Global Optical Waveguide in Augmented Reality and Virtual Reality Growth Opportunities

Global Optical Waveguide in Augmented Reality and Virtual Reality Growth Opportunities

Advancements in Optical Waveguide Technology for AR and VR will Accelerate Growth Opportunities in the Automotive, Healthcare, Aerospace and Defense, Education, and Retail Sectors.

RELEASE DATE
08-Dec-2021
REGION
Global
Deliverable Type
Technology Research
Research Code: DA3D-01-00-00-00
SKU: ES01203-GL-TR_26046
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ES01203-GL-TR_26046

Global Optical Waveguide in Augmented Reality and Virtual Reality Growth Opportunities
Published on: 08-Dec-2021 | SKU: ES01203-GL-TR_26046

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In today’s electronics-dominated world, the desire for immersive experiences has surged immensely. As a result, AR/VR technologies have evolved rapidly in recent years. Advancements in optical waveguides such as diffractive waveguides hold the potential to build ergonomic AR/VR devices without compromising on the quality of the projected images. These advancements also offer hope to industries that want to use the dynamics offered by AR/VR in terms of broadening application usage and attracting a global clientele.
This technology and innovation research service offers insight into ongoing developments in optical waveguides for the AR/VR industry. The study focuses on emerging waveguide technologies such as diffractive and holographic waveguides, which are opening up new growth opportunities in the AR/VR industry and are playing a critical role in the deployment of AR/VR gadgets across several industries, including automotive. The research service also highlights end-market applications that might evolve over the next 2-5 years by leveraging optical waveguide-based AR/VR devices.
This study answers the following questions:
1.What is the significance of AR/VR in today’s electronics ecosystem?
2.What are the emerging optical waveguide technologies related to the AR/VR industry?
3.Which factors are driving opportunities for optical waveguides in the AR/VR industry?
4.What are the technology capabilities of optical waveguides?
–Assessment of industry best practices
–Appraisal of intellectual property (IP) and funding scenarios
–Evaluation of growth opportunities and success factors
5.Which companies are innovating in terms of optical waveguide technology?
6.Which applications are being impacted by the advancements in optical waveguides for the AR/VR industry?

1.1 The Strategic Imperative 8™Factors Creating Pressure on Growth in the Optical Waveguides for AR and VR Industry

1.2 The Strategic Imperative 8™

1.3 Optical Waveguides for the AR and VR Industry and the Strategic Imperative 8™

1.4 About the Growth Pipeline Engine™

1.5 Growth Opportunities Fuel the Growth Pipeline Engine™

2.1 Scope of the Technology and Innovation Research

2.2 Research Methodology

2.3 Research Process and Methodology

2.4 Major Findings

3.1 Significance of AR/VR in Today’s World of Electronics

3.2 Smart Glasses, Head-mounted Displays, and Smart Helmets are Popular AR/VR Devices.

3.3 Overview of Optical Waveguides

3.4 Analysis of the Optical Waveguides used in AR and VR Devices

3.5 Patent Assessment of Optical Waveguide Technology

3.6 Active Participation from Leading Electronics Companies and Start-ups Accelerates R&D

3.7 R&D Trends are Driven by Both Technology Advancements and Application Prospects for AR/VR Technologies

3.8 AR/VR Products Developed by Apple and Microsoft

3.9 AR/VR Products Developed by Meta and Google

3.10 AR/VR Products Developed by Samsung, Sony, and HTC

4.1 Regional Analysis Indicates a Focus on Building AR/VR Capabilities and Strengthening the Supply Chain Ecosystem

4.2 Growth Drivers

4.3 Growth Restraints

4.4 Impact of the COVID-19 Pandemic on XR Usage in End Markets

4.5 Supply Chain Model of the Global AR/VR Industry

4.6 Emerging Business Models that Support the AR/VR Supply Chain

4.7 Venture Capital Investments and Strategic Alliances are Enabling the Growth of the AR/VR Industry

4.8 Major Initiatives by Leading Electronic OEMs in the AR/VR Industry

4.9 SWOT Analysis of Optical Waveguide-based AR/VR Devices

5.1 End Markets Driving the Demand for Optical Waveguide-based AR/VR Devices

5.2 AR/VR Displays will have a High Impact on the Automotive, Healthcare, and Education Sectors

5.3 AR/VR Displays will have a High Impact on the Aerospace and Defense, Retail, and Industrial and Enterprise Sectors

5.4 Implementation Scenarios in the Automotive Sector

5.5 Implementation Scenarios in the Healthcare and the Aerospace and Defense Sectors

5.6 Implementation Scenarios in the Education, Retail, and the Industrial and Enterprise Sectors

6.1 DigiLens Inc., the United States

6.2 Vuzix Corp., the United States

6.3 WaveOptics Ltd, the United Kingdom (Acquired by Snap Inc)

6.4 Lumus Ltd, Israel

6.5 Dispelix OY, Finland

7.1 Growth Opportunity 1: Advancements in AR/VR for Enhanced Navigation and Safety in Automobiles

7.1 Growth Opportunity 1: Advancements in AR/VR for Enhanced Navigation and Safety in Automobiles (continued)

7.2 Growth Opportunity 2: Innovation in Optical Materials for the Development of Waveguides for AR and VR Applications

7.2 Growth Opportunity 2: Innovation in Optical Materials for the Development of Waveguides for AR and VR Applications (continued)

7.3 Growth Opportunity 3: Consolidation of the Supply Chain Ecosystem for AR/VR Growth

7.3 Growth Opportunity 3: Consolidation of the Supply Chain Ecosystem for AR/VR Growth (continued)

8.1 Key Contacts

9.1 Your Next Steps

9.2 Why Frost, Why Now?

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In today’s electronics-dominated world, the desire for immersive experiences has surged immensely. As a result, AR/VR technologies have evolved rapidly in recent years. Advancements in optical waveguides such as diffractive waveguides hold the potential to build ergonomic AR/VR devices without compromising on the quality of the projected images. These advancements also offer hope to industries that want to use the dynamics offered by AR/VR in terms of broadening application usage and attracting a global clientele. This technology and innovation research service offers insight into ongoing developments in optical waveguides for the AR/VR industry. The study focuses on emerging waveguide technologies such as diffractive and holographic waveguides, which are opening up new growth opportunities in the AR/VR industry and are playing a critical role in the deployment of AR/VR gadgets across several industries, including automotive. The research service also highlights end-market applications that might evolve over the next 2-5 years by leveraging optical waveguide-based AR/VR devices. This study answers the following questions: 1.What is the significance of AR/VR in today’s electronics ecosystem 2.What are the emerging optical waveguide technologies related to the AR/VR industry 3.Which factors are driving opportunities for optical waveguides in the AR/VR industry 4.What are the technology capabilities of optical waveguides –Assessment of industry best practices –Appraisal of intellectual property (IP) and funding scenarios –Evaluation of growth opportunities and success factors 5.Which companies are innovating in terms of optical waveguide technology 6.Which applications are being impacted by the advancements in optical waveguides for the AR/VR industry
More Information
Deliverable Type Technology Research
No Index No
Podcast No
Author Sushrutha Katta Sadashiva
Industries Electronics and Sensors
WIP Number DA3D-01-00-00-00
Keyword 1 Optical Waveguide Technology for AR and VR
Keyword 2 Augmented Reality
Keyword 3 Virtual Reality
Is Prebook No