NEWS: 公告在東京證券交易所JASDAQ標準市場新上市

表紙
市場調查報告書

醫療保健部門中無線ICT所扮演的角色:M2M、WBAN、基礎技術

Role of Wireless ICT in Healthcare: M2M, WBAN and Underlying Technologies - Standardization, Trends and Markets

出版商 PracTel, Inc. 商品編碼 968822
出版日期 內容資訊 英文 191 Pages
商品交期: 最快1-2個工作天內
價格
醫療保健部門中無線ICT所扮演的角色:M2M、WBAN、基礎技術 Role of Wireless ICT in Healthcare: M2M, WBAN and Underlying Technologies - Standardization, Trends and Markets
出版日期: 2020年10月25日內容資訊: 英文 191 Pages
簡介

本報告提供醫療保健部門無線ICT的市場調查,M2M,WBAN (Wireless Body Area Network)、WMBAN (Medical Body Area Network)的標準化趨勢,基礎技術趨勢,相關專利趨勢,主要企業與所做的努力,未來展望等資訊彙整。

第1章 簡介

第2章 WBAN/WMBAN:功能、標準化

  • 定義
  • 概要
  • 分類
    • 各用途
    • 各傳送媒體
    • 各節點數
    • 各環境
    • 各無線類型
    • 各地方
    • 各應答
    • 各用戶條件
    • 各頻譜
  • FCC法規:頻寬
  • 標準化
    • IEEE 802.15.6
    • IEEE 802.15.4j:MBAN
    • ISO/IEEE11073:個人健康資料
  • 市場分析
  • ETSI eHealth
    • ETSI TR 101557 V1.1.1 (2012-02):MBANS
  • WBAN的主要用途
    • 醫療保健
    • 健康
    • 初期應變人員、軍隊
  • 企業
    • AirStrip Technologies
    • GE
    • Intel
    • Medtronic
    • Nokia
    • Siemens
    • Sotera Wireless
    • Sensium
    • Vivago
    • VitaMove
  • 摘要:現在、未來趨勢

第3章 基礎技術

  • IEEE 802.15.1 (Bluetooth-BT)
  • ZigBee
  • 低功率Wi-Fi
  • Z-Wave
  • Continua Health Alliance

第4章 自我發電無線感測器

  • 手法
  • 電池
  • 電力擷取技術
    • 節點
    • 能源來源
  • 綠色技術的特長、必要條件

第5章 醫療WICT、M2M通訊

  • M2M詳細內容
  • M2M的標準化
  • 醫療保健M2M分析
  • 主要企業
    • Aeris
    • Iota
    • Kore Telematics
    • Libelium
    • Sigfox
    • Wireless Logic
    • Whiznets
  • M2M的市場、用途
    • 情形
    • 結構
    • 統計

第6章 總論

附加頁I:IEEE 802.15.4a-2007

附加頁II:MBAN相關的專利調查

附加頁III:802.11ah相關的專利調查

目錄

This report reviews, updates and extends the Practel M2M/IoT project that has been launched a couple years ago. In particular, it concentrates on the fast-growing healthcare and related to healthcare segments of M2M/IoT communications.

Ambient Intelligence is a vision where environment becomes smart, friendly, context-aware and responsive to any type of human needs. In such a world, computing and networking technology coexist with people in a ubiquitous, friendly and pervasive way. Numerous miniature and interconnected smart devices create a new intelligence and interact with each other seamlessly. For healthcare, this translates into proliferation of remote monitoring and telemedicine supported by M2M/IoT networking.

The report addresses recent advances in wireless communications technologies for medical/fitness applications.

Particular, it analyzes the following related developments:

  • Status of M2M standardization, market and development in general and specifically for medical/wellness applications
  • Development and standardization of the Wireless Body Area Network (WBAN) and Medical Body Area Network (WMBAN), including their markets specifics.

Underlying technologies:

  • Bluetooth and its Medical Profile
  • ZigBee and its Medical Profile
  • Wi-Fi low-power consumption technology
  • Z-Wave
  • Self-powered wireless sensors
  • Continua Health Care Alliance activities in the selection of WICT for healthcare
  • Survey of related industries
  • Estimate of related market segments.

The report emphasizes the necessity of further proliferation standardized wireless communications in medicine and wellness to reduce the cost and enhance quality of services.

It also includes the survey of patents related to the discussed subjects.

The report is written for service providers, IT departments of hospitals and other medical organizations, retail operators, vendors, network operators and managers, investors and end users seeking to gain a deeper understanding of new trends in wireless communications medical/wellness applications.

For systems integrators, the report provides an analysis and assessment of competing products currently available as well as an estimation of the overall opportunities in the coming years.

Table of Contents

1.0. Introduction

  • 1.1. General
  • 1.2. Scope
    • 1.2.1. Choices
  • 1.3. Status
  • 1.4. Requirements
  • 1.5. WBAN - WMBAN
  • 1.6. Bluetooth
  • 1.7. ZigBee
  • 1.8. Wi-Fi
  • 1.9. Demand
  • 1.10. Crisis
  • 1.11. Focus
  • 1.12. Research Methodology
  • 1.13. Target Audience

2.0. WBAN/WMBAN - Features and Standardization

  • 2.1. General
  • 2.2. Reasons
  • 2.3. Definition
    • 2.3.1. Structure
  • 2.4. Overview
    • 2.4.1. WBAN Requirements
  • 2.5. Groups
    • 2.5.1. By Application
    • 2.5.2. By Transmission Medium
    • 2.5.3. By Number of Nodes
    • 2.5.4. By Environment
    • 2.5.5. By Radio Type
    • 2.5.6. By Place
    • 2.5.7. By Response
    • 2.5.8. By User Condition
    • 2.5.9. By Frequency Spectrum
  • 2.6. FCC Regulations-Frequency Spectrum
  • 2.7. Standardization
    • 2.7.1. General
    • 2.7.2. IEEE 802.15.6
      • 2.7.2.1. Scope
      • 2.7.2.2. Status
      • 2.7.2.3. Structure
      • 2.7.2.4. Major Characteristics
        • 2.7.2.4.1. Specifics
        • 2.7.2.4.2. Overview
          • 2.7.2.4.2.1. Technology Characterization
      • 2.7.2.5. IEEE 802.15.6: Major Points
        • 2.7.2.5.1. Areas of Applications
        • 2.7.2.5.2. Physical Layers
          • 2.7.2.5.2.1. Narrow Band
          • 2.7.2.5.2.2. UWB PHY
          • 2.7.2.5.2.3. HBC PHY
        • 2.7.2.5.3. MAC
        • 2.7.2.5.4. Security
        • 2.7.2.5.5. Power Savings
      • 2.7.2.6. Summary
    • 2.7.3. IEEE 802.15.4j - Medical BAN (MBAN)
      • 2.7.3.1. Scope
      • 2.7.3.2. Differences
      • 2.7.3.3. Timeline
      • 2.7.3.4. Characteristics
        • 2.7.3.4.1. Spectrum and Channel Plan
        • 2.7.3.4.2. Major Parameters
      • 2.7.3.5. Benefits
    • 2.7.4. ISO/IEEE 11073 - Personal Health Data
      • 2.7.4.1. Family
      • 2.7.4.2. IEEE 11073 Scope
  • 2.8. Market Considerations
  • 2.9. ETSI eHealth
    • 2.9.1. Scope
    • 2.9.2. ETSI TR 101 557 V1.1.1 (2012-02) - MBANS
      • 2.9.2.1. General
      • 2.9.2.2. ETSI - MBANS
      • 2.9.2.3. Market Characteristics
      • 2.9.2.4. Technical Details
  • 2.10. Major WBAN Applications
    • 2.10.1. Healthcare
    • 2.10.2. Wellness
    • 2.10.3. First Responders and Military
  • 2.11. Industry
    • AirStrip Technologies
    • GE
    • Intel
    • Medtronic
    • Nokia
    • Siemens
    • Sotera Wireless
    • Sensium
    • Vivago
    • VitaMove
  • 2.12. Summary: WBAN Current and Future Trends

3.0. Underlying Technologies

  • 3.1. IEEE 802.15.1 (Bluetooth-BT)
    • 3.1.1. BT Protocol Stack
      • 3.1.1.1. Transport layer
        • 3.1.1.1.1. Radio Layer
        • 3.1.1.1.2. Baseband and Link Manager Layers
      • 3.1.1.2. Middleware Layer
    • 3.1.2. Profiles
    • 3.1.3. Power Consumption - ULP/BLE
    • 3.1.4. Health Device Profile
      • 3.1.4.1. IEEE 11073 and BT
    • 3.1.5. Highlights
      • 3.1.5.1. The Standard:
      • 3.1.5.2. The Technology:
    • 3.1.6. Evolution
      • 3.1.6.1. BT v2.1
      • 3.1.6.2. BT v3.0
      • 3.1.6.3. BT v4.0 and Further Development
      • 3.1.6.4. BT v5.0, v5.1 and v5.2
    • 3.1.7. Market Estimate
    • 3.1.8. BT Industry-HDP
      • Cambridge Consultants
      • Continua (now part of PCHA)
      • Laird Technologies
      • Nonin
      • Nordic Semiconductor
      • Silicon Labs
  • 3.2. ZigBee
    • 3.2.1. General
    • 3.2.2. Technology
      • 3.2.2.1. Major Features
    • 3.2.3. Device Types
    • 3.2.4. Protocol Stack
      • 3.2.4.1. Physical and MAC Layers - IEEE802.15.4
        • 3.2.4.1.1. Frame
      • 3.2.4.2. Upper Layers
        • 3.2.4.2.1. Network Layer Responsibilities
        • 3.2.4.2.2. Application Layer
    • 3.2.5. Interoperability
    • 3.2.6. Security
    • 3.2.7. Platform Considerations
      • 3.2.7.1. Battery Life
    • 3.2.8. ZigBee Technology Benefits and Limitations
    • 3.2.9. Standardization Process
      • 3.2.9.1. ZigBee Alliance
        • 3.2.9.1.1. Objectives
      • 3.2.9.2. IEEE 802.15.4-2015 and ZigBee
        • 3.2.9.2.1. IEEE 802.15.4 Radio
    • 3.2.10. Applications Specifics
      • 3.2.10.1. Personal, Home and Hospital Care (PHHC) Profile -ZigBee Healthcare
        • 3.2.10.1.1. Objectives
        • 3.2.10.1.2. Details
        • 3.2.10.1.3. Use Cases
    • 3.2.11. Market
      • 3.2.11.1. Segments
      • 3.2.11.2. Forecast
    • 3.2.12. Industry
      • CEL (modules)
      • Digi (Radio, Medical Application)
      • Lamprey Networks, Inc. (LNI)
      • Microchip
      • NXP
      • Philips Applied Technologies (Healthcare)
      • Renesas (Platforms)
      • Silicon Laboratories (Chipsets, Modules, Medical)
      • Synapse (Modules, Protocols)
      • TI (Chipsets)
      • Qorvo (Modules)
  • 3.3. Low-power Consumption Wi-Fi
    • 3.3.1. General
    • 3.3.2. 802.11ah (Wi-Fi HaLow)
      • 3.3.2.1. Standard
      • 3.3.2.2. Goal and Schedule
      • 3.3.2.3. Attributes
      • 3.3.2.4. Use Cases
      • 3.3.2.5. PHY
        • 3.3.2.5.1. Bandwidth
        • 3.3.2.5.2. Channelization
        • 3.3.2.5.3. Transmission Modes and MIMO
      • 3.3.2.6. MAC Layer
    • 3.3.3. Summary
    • 3.3.4. Marketing Data
    • 3.3.5. Industry
      • Microchip
      • Morse Micro
      • Newracom-Aviacomm
      • Orca Systems
      • Telit (former GainSpan)
  • 3.4. Z-Wave
    • 3.4.1. General
    • 3.4.2. Z-Wave Alliance
    • 3.4.3. Benefits
    • 3.4.4. Details
      • 3.4.4.1. Background
      • 3.4.4.2. Characteristics
      • 3.4.4.3. G.9959
    • 3.4.5. Advanced Energy Control Framework
      • 3.4.5.1. Further Enhancements
    • 3.4.6. Selected Vendors
      • Aeon Labs-Aeotec
      • NorthQ
      • Vera Control
    • 3.4.7. Market Estimate
      • 3.4.7.1. Model
      • 3.4.7.2. Results
  • 3.5. Selection - Continua Health Alliance
    • 3.5.1. General
    • 3.5.2. Continua Design Guidelines (CDG)

4.0. Self-powered Wireless Sensors

  • 4.1. Methods
  • 4.2. Batteries
  • 4.3. Power Harvesting Technologies
    • 4.3.1. Nodes
    • 4.3.2. Energy Sources
      • 4.3.2.1. General
        • 4.3.2.1.1. Solar Energy
        • 4.3.2.1.2. Thermoelectric
        • 4.3.2.1.3. Mechanical
        • 4.3.2.1.4. RF Power
      • 4.3.2.2. Summary
  • 4.4. Green Technologies Features and Requirements

5.0. Medical WICT and M2M Communications

  • 5.1. M2M Specifics
    • 5.1.1. Definition and Process
    • 5.1.2. Statistics
    • 5.1.3. Properties
    • 5.1.4. P2P and M2M
    • 5.1.5. Choices
      • 5.1.5.1. Cellular
      • 5.1.5.2. Short-range
      • 5.1.5.3. Open Standard
    • 5.1.6. Challenges
    • 5.1.7. Advances
      • 5.1.7.1. Examples
  • 5.2. M2M Standardization
    • 5.2.1. Health Care Specifics
    • 5.2.2. OneM2M Alliance
      • 5.2.2.1. Varieties
      • 5.2.2.2. Service Layer Architecture
      • 5.2.2.3. Benefits
      • 5.2.2.4. oneM2M Standards
    • 5.2.3. M2M Alliance
    • 5.2.4. Open Mobile Alliance (OMA)
    • 5.2.5. ETSI
      • 5.2.5.1. Efforts
      • 5.2.5.2. Architecture
      • 5.2.5.3. Use Case-Healthcare
    • 5.2.6. ITU
      • 5.2.6.1. ITU-T Focus Group - Healthcare
    • 5.2.7. Global M2M Association (GMA)
    • 5.2.8. IETF and IP/WSN
      • 5.2.8.1. Major Projects
        • 5.2.8.1.1. 6LoWPAN WG
        • 5.2.8.1.2. ROLL WG
    • 5.2.9. Summary
  • 5.3. Healthcare-M2M Specifics
    • 5.3.1. Role
    • 5.3.2. Monitoring
    • 5.3.3. Cost
    • 5.3.4. Advantages
      • 5.3.4.1. General
      • 5.3.4.2. Savings
      • 5.3.4.3. Categories and Benefits Details
    • 5.3.5. Components
    • 5.3.6. Examples
    • 5.3.7. Issues
  • 5.4. M2M Industry
    • Aeris
    • Iota
    • Kore Telematics
    • Libelium
    • Sigfox
    • Wireless Logic
    • Whiznets
  • 5.5. M2M Markets and Applications
    • 5.5.1. Situation
    • 5.5.2. Structure
    • 5.5.3. Statistics

6.0. Conclusions

Attachment I: IEEE 802.15.4a-2007

Attachment II: MBAN - related Patents Survey (2017-2020)

Attachment III: 802.11ah - related Patents Survey (2017-2020)

List of Figures

  • Figure 1: WBAN Illustration
  • Figure 2: Intelligent Sensor
  • Figure 3: WBAN Characteristics
  • Figure 4: IEEE 802.15.6: Process
  • Figure 5: 802.15.6 - PHY and MAC
  • Figure 6: IEEE 802.15.6 Areas of Applicability
  • Figure 7: Network Topology
  • Figure 8: ISO/IEEE 11073 Protocol Family
  • Figure 9: Estimate: U.S. Annual Healthcare Expenditures ($T)
  • Figure 10: Estimate: U.S. WBAN Equipment Sales - Medical Applications ($B)
  • Figure 11: Estimate: Global - Medical Devices Connectivity Market ($B)
  • Figure 12: Estimate: Patients Wireless Monitoring Devices Sales- Europe ($M)
  • Figure 13: Bluetooth Protocol Stack
  • Figure 14: Piconets Illustration
  • Figure 15: ULP BT Layers
  • Figure 16: BT HDP Building Blocks
  • Figure 19: BT Market Geographical Segmentation
  • Figure 20: Estimate: BT- HDP Modules Global Sales (Bil. Units)
  • Figure 21: Estimate: BT- HDP Modules Global Sales ($B)
  • Figure 22: ZigBee Channels
  • Figure 23: ZigBee Protocol Stack
  • Figure 24: Applications-Illustration
  • Figure 25: Estimate: Global Market Size - ZigBee Chips ($B)
  • Figure 26: Estimate - Global Market - ZigBee Healthcare Applications ($B)
  • Figure 27: ZigBee Market Segmentation (2020)
  • Figure 28: ZigBee Market Segmentation (2024)
  • Figure 29: Backhaul Use Case Illustration
  • Figure 30: Standardized Frequency Spectrum (sub-1 GHz)
  • Figure 31: 802.11ah - Channelization Plan in U.S.
  • Figure 32: Estimate: Low Power Consumption Wi-Fi Modules Sales - U.S. ($B)
  • Figure 33: Estimate: U.S. Small SH Z-Wave IC Market ($B)
  • Figure 34: Estimate: U.S. Large SH Z-Wave IC Market ($B)
  • Figure 35: M2M Process - Illustration
  • Figure 36: Major Layers
  • Figure 37: M2M Use Cases and ETSI Documentation
  • Figure 38: Healthcare Expenses - Percent of GDP (2019)
  • Figure 39: Annual Savings - Adoption of Remote Monitoring (Illustration)
  • Figure 40: Details
  • Figure 41: M2M Applications
  • Figure 42: Projections: M2M Traffic Growth (PB/Month)
  • Figure 43: Estimate- Global Wireless M2M Market Revenue ($B)
  • Figure 44: Estimate: Global-Healthcare Sector-M2M Communications Market ($B)

List of Tables

  • Table 1: ZigBee and 802.15.6 Radios
  • Table 2: Sensors Classification - Placing
  • Table 3: MedRadio Spectrum
  • Table 4: Allowable Power Density
  • Table 5: NB PHY Characteristics
  • Table 6: HBC Characteristics
  • Table 7: Summary - 802.15.6 Properties
  • Table 8: Modulation Parameters
  • Table 9: Transports
  • Table 10: WBAN Medical Applications
  • Table 11: Bluetooth Profiles and Protocols - Samples
  • Table 12: BT v4.2 vs v5.0
  • Table 13: ZigBee Parameters
  • Table 14: 802.11ah Features Summary
  • Table 15: Continua Design Guidelines
  • Table 16: Power Sources
  • Table 17: Data - Illustration
  • Table 18: Components
  • Table 19: Standard Bands