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市場調査レポート

M2Mエコシステム、バリューチェーン、アプリケーション、標準規格

Machine-to-Machine (M2M) Ecosystem, Value Chain, Applications and Standards

発行 Mind Commerce 商品コード 310089
出版日 ページ情報 英文 93 Pages
納期: 即日から翌営業日
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こちらの商品の販売は終了いたしました。
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M2Mエコシステム、バリューチェーン、アプリケーション、標準規格 Machine-to-Machine (M2M) Ecosystem, Value Chain, Applications and Standards
出版日: 2014年08月11日 ページ情報: 英文 93 Pages

当商品の販売は、2016年06月14日を持ちまして終了しました。

概要

M2M通信の関連アプリケーションは、ユーティリティ、医療、地方自治体サービス、保険、家電製品、自動車、資産管理、小売業において、根本的に変化しています。モノのインターネット(IoT)関連ソリューションの導入と発展によって、M2Mは拡大し、特定の市場セグメントで急成長すると予測されています。

当レポートでは、M2Mエコシステム、バリューチェーン、プラットフォームについて調査分析し、機能的な構成要素に焦点を当てて、市場参入戦略、標準規格の役割/重要性/問題点、M2MとIoT、ビジネス促進要因、市場の問題点などについて、体系的な情報を提供しています。

エグゼクティブサマリー

予測

  • M2M:業種別

業界関係者のM2Mの利点

  • 利益性
  • 経営効率
  • 競争上の優位性
  • 迅速な意思決定
  • 展開のスピード
  • 展開のコスト
  • 資産モビリティ
  • プロセス自動化
  • その他のシステムとの統合
  • モビリティ

M2M技術の拡大に対する主な障壁

  • 複雑なバリューチェーン
  • 顧客教育の欠如
  • 成功談の欠如
  • 標準規格の欠如、など

用途

  • フリート管理
  • スマート家電
  • スマートホーム
  • スマートビル
  • スマートシティ
  • 医療、など

M2Mの論理的な構成要素

  • データ取得
  • データ伝送
  • データ分析

M2Mエコシステム

M2Mバリューチェーン

無線エコシステムにおけるM2Mの役割

M2M技術の促進要因

M2Mにおける衛星の役割

無線サービスプロバイダーの選択

M2Mの開発プロジェクトの提言

M2Mの標準化

  • GSMA
  • oneM2M
  • ETSI
  • Zigbee
  • The Global M2M Association (GMA)
  • AllSeen Alliance
  • M2M World Alliance
  • European Standardization Organizations (ESO)
  • Industrial Internet Consortium (IIC)
  • ITU-T
  • 現在/将来のM2M標準規格

結論

目次

Machine-to-Machine (M2M) communications are related applications is radically changing many industries utilities, healthcare, local government services, insurance, consumer electronics, automotive, asset management and retail.

With the introduction and growth of new Internet of Things (IoT) related solutions, M2M is expected to expand and accelerate deep within certain market segments with a profound impact on how organizations do business and relate to their customers. One of the more important keys to M2M is standardization, particularly in IoT where we see delays in expansion of devices and applications due to lack of standards for interoperability, privacy, security, and intermediation

This research evaluates the M2M Ecosystem, Value Chain and Platforms. It also assesses the functional building blocks of M2M with a view towards incremental benefits. The report includes recommendations for go-to market strategies, standards role/importance/issues, M2M and Internet of Things (IoT), business drivers, and market issues. The report also includes guidelines for an enterprise to choose a service provider along with recommendations to manage M2M development projects.

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.

Table of Contents

  • 1.0. INTRODUCTION
  • 2.0. PREDICTIONS
  • 2.1. M2M in Industry Verticals
  • 2.1.1. Smart Grid
  • 2.1.2. Smart City
  • 2.1.3. Water Meters
  • 2.1.4. Smart Meters
  • 2.1.5. Healthcare
  • 2.1.6. Big Data
  • 2.1.7. Retail
  • 2.1.8. Connected People
  • 2.1.9. Connected Consumer Devices
  • 2.1.10. Connected Money
  • 2.1.11. Connected Infrastructure
  • 2.1.12. Connected Building
  • 2.1.13. Connected Vehicle
  • 2.1.14. Connected Industrial Process
  • 3.0. M2M BENEFITS FOR INDUSTRY STAKEHOLDERS
  • 3.1. Profitability
  • 3.2. Operational Efficiency
  • 3.3. Competitive advantage
  • 3.4. Quick Decision making
  • 3.5. Speed of Deployment
  • 3.6. Cost of Deployment
  • 3.7. Asset Mobility
  • 3.8. Process Automation
  • 3.9. Integration with other systems
  • 3.10. Mobility
  • 4.0. THE KEY BARRIERS TO SCALING M2M TECHNOLOGIES
  • 4.1. Complex Value Chain
  • 4.2. Lack of Customer Education
  • 4.3. Lack of Success Stories
  • 4.4. Lack of Standards
  • 4.5. Incompatible Sales Models and Long Sales Cycle
  • 5.0. APPLICATIONS
  • 5.1. Fleet Management
  • 5.2. Smart Appliances
  • 5.3. Smart Home
  • 5.4. Smart Buildings
  • 5.5. Smart City
  • 5.6. Healthcare
  • 5.7. Wearable M2M
  • 5.8. Connected Car
  • 5.9. Supply Chain
  • 5.10. Retail Point-of-Sale (POS)
  • 5.11. Retail Digital Signage
  • 5.12. Retail Connected Vending
  • 5.13. Retail Kiosks
  • 5.14. Utilities Smart Meters and Grids
  • 5.15. Usage-based Insurance
  • 5.16. Field Service
  • 5.17. Manufacturing
  • 5.18. Safety Compliance
  • 5.19. Smart Drilling
  • 5.20. Security and Surveillance
  • 5.21. Military
  • 5.22. Agriculture
  • 5.23. Environmental Monitoring
  • 5.24. Predictive Maintenance
  • 5.25. Product Monitoring
  • 7.0. LOGICAL BUILDING-BLOCKS OF M2M
  • 7.1. Data Acquisition
  • 7.2. Data Transmission
  • 7.3. Data Analysis
  • 8.0. THE M2M ECOSYSTEM
  • 8.1. End Device / Equipment
  • 8.2. Consumer
  • 8.3. Communication Link
  • 8.4. Sensor
  • 8.5. Application
  • 8.6. Middleware Platform
  • 8.7. Embedded Module
  • 8.8. SIM
  • 8.9. Complete M2M Ecosystem View
  • 9.0. M2M VALUE CHAIN
  • 10.1. Equipment Supplier
  • 10.2. Software Publisher
  • 10.3. Telecom Operator
  • 10.4. Consulting Firm
  • 10.5. Integrator
  • 10.6. Distributor
  • 10.0. M2M'S ROLE IN THE WIRELESS ECOSYSTEM
  • 10.1. M2M and Wireless Technology
  • 10.2. Vertical and Horizontal Platform
  • 11.0. M2M TECHNOLOGY DRIVERS
  • 13.2. Cost of Sensors
  • 13.3. Communication Mediums
  • 13.2.1. Cellular
  • 13.2.2. Satellite
  • 13.2.3. Wi-Fi
  • 13.2.4. Bluetooth
  • 13.2.5. ZigBee
  • 13.4. Big Data Analytics
  • 13.5. Geolocation Services
  • 13.6. Affordable Advanced Devices and Chip-sets
  • 13.5.1. M2M Devices
  • 13.7. Increased Intelligence at End-points
  • 13.8. The M2M Platform Advantage
  • 12.0. INTERNET OF THINGS (IOT)
  • 14.2. Industrial Internet of Things (IIoT)
  • 14.3. The Internet of Everything (IoE)
  • 14.4. The Government Internet of Things (GIoT)
  • 14.5. The Business Internet of Things (BIoT)
  • 13.0. ROLE OF SATELLITE IN M2M
  • 15.2. Market for Satellite Players in M2M
  • 14.0. CHOOSING A WIRELESS SERVICE PROVIDER
  • 16.2. SIM Cards
  • 16.3. Activation
  • 16.4. Billing Services
  • 16.5. Roaming
  • 16.6. SLAs
  • 16.7. Cost per SMS / Data Block
  • 16.8. SMS Data Retry Scheme
  • 16.9. Store and Forward
  • 16.10. SMS Delivery Receipt
  • 16.11. SMS with GPRS and 3G
  • 15.0. RECOMMENDATIONS FOR M2M DEVELOPMENT PROJECTS
  • 17.2. Project Manager
  • 17.3. M2M Development and Launch Plan
  • 17.4. Project's Business Model
  • 17.5. Budgetary Control
  • 17.6. Open Source M2M Frameworks for Product Development
  • 17.7. Components Selection
  • 17.8. Network Choice
  • 17.9. Secured Connectivity
  • 16.0. M2M STANDARDIZATION
  • 18.2. GSMA
  • 18.3. oneM2M
  • 18.4. ETSI
  • 18.5. Zigbee
  • 18.6. The Global M2M Association (GMA)
  • 18.7. AllSeen Alliance
  • 18.8. M2M World Alliance
  • 18.9. European Standardization Organizations (ESO)
  • 18.10. Industrial Internet Consortium (IIC)
  • 18.11. ITU-T
  • 18.12. Present and Future of standards of M2M
  • 17.0. CONCLUSIONS

Figures

  • Figure 1: Benefits of Using M2M
  • Figure 2: Key Barriers of Scaling M2M Technologies
  • Figure 3: Basic Building Blocks of M2M
  • Figure 4: M2M Ecosystem (Concise View)
  • Figure 5: M2M Ecosystem (Expanded View)
  • Figure 6: M2M Ecosystem (Further Expanded)
  • Figure 7: M2M Ecosystem (Fully Expanded)
  • Figure 8: Complete View of M2M Ecosystem
  • Figure 9: M2M Value Chain
  • Figure 10: M2M Technology Drivers
  • Figure 11: Sensors Expand to a Wide variety of Uses
  • Figure 12: M2M Communication Mediums
  • Figure 13: Difference between Bluetooth and Zigbee protocol
  • Figure 14: GPS enabled Tracking of Assets on Global Scale
  • Figure 15: Wireless Sensor Communications Module
  • Figure 16: Pre-configured Sensor Board for Agriculture
  • Figure 17: Conceptual M2M Platform
  • Figure 18: Groups driving IoT
  • Figure 19: Internet of Everything including Network Effects
  • Figure 20: Service Requirements for Planning M2M
  • Figure 21: Managing M2M Projects for Businesses
  • Figure 22: Advantages of Standards
  • Figure 23: Comparison of M2M Standards
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