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市場調查報告書
WPAN及WLAN的Sub-GHz頻段通訊:技術·市場·應用程式
WPAN and WLAN Sub-GHz Communications - Technologies, Markets, Applications
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WPAN及WLAN的Sub-GHz頻段通訊:技術·市場·應用程式 是由出版商Practel, Inc.在2012年01月所出版的。
這份英文市場調查報告書價格從美金3990起跳。
本報告提供WPAN/WLANSub-GHz頻段通訊的技術及市場相關調查,最新的發展趨勢,所說的Sub-GHz頻段的ISM頻段的無線通訊的特性和優點等分析,ZigBee,Insteon,Z-Wave及EnOcean的Sub-GHz頻段技術和相關市場,規格及應用分析,為您概述為以下內容。
第1章 簡介
第2章 頻譜及Sub-GHz通訊的優點
- ITU指定
- 傳播特性及Sub-GHz通訊的優點與限制
第3章 IEEE802.15.4g - 智慧公共事業網路
第4章 IEEE802.11ah
第5章 IEEE802.11af
- 概要:預測
- 目的
- 情形
- 不同點
- 優點
- 方法
- 利用例子
第6章 ZigBee - IEEE802.15.4
- 概要
- Sub-GHz頻段的GigBee
- ZigBee的認證
- 方法
- IEEE802.15.4 - ZigBee標準
- 應用程式方法:簡介
- 應用程式
- 市場
第7章 Ocean
- 概要
- 企業
- EnOcean聯盟
- 規劃
- 詳細技術
- 世代
- 簡介
- 優點
- 摘要
- 聯合
- 市場預測
- 產業
第8章 Z-Wave
- 概要
- Z-Wave聯盟
- 優點
- 詳細內容
- ZigBee及Z-Wave
- 高度的能源控制組成架構
- 主要的供應商
- 價格
- 市場預測:智慧住宅的Z-wave產品
第9章 Insteon
第10章 Wavenis
- 概要
- Coronis
- 進步 - 聯盟
- Wavenis的主要特徵和優點
- 摘要
第11章 結論
圖表
Abstract
Research Methodology
Considerable research was done using the Internet. Information from various
Web sites was studied and analyzed; evaluation of publicly available marketing
and technical publications was also conducted. Telephone conversations and
interviews were held with industry analysts, technical experts and executives.
In addition to these interviews and primary research, secondary sources were
used to develop a more complete mosaic of the market landscape, including
industry and trade publications, conferences and seminars.
The overriding objective throughout the work has been to provide valid and
relevant information. This has led to a continual review and update of the
information content.
Target Audience
This report provides the WPAN/WLAN sub-GHz technologies and markets analysis
and assessments; it concentrates on the recent developmental trends. The
report is useful for service providers, retail operators, vendors, network
operators and managers, investors and end users seeking to gain a deeper
understanding of WLAN/WPAN opportunities and barriers.
Brief
This report addresses properties and benefits of wireless communications in
the sub-GHz ISM bands. Particular, it stresses the importance of such
technologies in the development of HANs, Smart Grid, BA&C and other related
cases.
The following Sub-GHz technologies, related markets, standards and
applications are analyzed:
- ZigBee
- Insteon
- Z-Wave
- EnOcean
- Wavenis
- IEEE 802.15.4g
- IEEE 802.11af
- IEEE 802.11ah.
The major attractions of these sub-GHz technologies include:
- Extended range - they allow 5-10 times longer reaches in comparison with
2.4 GHz band transmissions. This is the result of smaller losses when signal
is traveling through various obstacles; besides, the sub-GHz ISM bands are
less crowded -Low power consumption
- Support of multiple applications that allow a relatively slow rate of
transmission.
The industry shows all signs of the interest in utilization of sub-GHz ISM
bands; such communications offer great opportunities that were not realized
until recently.
Table of Contents
1.0 Introduction
- 1.1 General
- 1.2 Specifics
- 1.3 Scope
- 1.4 Research Methodology
- 1.5 Target Audience
2.0 Frequency Bands and Benefits of Sub-GHz Transmission
- 2.1 ITU Designation
- 2.2 Propagation Specifics and sub-GHz Transmission Benefits and Limitations
3.0 IEEE-802.15.4g-Smart Utility Networks
- 3.1 Purpose
- 3.2 Need
- 3.3 Details
- 3.3.1 Requirements: Major Characteristics
- 3.3.2 Considerations
- 3.3.3 Network Requirements
- 3.3.3.1 Structure
- 3.3.4 PHY/MAC Modifications
- 3.4 Market Considerations
- 3.5 Vendor Sample
4.0 IEEE 802.11ah
- 4.1 Goal
- 4.2 Status
- 4.3 Compatibility
- 4.4 Details
5.0 IEEE 802.11af
- 5.1 General: Expectations
- 5.2 Objectives
- 5.3 Status
- 5.4 Difference
- 5.5 Benefits
- 5.6 Specifics
- 5.6.1 Devices
- 5.6.2 Use of Database
- 5.6.3 PHY and MAC
- 5.7 Use Cases
6.0 ZigBee - IEEE 802.15.4
- 6.1 General
- 6.2 Sub-GHz ZigBee
- 6.3 ZigBee Acceptance
- 6.4 Specifics
- 6.4.1 Major Features
- 6.4.2 Device Types
- 6.4.3 Protocol Stack
- 6.4.3.1 Physical and MAC Layers - IEEE802.15.4
- 6.4.3.2 Frame
- 6.4.3.3 Upper Layers
- 6.4.4 Interoperability
- 6.4.5 Security
- 6.4.6 Platform Considerations
- 6.4.7 ZigBee Technology Benefits and Limitations
- 6.4.8 Standardization Process
- 6.5 IEEE 802.15.4 - ZigBee Basis
- 6.6 Application Specifics - Profiles
- 6.7 Applications
- 6.7.1 General
- 6.7.2 Smart Houses-SH
- 6.7.3 PC
- 6.7.4 Manufacturing
- 6.7.5 WSN and ZigBee
- 6.7.5.1 ZigBee Role
- 6.7.5.2 " Green" ZigBee
- 6.7.5.3 ZigBee Telecom Services
- 6.7.5.4 Building Automation
- 6.7.5.5 Smart Energy Profile
- 6.7.5.5.1 Features
- 6.7.5.5.2 Smart Energy Profile v.2.0
- 6.7.5.6 ZigBee IP
- 6.7.5.7 ZigBee Network Devices - IP Gateway
- 6.8 Market
- 6.8.1 Expectations
- 6.8.2 Segments
- 6.8.3 Forecast
- 6.8.4 Sub-GHz: Certification
- 6.8.5 Industry
- Adaptive Networks Solutions (RF Sub-GHz)
- Amber (RF Modules, Sub-GHz)
- Atmel (Chipsets)
- CEL (Modules)
- Cirronet-RFM (Modules-Industrial Applications)
- Digi (RF, Sub-GHz)
- Ember (Chipsets)
- EnergyHub (Smart Home)
- GreenPeak (WSN)
- Helicomm (Modules, Sub-GHz)
- Jennic-NXP (Chipsets-Modules)
- Freescale (Chipsets, Sub-GHz)
- Microchip Technologies (Modules, Sub-GHz)
- Nuri Telecom (AMR Application)
- Oki (Chipsets)
- Renesas (Platforms, AMR, Sub-GHz)
- Silicon Laboratories (Chipsets, Modules, Sub-GHz)
- Synapse (Modules, Sub-GHz, Protocol)
- TI (Chipsets, Sub-GHz)
- ZMDI (Sub-GHz)
7.0 EnOcean
- 7.1 General
- 7.2 The Company
- 7.3 EnOcean Alliance
- 7.4 Standard
- 7.4.1 Features
- 7.4.2 Drivers
- 7.5 Technology Details
- 7.5.1 Framework
- 7.6 Generations
- 7.7 Profiles
- 7.8 Benefits
- 7.9 Summary
- 7.10 Unions
- 7.11 Market Estimate
- 7.12 Industry
- BSC Magnum
- Beckhoff
- Echoflex
- Illumra
- Leviton
- Thermokon
8.0 Z-Wave
- 8.1 General
- 8.2 Z-Wave Alliance
- 8.3 Benefits
- 8.4 Details
- 8.4.1 General
- 8.4.2 Characteristics
- 8.5 ZigBee and Z-Wave
- 8.6 Advanced Energy Control Framework
- 8.6.1 Z-wave and Smart Metering
- 8.7 Selected Vendors
- Aeon Labs
- Mi Casa Verde
- NorthQ
- Sigma Designs
- There
- 8.8 Pricing
- 8.9 Market Estimate: Z-wave Products for Smart Houses
- 8.9.1 Model
- 8.9.2 Results
9.0 Insteon
- 9.1 General
- 9.2 Alliance
- 9.3 Specification
- 9.4 Major Properties
- 9.5 Major Applications
10.0 Wavenis
- 10.1 General
- 10.2 Coronis
- 10.3 Progress - Alliance
- 10.4 Wavenis Major Features and Benefits
- 10.5 Summary
11.0 Conclusions
- Figure 1: Frequency Bands
- Figure 2: Global
- Figure 3: Sub-GHz Transmission Characteristics
- Figure 4: Options
- Figure 5: TAM: Smart Grid ICT-Global ($B)
- Figure 6: TAM: Global SUN ($B)
- Figure 7: TAM: Global sub-GHz SUN ($B)
- Figure 8: ZigBee Protocol Stack
- Figure 9: Frame Structure - IEEE 802.15.4 PHY
- Figure 10: Frame Structure - IEEE 802.15.4 MAC
- Figure 11: Profiles
- Figure 12: ZigBee IP Gateway Protocol Stack
- Figure 13: Technology Stack
- Figure 14: TAM: Global ZigBee Modules Sales ($B)
- Figure 15: TAM: Global ZigBee Modules Sales (M Units)
- Figure 16: ZigBee Market Segmentation (2011)
- Figure 17: ZigBee Market Segmentation (2016)
- Figure 18: Functionalities
- Figure 19: Energy Requirements
- Figure 20: TAM: EnOcean Industry Equipment Sales ($M)
- Figure 21: TAM: EnOcean Industry Equipment Sales (Mil. Units)
- Figure 22: TAM Estimate: U.S. Small SH Z-Wave IC ($US Mil)
- Figure 23: TAM Estimate: U.S. Large SH Z-Wave IC ($US Mil)
- Table 1: ZigBee-2.4 GHz vs. 900 MHz
- Table 2: PHYs Illustration
- Table 3: ZigBee Parameters - IEEE 802.15.4 - 2003
- Table 4: ZigBee/802.15.4-2006 Characteristics
- Table 5: ZigBee Smart Energy Profile Feature Set
- Table 6: Major Features
- Table 7: Z-Wave and ZigBee
- Table 8: Z-wave Products Retail Pricing
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