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Research Roadmap

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Research Roadmap

Research Roadmap and Strategic Directions 

Our research is guided by shared goals across academic, technological, social, and economic domains, and grounded in global collaboration. It advances fundamental understanding and develops transformative technologies. This work contributes to future innovation and the evolution of global technology. 

  • GROUP 1

    Hyper Resolution
    Sensing

    1. AI-Driven Radio Sensing
    2. Real-Time Digital Twins
    3. Quantum-Radio Fusion

    STEP 01

    AI-Driven Radio Sensing
    • Develop Sensor-Fusion Technologies that Integrate Radio Sensing and Image Processing
    • Enhance Resolution through Multi-Sensor Fusion
    • Develop Mapping Technologies using Sensor-Fusion Data

    STEP 02

    Real-Time Digital Twins
    • Build AI-Based, Ultra-Low-Latency, End-to-End Digital Twins
    • Predict 3D Occupancy and Semantic Information using Sensor-Fusion Data for Digital-Twin Implementation
    • Establish a Multi-Sensor Sensing Testbed

    STEP 03

    Quantum-Radio Fusion
    • Develop and Field-Test Core Fallback and Fail-safe Perception Technologies for Digital-Twin Systems
    • Develop Hybrid Quantum-Radio Fusion Sensing Technologies
    • Optimize and Commercialize Technologies that Integrate Radio, AI, and Quantum Sensing
  • GROUP 2

    Hyper Connectivity
    Communications

    1. AI Ultra-Reliable Systems
    2. AI Hyper-Connected Systems
    3. AI Commercialization

    STEP 01

    AI Ultra-Reliable Systems
    • Design AI-Driven High-Reliability Coverage Technologies for Next-Generation Communications
    • Develop AI-Driven Combinatorial Optimization Technologies for Next-generation Communications
    • Design Adaptive-Ciphering Encryption Methods

    STEP 02

    AI Hyper-Connected Systems
    • Design AI-Driven Hyper-Connectivity Assurance Technologies for Next-Generation Communications
    • Develop AI-Driven Distributed Optimization Technologies for Next-Generation Communications
    • Analyze and Optimize Vulnerabilities in the Proposed Adaptive-Ciphering Scheme

    STEP 03

    AI Commercialization
    • Optimize and Commercialize the Proposed AI-Driven Wireless Transmission Technologies
    • Develop Lightweight AI Optimizers and Wireless Learning Technologies for Next-Generation Communications
    • Design and Commercialize Lightweight Adaptive-Ciphering Technologies
  • GROUP 3

    Hyper Intelligence
    Systems

    1. Upper-Mid Band Circuits
    2. Hardware Prototype
    3. Sub-THz & 6G Platform

    STEP 01

    Upper-Mid Band Circuits
    • Develop High-Performance Upper-Mid Band Antennas and Reconfigurable Metasurfaces
    • Design High-Efficiency Upper-Mid Band Transceiver Circuits
    • Develop AI-Driven, Hardware-Friendly System Reconfiguration Algorithms

    STEP 02

    Hardware Prototype
    • Develop Integrated Upper-Mid Band Hardware Technologies and Sub-THz Component Technologies
    • Advance Ultra-High-Speed Transceiver Circuits
    • Develop Sub-THz Band Core Circuits
    • Design AI-Driven Adaptive Baseband Processors

    STEP 03

    Sub-THz & 6G Platform
    • Develop and Optimize Sub-THz Radio Control Technologies
    • Research Integration and Optimization of Sub-THz Transceiver Circuits
    • Develop an AI-Driven, High-Reliability 6G Integrated Demonstration Platform
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