recent technology advancements and innovations impacting various industries. Key questions covered in this research service: What is the significance and impact of robotic exoskeleton technology across industries? What is the key industry trends propelling adoption? What are the major drivers and challenges? What are the key innovations? What is the patent and funding trend? Who are the key stakeholders? What is the technology roadmap for the next five years (2017-2022)? What are key growth opportunity areas?

More Information

More Information
No Index	No
Podcast	No
Author	Peter Adrian
Industries	Industrial Automation
WIP Number	D7A2-01-00-00-00
Is Prebook	No

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Emerging Robotic Exoskeleton Technologies

Emerging Robotic Exoskeleton Technologies

Description

Table of Contents

1.1 Research Scope

1.2 Research Methodology

1.3 Research Methodology Step-by-Step Approach

1.4 Technology Impact across Industries is Expected to Increase

1.5 Innovations and Developments are Increasing the Adoption Rate of this Novel Technology

1.6 Competition Between Key Stakeholders Has Significantly Increased the Funding Level

2.1 Segmentation of Robotic Exoskeletons Can Be Anticipated in the Next Five Years

2.2 Robotic Exoskeleton Segmentation by Application

3.1 The Technology Impact and Adoption Scenario is Anticipated to Increase in the Coming Years

4.1 Patient Rehabilitation is One of the Key Drivers for Wide-Scale Adoption

4.2 Lack of Funding is One of the Critical Challenges Hindering the Adoption of the Technology

5.1 Most Patents Pertain to the Assembly Method of Robotic Exoskeletons

5.2 A Neck-to-Neck Race to the Finish – Technology Development and Global Adoption Footprint

6.1 An Exoskeleton to Improve the User’s Mobility

6.2 A Knee Brace Exoskeleton to Improve Soldiers’ Movement

6.3 Remotely Controlled Robotic Exoskeleton

6.4 A Robotic Exoskeleton to Help People with Spinal Cord Injury

6.5 A Biologically Inspired Ankle Exoskeleton Suit

6.6 Biofidelic Robotic Exoskeleton Suit

6.7 An Exoskeleton Power Suit to Assist Paraplegics

7.1 Companies are Developing Proprietary Technologies to Improve the Functionality of the Exoskeleton

7.2 Most Companies are Focusing on Developing Full-body Exoskeleton Suits for the Military Industry

7.3 Key Players in the Industry are Investing Heavy Funding for R&D Purposes

8.1 The Race to Increase Company Portfolio

8.2 Sudden Shift Introduces New Participants into the Market

9.1 Strategic Collaborations for Large-scale Adoption and Growth

9.2 The Funding Scenario is Expected to Tremendously Increase in the Future

10.1 Technology Readiness and Wide-scale Adoption of Limb Assistance Suits are Anticipated to Foresee a Significant Change

10.2 The Technical Features of Full Body Powered Exoskeletons Directly Impact its Wide-scale Adoption Footprint

10.3 Wide-scale Adoption and Increase in Number of Patents are Expected During 2017 to 2022

11.1 The Road Ahead

12.1 Patents Pertaining to Assembly Techniques for Robotic Exoskeletons

12.2 Patents for an Adjustable Force Exoskeleton and Ambulatory Exoskeleton Propulsion

12.3 Patents Pertaining to Resistive Exoskeleton Control System and Exoskeleton Slipper

12.4 Patents Pertaining to Exoskeleton for Limbs

12.5 Patents for Leg and Arm Support Exoskeletons

13.1 Key Contacts

Legal Disclaimer

14.1 The Frost & Sullivan Story

14.2 Value Proposition: Future of Your Company & Career

14.3 Global Perspective

14.4 Industry Convergence

14.5 360º Research Perspective

14.6 Implementation Excellence

14.7 Our Blue Ocean Strategy

Popular Topics