Reconfigurable Intelligent Surfaces Market Report 2025-2035, with Profiles of 19 Leading Companies and Emerging Players in the RIS Space, including their Technologies, Strategies and Market Position - ResearchAndMarkets.com

DUBLIN--(BUSINESS WIRE)--The "Reconfigurable Intelligent Surfaces (RIS) Global Market 2025-2035" report has been added to ResearchAndMarkets.com's offering.

RIS, also known as Intelligent Reflecting Surfaces (IRS) or software-controlled metasurfaces, are artificial structures composed of a large number of small, passive elements that can be electronically controlled to manipulate electromagnetic waves. These surfaces can reflect, refract, absorb, or focus incoming signals in desired directions, effectively shaping the wireless propagation environment.

Due to recent advances in metamaterials, Reconfigurable Intelligent Surface (RIS) has emerged as a promising technology for future 6G wireless communications. Benefiting from its high array gain, low cost, and low power consumption, RISs are expected to greatly enlarge signal coverage, improve system capacity, and increase energy efficiency.

RIS technology offers revolutionary capabilities in manipulating electromagnetic waves, enabling enhanced coverage, capacity, and energy efficiency in wireless networks. As 5G networks expand and 6G development accelerates, RIS is expected to play a crucial role in overcoming current limitations in wireless communications. Key applications span telecommunications, smart cities, Industrial IoT, healthcare, automotive, aerospace, and consumer electronics.

The market is driven by increasing demand for high-speed, low-latency communications, growth in IoT adoption, and the need for energy-efficient wireless solutions. However, challenges include high initial costs, technical complexities in large-scale deployment, and standardization issues.

Report contents include:

• Market Size and Growth Projections: Detailed forecasts of the RIS market size and growth rate from 2025 to 2035, segmented by technology type, application, and geography.
• Technology Deep Dive: Comprehensive analysis of various RIS technologies, including metasurfaces, liquid crystal-based RIS, MEMS-based RIS, and emerging approaches.
• Application Landscape: Exploration of key application areas such as 5G/6G networks, IoT, smart cities, autonomous vehicles, and aerospace communications.
• Future Outlook: Assessment of emerging trends, potential disruptions, and long-term prospects for RIS technology.
• Developments in RIS technology, including:
  • Integration with AI and machine learning for adaptive control
  • Quantum RIS concepts pushing the boundaries of performance
  • Self-configuring and self-healing RIS for enhanced reliability
  • Holographic radio and terahertz communications enabled by RIS
• Market Drivers and Opportunities
• Challenges and Market Dynamics
• Technology Benchmarking and Performance Analysis
• Comprehensive comparison of different RIS technologies.
• Integration with Wireless Communication Systems.
• Environmental and Sustainability Considerations.
• Standardization and Regulatory Landscape.
• Competitive Landscape: Profiles of leading companies and emerging players in the RIS space, including their technologies, strategies, and market positioning.

Companies profiled include

• Alcan Systems
• Alphacore Inc.
• Edgehog Advanced Technologies
• Evolv Technologies Inc.
• Fractal Antenna Systems
• Greenerwave
• Huawei
• Kymeta
• Leadoptik
• Lumotive
• META
• Metaboards Limited
• Metawave Corporation
• Nokia
• NTT DOCOMO
• Pivotal Commware
• SK Telecom
• Teraview
• ZTE

Key Topics Covered:

1 EXECUTIVE SUMMARY

1.1 Overview of Reconfigurable Intelligent Surfaces (RIS)

1.2 Key Market Drivers and Challenges

1.3 Technology Trends

1.4 Metamaterial key to RIS

1.5 Market Size and Growth Projections

1.6 Competitive Landscape Overview

1.7 Future Outlook and Opportunities

2 INTRODUCTION

2.1 Technology overview

2.1.1 Key features and functionality

2.1.2 Frequencies

2.1.3 Physics of Electromagnetic Wave Manipulation

2.1.4 RIS Operating Principles

2.1.5 Key Performance Parameters

2.1.6 Design Considerations for RIS

2.2 System Architecture

2.3 Importance in Modern Wireless Communications

2.4 Advantages Over Traditional Wireless Technologies

2.5 Current Limitations and Challenges

2.6 Comparison with Other Smart Electromagnetic (EM) Devices

3 RIS TECHNOLOGIES

3.1 Metasurfaces

3.1.1 Principles of Metasurfaces

3.1.2 Types of Metasurfaces

3.1.3 Fabrication Techniques

3.1.4 Performance Characteristics

3.2 Liquid Crystal-based RIS

3.2.1 Operating Principles

3.2.2 Advantages and Limitations

3.3 MEMS-based RIS

3.4 Varactor Diode-based RIS

3.5 PIN Diode-based RIS

3.6 Other Materials

3.6.1 Ferroelectric materials

3.6.2 Phase Change Materials

3.6.3 Graphene

3.7 Comparison of RIS Technologies

3.7.1 Performance Metrics

3.7.2 Cost Analysis

3.7.3 Scalability and Manufacturing Considerations

4 RIS IN WIRELESS COMMUNICATION SYSTEMS

4.1 Integration with 5G Networks

4.1.1 Enhanced Mobile Broadband (eMBB)

4.1.2 Ultra-Reliable Low-Latency Communication (URLLC)

4.1.3 Massive Machine-Type Communications (mMTC)

4.2 6G and Beyond

4.2.1 RIS in Terahertz Communications

4.2.2 Holographic Radio

4.2.3 Intelligent Reflecting Surfaces for Satellite Communications

4.3 MIMO Systems and RIS

4.3.1 RIS-assisted MIMO

4.3.2 RIS-based Massive MIMO

4.3.3 Performance Enhancements and Challenges

4.4 Beamforming and RIS

4.4.1 Passive Beamforming

4.4.2 Hybrid Beamforming with RIS

4.4.3 Adaptive Beamforming Techniques

4.5 Energy Efficiency in Wireless Networks

4.5.1 RIS for Green Communications

4.5.2 Energy Harvesting with RIS

4.5.3 Power Consumption Analysis

5 MARKETS AND APPLICATIONS

5.1 Telecommunications

5.2 Smart Cities and IoT

5.2.1 Urban Environment Monitoring

5.2.2 Smart Transportation Systems

5.2.3 Energy Management in Buildings

5.2.4 Market forecast

5.3 Industrial IoT and Industry 4.0

5.3.1 Factory Automation

5.3.2 Warehouse Management

5.3.3 Process Control and Monitoring

5.3.4 Market forecast (IoT)

5.4 Healthcare and Medical Applications

5.4.1 Wireless Body Area Networks

5.4.2 Remote Patient Monitoring

5.4.3 Medical Imaging Enhancement

5.5 Automotive and Transportation

5.5.1 Vehicle-to-Everything (V2X) Communications

5.5.2 Autonomous Vehicles

5.5.3 Intelligent Transportation Systems

5.5.4 Market forecast (IoT)

5.6 Aerospace and Defense

5.6.1 Radar Systems Enhancement

5.6.2 Secure Communications

5.6.3 Stealth Technology

5.7 Smart Home and Consumer Electronics

5.7.1 In-home Wireless Coverage Optimization

5.7.2 Device-to-Device Communications

5.7.3 Augmented and Virtual Reality Applications

6 MARKET ANALYSIS AND TRENDS

6.1 Global Market Size and Growth Projections

6.2 Key Market Drivers

6.2.1 Increasing Demand for High-Speed, Low-Latency Communications

6.2.2 Growth in IoT and Smart Device Adoption

6.2.3 Advancements in 5G and 6G Technologies

6.2.4 Need for Energy-Efficient Wireless Solutions

6.3 Market Challenges and Barriers

6.3.1 High Initial Implementation Costs

6.3.2 Technical Complexities in Large-Scale Deployment

6.3.3 Standardization and Interoperability Issues

6.3.4 Regulatory and Compliance Challenges

6.4 Emerging Market Opportunities

6.4.1 Integration with Edge Computing

6.4.2 RIS for Satellite and Space Communications

6.4.3 Advanced Materials for RIS

6.4.4 AI and Machine Learning Integration

6.4.5 Quantum RIS Concepts

6.4.6 Cognitive RIS

6.4.7 Self-configuring and Self-healing RIS

6.4.8 Integration with Blockchain for Secure Communications

6.5 Future Outlook

6.5.1 RIS in 6G and Beyond

6.5.2 Holographic Communications

6.5.3 Space-based RIS Networks

6.5.4 AI and Machine Learning in RIS Control

6.5.5 RIS for Terahertz and Optical Wireless Communications

6.5.6 Biological and Health Implications of Large-Scale RIS Deployment

7 STANDARDIZATION AND REGULATORY ENVIRONMENT

7.1 Current Standards Related to RIS

7.2 Spectrum Allocation and Management

7.2.1 Safety and Electromagnetic Compatibility Regulations

7.2.2 Data Privacy and Security Considerations

8 ENVIRONMENTAL AND SUSTAINABILITY CONSIDERATIONS

8.1 Energy Efficiency of RIS-enabled Networks

8.2 Life Cycle Assessment of RIS Technologies

8.3 E-waste Management and Recycling

8.4 Sustainable Manufacturing Practices

8.5 RIS Role in Smart Grid and Energy Management

8.6 Environmental Impact of Large-Scale RIS Deployment

9 CHALLENGES AND LIMITATIONS

9.1 Technical Challenges in RIS Implementation

9.2 Scaling Up Production and Cost Reduction

9.3 Integration with Existing Infrastructure

9.4 Performance in Complex Environments

9.5 Security and Privacy Concerns

10 COMPANY PROFILES (19 company profiles)

For more information about this report visit https://www.researchandmarkets.com/r/9st4qt

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