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市場調查報告書

5G及觸覺網際網路:新興技術、解決方案、市場機會

5G and the Haptic Internet: Emerging Technologies, Solutions and Market Opportunities

出版商 Mind Commerce 商品編碼 345606
出版日期 內容資訊 英文 40 (plus bonus 127 page report)
商品交期: 最快1-2個工作天內
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5G及觸覺網際網路:新興技術、解決方案、市場機會 5G and the Haptic Internet: Emerging Technologies, Solutions and Market Opportunities
出版日期: 2015年11月25日 內容資訊: 英文 40 (plus bonus 127 page report)
簡介

本報告提供5G觸覺網際網路帶來的影響及新應用、服務的市場機會的相關調查,觸覺網際網路的技術,社會影響,市場與應用,及課題與解決方案等相關資料彙整。

第1章 簡介

第2章 觸覺網際網路及技術

  • 觸覺網際網路的展望
  • 被要求的基礎設施
  • 觸覺網際網路的生態系統及影響
  • 智慧欄
  • 行動網路邊界運算 (MEC)
  • 聯網物件
  • NFV、SDN,及SON
  • HIGHLY ADAPTIVE ENERGY EFFICIENT COMPUTING (HAEC)

第3章 觸覺通訊的社會影響

  • 終生學習生態系統
  • 自我決策生命生態系統
  • 舒適的安全範圍
  • 協同交通網路
  • 節能城市

第4章 觸覺網際網路的啟用

  • 遙控
  • 任何地點觸控發送
  • 同時音訊、視訊及觸控
  • 自主機器人、無人機
  • 智慧城市解決方案
  • 智慧套件解決方案
  • IoT及M2M通訊
  • 大規模雲端

第5章 觸覺網際網路市場及應用

  • 觸覺應用市場規模的預測
  • 產業IoT
  • 機器人工學
  • 遠距臨場系統
  • 虛擬現實
  • 擴增實境 (AR)
  • 遊戲
  • 醫療解決方案
  • 智慧電網
  • 交通管理
  • 運動
  • 教育、文化
  • 批次式製造
  • 遙控航空器

第6章 觸覺網際網路的課題及解決方案

  • 即時課題
  • 觸覺設備、編解碼器
  • 多模態感測
  • 控制穩定性
  • 超可靠性
  • 超反應性連接性
  • 無線資源被要求的分配
  • 協同多用戶觸覺通訊 (CMUHC)
  • 感測、工作
  • 經驗品質 (QOE)

圖表

目錄

Most people are familiar with Haptic technology by way of the kinesthetic user interface for smart phones or other consumer electronics that recreates a sense of touch by applying forces, vibrations, or motions to the user. Conversely, haptic devices may incorporate tactile sensors that measure forces exerted by the user on the interface. The fifth generation (5G) of cellular is widely anticipated as a game changer for many reasons including a few low-latency dependent applications such as those that utilize Haptic Internet.

Next generation Internet applications will be tactile and responsive to non-verbal communication in which remote users will be able to enjoy haptic experiences through real-time interactive systems. Aided by 5G networks, haptic systems and applications will facilitate transmission of touch and actuation in real-time, leading to a new class of highly interactive and engaging services generally referred to as Haptic Communications. It is expected that commercialization of 5G will allow the Haptic Internet to go mainstream as applications become available on an anytime, anywhere basis.

This report evaluates haptic technology, impact of 5G on Haptic Internet, and related market opportunities for new applications and services. Purchasers of this report are entitled to the complementary report 5G Technology Assessment, Market Outlook, and Forecasts 2015 - 2030 at no additional cost. Haptic Internet applications are considered across different industry verticals and use cases. All purchases of Mind Commerce reports includes time with an expert analyst who will help you link key findings in the report to the business issues you're addressing. This needs to be used within three months of purchasing the report.

Target Audience:

  • Mobile network operators
  • 5G infrastructure suppliers
  • Wireless device manufacturers
  • Big Data and analytics companies
  • Next generation Internet app developers
  • Semiconductor and embedded companies
  • M2M and Internet of Things (IoT) companies
  • Next generation augmented reality providers
  • Next gen content, commerce, and app companies
  • Enterprise in all market segments and industry verticals

Table of Contents

1.0 INTRODUCTION

  • 1.1 5G GLOBAL VISION
  • 1.2 5G STANDARDIZATION AND REQUIREMENTS
  • 1.3 5G NETWORK AND TACTILE INTERNET
  • 1.4 TACTILE INTERNET ARCHITECTURE
  • 1.5 EMERGENCE OF HAPTIC COMMUNICATION
  • 1.6 CONTENT TO CONTROL FRAMEWORK
  • 1.7 MOVING TO VIRTUAL HAPTIC NETWORK

2.0 HAPTIC INTERNET AND TECHNOLOGY

  • 2.1 HAPTIC INTERNET VISION
  • 2.2 REQUIRED INFRASTRUCTURE
    • 2.2.1 CONNECTIVITY
    • 2.2.2 LATENCY AND RELIABILITY
    • 2.2.3 SYSTEM ARCHITECTURE
    • 2.2.4 HIGH SECURITY 16
    • 2.2.5 SENSORS AND ACTUATORS
    • 2.2.6 NETWORK ACCESS
    • 2.2.7 MOBILE EDGE AND CLOUD
  • 2.3 HAPTIC INTERNET ECOSYSTEM AND IMPACT
  • 2.4 SMARTRAN
  • 2.5 MOBILE EDGE COMPUTING (MEC)
  • 2.6 CONNECTED THINGS
  • 2.7 NFV, SDN, AND SON
  • 2.8 HIGHLY ADAPTIVE ENERGY EFFICIENT COMPUTING (HAEC)

3.0 SOCIETAL IMPACT OF HAPTIC COMMUNICATIONS

  • 3.1 LIFELONG LEARNING ECOSYSTEM
  • 3.2 SELF DETERMINED LIFE ECOSYSTEM
  • 3.3 COMFORT SAFE ZONE
  • 3.4 COOPERATIVE TRAFFIC NETWORK
  • 3.5 ENERGY EFFICIENT CITY

4.0 HAPTIC INTERNET ENABLERS

  • 4.1 REMOTE CONTROL
  • 4.2 EVERYWHERE TOUCH TRANSMISSION
  • 4.3 AUDIO, VIDEO AND TOUCH TOGETHER
  • 4.4 AUTONOMOUS ROBOTS AND DRONES
  • 4.5 SMART CITY SOLUTION
  • 4.6 SMART SUITE SOLUTION
  • 4.7 IOT AND M2M COMMUNICATION
  • 4.8 MASSIVE CLOUD

5.0 HAPTIC INTERNET MARKET AND APPLICATIONS

  • 5.1 HAPTIC APPLICATION MARKET SIZE THROUGH 2025
  • 5.2 INDUSTRIAL IOT
  • 5.3 ROBOTICS
  • 5.4 TELEPRESENCE
  • 5.5 VIRTUAL REALITY
  • 5.6 AUGMENTED REALITY (AR)
  • 5.7 GAMING
  • 5.8 HEALTHCARE SOLUTIONS
  • 5.9 SMARTGRID
  • 5.10 TRAFFIC CONTROL
  • 5.11 SPORTS
  • 5.12 EDUCATION AND CULTURE
  • 5.13 BATCH MANUFACTURING
  • 5.14 REMOTE AIRCRAFT

6.0 HAPTIC INTERNET CHALLENGES AND SOLUTIONS

  • 6.1 REAL-TIME CHALLENGES
  • 6.2 HAPTIC DEVICES AND CODECS
  • 6.3 MULTI-MODAL SENSING
  • 6.4 CONTROL STABILITY
  • 6.5 ULTRA-RELIABILITY
  • 6.6 ULTRA-RESPONSIVE CONNECTIVITY
  • 6.7 REQUIRED ALLOCATION OF RADIO RESOURCE
  • 6.8 COLLABORATIVE MULTIUSER HAPTIC COMMUNICATIONS (CMUHC)
  • 6.9 SENSING AND ACTUATION
  • 6.10 QUALITY-OF-EXPERIENCE (QOE)

Figures

  • Figure 1: 5G Technology and Service Vision
  • Figure 2: 5G Standardization and Timeline 2008 - 2021
  • Figure 3: 5G Technological Components and Requirements
  • Figure 4: Tactile Internet and Haptic Communication Architecture
  • Figure 5: Tactile Internet Content to Control Framework
  • Figure 6: Virtual Haptic Network Structure
  • Figure 7: Human Interaction Time and Haptic Internet Vision
  • Figure 8: Latency Requirements for Haptic Internet
  • Figure 9: Haptic Network System Architecture
  • Figure 10: SmartRAN Architecture
  • Figure 11: Highly Adaptive Energy Efficient Computing (HAEC) Architecture
  • Figure 12: Haptic VR Simulation over Shared Haptic Virtual Environment
  • Figure 13: Haptic AR Assistance for Drivers
  • Figure 14: Haptic Training in Adaptive and Personalized Fashion
  • Figure 15: Smart Grid Architecture with 1 ms Latency
  • Figure 16: Cooperative Haptic Network of Vehicle
  • Figure 17: Haptic Application of Sports
  • Figure 18: Haptic Virtual Overlay
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