市場調査レポート

WSNの発展:ユビキタスセンサーネットワークの技術と市場

WSN Evolution: Ubiquitous Sensor Network - Technologies and Markets

発行 Practel, Inc. 商品コード 124632
出版日 ページ情報 英文
納期: 即日から翌営業日
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WSNの発展:ユビキタスセンサーネットワークの技術と市場 WSN Evolution: Ubiquitous Sensor Network - Technologies and Markets
出版日: 2010年07月12日 ページ情報: 英文

当商品の販売は、2016年07月01日を持ちまして終了しました。

概要

当レポートでは、ワイヤレスセンサーネットワーク(WSN)のマーケティングおよび技術特徴について分析し、ネットワークの可能性などユビキタスセンサーネットワーク(USN)を導くWSNの発展経路を示しており、主なUSN機能、規格およびアプリケーションなどを分析し、WSN/USN実行の課題、環境発電市場の特徴をまとめ、概略下記の構成でお届けいたします。

第1章 イントロダクション

第2章 ワイヤレススマートセンサー技術

  • ワイヤレススマートセンサーと機能
  • 分類
  • 詳細
  • ネットワーキング
  • パラメーター
  • 規格:IEEE1451
  • アプリケーション
  • 市場分類
  • SSベンダー

第3章 ユビキタスセンサーネットワーク(USN)

  • 概要
  • 定義・目標
  • 構造
  • タスク
  • 比較
  • 想定されるアプリケーション
  • 規格化活動
  • IETFおよびIP/WSN
  • IP-WSNの主な特徴
  • IPSOアライアンス(スマートオブジェクト向けIP)

第4章 グリーンWSN

  • 方式
  • 電池
  • 環境発電技術

第5章 結論

付録?:USNアプリケーションの例

図表

目次

This report continues Practel projects that analyze Wireless Sensors Networks (WSNs) marketing and technological characteristics. It also shows that the WSN evolution path leads to Ubiquitous Sensor Network (USN); such a network will, eventually, create connectivity with millions of smart sensors that can provide detailed information to users regarding various events and their parameters anywhere in the Earth. Major USN features, standards and applications are also analyzed.

Particular, the report emphasizes:

1. Technology allows now to build multi-purpose miniaturized smart sensors with various types of radios. Smart sensors have enough computing power to process row data; and they consume very little energy. The report concentrates on the standardization work, technological advances and WSN marketing characteristics. A detailed survey of the industry is also included.

2. This report also addresses the Ubiquitous Sensor Network technologies and markets. As it is envisioned at the present time, USN services will be supported by multiple technologies, including:

  • Wireless and wired smart sensors
  • Further miniaturization and smart packaging of ICs
  • Self-organization and self-healing network topologies
  • Utilization of nodes with ultra-low power consumption
  • Utilization of wireless technologies with power scavenging for maintenance-free services.

The report concentrates on the analysis of these USN components as well as on USN applications. It also addresses WSN-IP and the progress in bringing such small devices as sensors into the IP world.

3. The report addresses WSN/USN implementation issues; it shows that such huge an infrastructure as USN cannot be effectively maintained without developing self-powered nodes. The power scavenging industry features are analyzed; and results of vendors' survey are included.

Table of Contents

1.0 Introduction

  • 1.1 General
  • 1.2 Developments
  • 1.3 Scope
  • 1.4 Structure
  • 1.5 Research Methodology
  • 1.6 Target Audience

2.0 Wireless Smart Sensor Technology

  • 2.1 Wireless Smart Sensor Structure and Functionality
  • 2.2 Classification
  • 2.3 Details
    • 2.3.1 WSN-SS
    • 2.3.2 Requirements
  • 2.4 Networking
    • 2.4.1 Features of Mesh Structures
    • 2.4.2 Benefits and Limitations
  • 2.5 Parameters
  • 2.6 Standardization: IEEE 1451
    • 2.6.1 General
    • 2.6.2 Family
    • 2.6.3 Overview
  • 2.7 Applications
    • 2.7.1 General
    • 2.7.2 Applications Examples
  • 2.8 Market Characteristics
    • 2.8.1 General
    • 2.8.2 Market Estimate
    • 2.8.3 Trends
  • 2.9 SS Vendors
    • BAE Systems
    • BBN (RAYTHEON)
    • Crossbow (WSN)
    • Crane (WSN-ZigBee)
    • Dust Networks (UGS-Mesh)
    • Elta (SS)
    • Exensor (SS)
    • Intel (Chipsets)
    • Freescale (sensors)
    • Harris (SS)
    • IWT (Mesh)
    • L3 (SS)
    • McQ (SS)
    • MeshDynamics (Mesh)
    • Millennial Net (Mesh-SS)
    • MeshNetics-Atmel (WSN Software)
    • Newtrax (WSN-mesh, SS)
    • Nelco (SS)
    • NorthropGrumman (SS)
    • Octave Technologies (SW, WSN)
    • Qual-Tron (SS)
    • Rheinmetall (SS)
    • Selex Galileo (SS)
    • Sensicast (WSN)
    • Strix (Mesh)
    • Telonics
    • TextRon (SS)
    • Thales (SS)
    • Trident (SS-UWB)
    • Zeltech

3.0 Ubiquitous Sensor Network (USN)

  • 3.1 General
  • 3.2 Definition and Goals
  • 3.3 Structure
  • 3.4 Task
  • 3.5 Comparison
  • 3.6 Envisioned Applications
    • 3.6.1 Environment - Climate Change
  • 3.7 Standardization Activity
    • 3.7.1 Layered Structure
    • 3.7.2 ITU-T
    • 3.7.3 ISO
  • 3.8 IETF and IP/WSN
    • 3.8.1 Major Projects
      • 3.8.1.1 6LoWPAN WG
      • 3.8.1.2 6LoWPAN Development
      • 3.8.1.3 NanoStack
      • 3.8.1.4 Details
    • 3.8.2 ROLL WG
  • 3.9 Major Characteristics of IP-WSN
  • 3.10 IPSO Alliance (IP for Smart Objects)

4.0 Green WSN

  • 4.1 Methods
  • 4.2 Batteries
  • 4.3 Power Harvesting Technologies
    • 4.3.1 USN 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
    • 4.3.3 Green Technologies Requirements
    • 4.3.4 Self-powered Nodes
    • 4.3.5 Industry
    • 4.3.6 Vendors
  • Advanced Cerametrics
  • AmbioSystems
  • Ambient Micro
  • Arch Rock
  • Crownlite
  • Cymbet
  • EnOcean
    • The Company
    • EnOcean Alliance
    • Standard
      • Features
    • Drivers
    • Details
      • Framework
    • Generations
    • Profiles
    • Benefits
    • Unions
    • Market Estimate
    • Industry
      • BSC Magnum
      • Beckhoff
      • Echoflex
      • Illumra
      • Leviton
      • Thermokon
  • Intel
  • GreenPeak
  • GreyStone
  • JDL
  • Jennic
  • KCF
  • Linear Technology
  • Micropelt
  • Mide
  • MicroStrain
  • Nextreme
  • Nokia
  • Perpetuum
  • Perpetua
  • Powercast
  • Schneider Electric
  • SensorDinamics
  • Sensinode
  • Sentilla
  • TI
  • Zarlink Semiconductor

5.0 Conclusions

Appendix I: USN Applications Samples

FIGURES

  • Figure 1: Two Groups
  • Figure 2: SS-Functions
  • Figure 3: SS Technologies
  • Figure 4: WSN-SS Node
  • Figure 5: Examples of WSN Applications
  • Figure 6: TAM: Commercial Segment WSS Equipment Sale ($B)
  • Figure 7: TAM: Commercial Segment WSS Equipment Sale (M Units)
  • Figure 8: SS Market Geographical Segmentation
  • Figure 9: SS Network Sizing
  • Figure 10: Examples-USN Services
  • Figure 11: Functionalities
  • Figure 12: Energy Requirements
  • Figure 13: TAM: EnOcean Industry Equipment Sale ($M)
  • Figure 14: TAM: EnOcean Industry Equipment Sale (Mil. Units)

TABLES

  • Table 1: SS Node-Price Components
  • Table 2: Sources
  • Table 3: Data: Illustration
  • Table 4: Methods
  • Table 5: Major Features
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