全球的環境感測&監控技術市場 是由出版商BCC Research在2011年10月所出版的。
這份英文市場調查報告書價格從美金4850起跳。
全球的環境感測器以及相關產品(監控・網路・遙測等)市場現在推估約為130億美元的經濟規模,預期今後至2016年將以年平均5.4%的成長率變化。
本報告,調查分析全球環境感測&監控技術市場的現狀與展望,彙整環境感測器產業的結構、法規・政策上的支持、各種環境網絡計劃與展開狀況、感測器以及感測器系統/元件的技術・產品的區分與概要、主要應用領域、市場成長預測(∼2016年)、主要企業的檔案資料等,由下列摘要形式闡述。
第1章 簡介
第2章 摘要
第3章 概要
- 感測器事業
- 環境市場的背景
- 感測器市場的分類
- 環境上的壓力做為支持感測器事業成長的主要因子
- 其他主要市場動向
第4章 法律規範上的推動因子
- 概要
- 政府對環境監控的支出動向
- EPA的環境保護
- 大氣監控
第5章 環境網絡
- 市場概要
- 環境網絡的類型
- 國內以及國際生物監測
- 大型環境監控網絡
- NTT DOCOMO的INC環境感測網路業務
- SIEMENS CORPORATE TECHNOLOGY的UrbanFlood計劃
- 農業用感測網路應用
- CITIZEN SCIENTISTS的網路
- 動態大型感測網路
- 其他感測網路計劃
第6章 環境感測器的種類
第7章 環境感測業務的市場區分
- 概要
- 感測器:形式別
- 主要類型的相關討論
- 雷射誘發螢光
- 類型別業績
第8章 國際市場
- 概要
- 美國的出口定位
- 韓國的感測器產業
- 台灣的環境監視・控制用無線感測器市場
- 中國的感測器・監控機器市場
- 加拿大的環境產業
- 比利時的大氣污染感測器&監控系統市場
第9章 環境感測&監控事業:其他主要區分
- 概要
- 環境監控的GPS
- 隨機監控&測試市場
- 遙測的環境應用
- 遙測資料的主要環境應用
- 大型雷達系統基礎的感測系統
- 衛星與GRACE(GRAVITY RECOVERY AND CLIMATE EXPERIMENT)
- 市場需求
- 遙測相關的政府計劃
- R&D
第10章 技術發展・產品開發
- 概要
- 主要動向
- 伺服器基礎建設
- 奈米科技
- 現在受到資金供給的感測器R&D與產品開發
- 主要的產品・技術
第11章 環境感測器與奈米科技
- 概要
- 環境奈米感測器市場的展望
- 奈米線
- 針對檢測感測技術/裝置相關的汙染物質・微生物的主要奈米科技研究計劃
- 微流體
第12章 專利分析
第13章 企業檔案資料
圖表
Abstract
REPORT HIGHLIGHTS
THIS REPORT CONTAINS
- Coverage of the environmental sensor industry and its structure, and the
many companies involved in providing these products
- Analyses of global market trends, with data from 2010, estimates for 2011,
and projections of compound annual growth rates (CAGRs) through 2015
- A breakdown of the markets for environmental sensors, including passive,
active, electromechanical, and semiconductors
- Examinations of sensor applications in, for examples, temperature sensing
and chemical detection
- Comprehensive company profiles, including overseas manufacturers
- Patent analyses.
SUMMARY FIGURE
GLOBAL ENVIRONMENTAL SENSOR AND MONITORING BUSINESS BY MARKET CATEGORY,
2009 - 2016 ($ BILLIONS)
Source: BCC Research
PRINCIPAL TRENDS
There are two principal trends of note in the environmental sensing and
monitoring business. The first is the technological revolution in the design
and engineering of individual sensors and sensor components. The trend in
terms of individual sensors is toward miniaturization. Making sensors smaller
lowers material costs and energy requirements and makes large distributed
networks possible.
Indeed, the second principal trend is the development of environmental sensor
and monitoring networks themselves. There is an explosion in the number,
extent, and capacity of these networks, so much so that this report can only
provide a sampling. At the governmental level alone, annual expenditures on
maintenance and operation of these networks is nearly $500 million just in the
U.S.
Sensor networks allow distributed sensing capacity, real-time data
visualization and analysis, and integration with adjacent networks and remote
sensing data streams. Underpinning the development of networks is the
miniaturization of electronics, the availability of massive data storage and
computational capacity, and the Internet. As this report documents,
environmental sensor networks have been firmly established, and large new
networks are actively in development. New projects range from those that are
continental in scope to those that only monitor local conditions. The range
of variables measured includes daily CO2 fluxes to decadal shifts in
temperatures. Sensor systems can monitor physical and biological activity, as
well as measure groundwater fluxes and nutrient dynamics.
LARGE GLOBAL OPPORTUNITY
The global environmental remediation and monitoring business is huge. In the
U.S. market alone, some $250 billion of economic output stems from all
pollution control and monitoring activities each year. Among the
faster-growing segments of this clean-up business are the markets for
sophisticated sensors; monitoring equipment; and large-scale networks, such as
satellite, GPS, and remote sensing; associated networking equipment and
ancillaries; and a large slate of new technologies. Globally, the markets for
environmental sensors and the related sub-segments (e.g., monitoring,
networks, remote sensing) account for approximately $13 billion of economic
activity at present, with a projected average annual growth of 5.4% through
2016.
The purpose of this report is to measure and forecast the demand for sensor
equipment, systems, and networks that are sold for terrestrial, oceanic, and
atmospheric environmental sensing. The report defines markets for sensors
and/or sensor systems (e.g., monitoring networks), and then separately defines
markets for the advanced materials and advanced sensor concepts that represent
markets of the future. In regard to cutting edge developments,
nanotechnology, for which considerable EPA and NSF research dollars have been
expended, is covered. Nanotechnology-based chemical sensors can provide
high-sensitivity, low-power, and low-cost portable tools for in situ chemical
analysis in space and terrestrial applications. An additional purpose of this
report is to assess the needs of long-term environmental monitoring
applications and to summarize the capabilities of emerging sensor technologies.
Environmental sensors come in literally thousands of forms and types based on
a wide range of physical and chemical principles with varying types of usable
outputs. Typical contaminants monitored are metals, volatile organic
compounds, biological contaminants, and radioisotopes. The field applications
of sensors are also extremely varied. Among the key trends in the
environmental sensors business is miniaturization down to the nano scale,
continuous and/or real-time sensing capabilities, wireless networked
operation, rapid processing, and increased sensitivity or flexibility. Areas
of environmental focus include vehicular emissions, combustion of fossil
fuels, agricultural runoff, industrial and mine waste disposal, ocean spills
and dumping, and climate change and weather monitoring.
Environmental sensors and monitoring technologies have not only become a
substantial high-technology business, but future growth is almost pre-ordained
due to the fact that global economies must manage their environmental impact
or eventually destroy themselves. At the same time that environmental
clean-up is more or less forced onto the policy-making agenda, technology
revolutions in nanotechnology, semiconductors (e.g., lab-on-a-chip), and
communications are facilitating sensor product development and implementation.
SCOPE OF STUDY
This BCC study focuses on key environmental sensor technologies and
applications. It also provides data regarding the size and growth of numerous
sensor markets, company profiles, and industry trends. Cutting edge
developments, research priorities, and potential business opportunities are
also examined.
This report covers:
- The environmental sensor industry and its structure, and the many
companies involved in providing these products
- Emerging growth areas, such as large-scale monitoring networks.
- Development stage companies in which the most innovative technologies are
originating
- Markets for environmental sensors, including passive, active,
electromechanical, and semiconductors
- Sensor applications in temperature sensing, moisture detection, and
biological and chemical detection
- Company profiles, including overseas manufacturers
- Patent activity
METHODOLOGY
Both primary and secondary research methodologies were used in the preparation
of this study. The research methodology was both quantitative and qualitative
in nature. Market data was derived from trade sources, self-reported data by
companies, and government statistics covering the pollution control markets
and the sensor and instrumentation markets. The most recent academic
literature on environmental sensors was reviewed. Other key market
information sources include sensor magazines and journals, books, trade
literature, marketing literature, product and promotional literature, annual
reports, security analyst reports, and government publications. A patent
search and analysis was conducted.
INFORMATION SOURCES
As is the case with most high-technology industries and economic sectors, data
resources analyzing sensor technologies have become vast. There are numerous
referred journals devoted solely to sensor technology, not to mention
environmental journals that report on larger systems issues or strategic and
economic issues in environmental management. Data sources employed include
government economic and output data; press releases on company websites that
include application news, company news, marketing news, and product news;
brochures; product literature; sensor magazines; technical journals; technical
books; marketing literature; promotional literature; annual reports; security
analyst reports; and other sensor business digest publications. An extensive
patent analysis was conducted to gauge technological innovation and to
determine research activity as it applies to new product development.
ANALYST'S CREDENTIALS
Research analyst Kevin Gainer is the former Managing Editor of the BCC journal
ENERGY. He holds both B.A. and M.A. degrees in Quantitative Economic
Analysis, a well as a minor in Environmental Science, and has 25 years of
economics and market research experience, including 9 years as an energy
analyst at the American Electric Power Corporation.
Table of Contents
Environmental Sensing and Monitoring Technologies: Global Markets
Chapter - 1: INTRODUCTION - Complimentary
- PRINCIPAL TRENDS
- LARGE GLOBAL OPPORTUNITY
- SCOPE OF STUDY
- INTENDED AUDIENCE
- METHODOLOGY
- INFORMATION SOURCES
- ANALYST'S CREDENTIALS
- RELATED BCC PUBLICATIONS
- BCC ONLINE SERVICES
- DISCLAIMER
Chapter - 2: SUMMARY
- MAJOR FINDINGS
- KEY FINDINGS OF THIS STUDY
- Table 0: GLOBAL ENVIRONMENTAL SENSOR AND MONITORING BUSINESS BY MARKET
CATEGORY, THROUGH 2016
- Figure 0: GLOBAL ENVIRONMENTAL SENSOR AND MONITORING BUSINESS BY MARKET
CATEGORY, 2009 - 2016
Chapter - 3: OVERVIEW
- TOTAL SENSORS BUSINESS
- OVERALL ENVIRONMENT MARKET CONTEXT
- SENSOR MARKET CLASSIFICATION
- ENVIRONMENTAL PRESSURES AS THE KEY DRIVING-FORCE VARIABLE UNDERPINNING THE
GROWTH OF THE SENSORS BUSINESS
- OTHER KEY MARKET TRENDS
Chapter - 4: REGULATORY DRIVERS
- OVERVIEW
- GOVERNMENT ENVIRONMENTAL MONITORING SPENDING TRENDS
- EPA ENVIRONMENTAL STRICTURES
- AIR MONITORING
Chapter - 5: ENVIRONMENTAL NETWORKS
- MARKET OVERVIEW
- TYPES OF ENVIRONMENTAL NETWORKS
- NATIONAL AND INTERNATIONAL BIO-SURVEILLANCE
- LARGE ENVIRONMENTAL MONITORING NETWORKS
- NTT DOCOMO, INC ENVIRONMENTAL SENSOR NETWORK BUSINESS
- SIEMENS CORPORATE TECHNOLOGY URBAN FLOOD PROJECT
- AGRICULTURE SENSOR NETWORK APPLICATIONS
- CITIZEN SCIENTISTS' NETWORKS
- DYNAMIC LARGE-SCALE SENSOR NETWORKS
- OTHER SENSOR NETWORKING INITIATIVES
Chapter - 6: CATEGORIES OF ENVIRONMENTAL SENSORS
- OVERVIEW
- ANALOG VERSUS DIGITAL ENVIRONMENTAL SENSORS
- TYPES OF ENVIRONMENTAL SENSING
- Table 8: ENVIRONMENTAL SENSING TYPES AND COMPANIES INVOLVED, 2010
Chapter - 7: MARKET SEGMENTS IN THE ENVIRONMENTAL SENSOR BUSINESS
- OVERVIEW
- SENSORS BY MODALITY
- DISCUSSION OF PRINCIPAL TYPES
- LASER-INDUCED FLUORESCENCE
- MARKET SALES BY TYPE
- Table 11: GLOBAL SALES OF ENVIRONMENTAL SENSORS BY TYPE WITHIN MARKET
CATEGORIES, THROUGH 2016
Chapter - 8: INTERNATIONAL MARKETS
- OVERVIEW
- U.S. EXPORT POSITION
- SOUTH KOREAN SENSOR INDUSTRY
- TAIWAN'S WIRELESS SENSORS MARKET FOR ENVIRONMENTAL MONITORING AND CONTROL
- CHINA'S MARKET FOR SENSORS AND MONITORING INSTRUMENTS
- CANADA'S ENVIRONMENTAL INDUSTRY
- BELGIAN MARKET FOR AIR POLLUTION SENSORS AND MONITORING SYSTEMS
Chapter - 9: OTHER LARGE SEGMENTS OF THE ENVIRONMENTAL SENSING AND MONITORING BUSINESS
- OVERVIEW
- GLOBAL POSITIONING SYSTEMS FOR ENVIRONMENTAL MONITORING
- RADON MONITORING AND TESTING MARKET
- ENVIRONMENTAL APPLICATIONS OF REMOTE SENSING
- PRINCIPAL ENVIRONMENTAL APPLICATIONS OF REMOTE SENSING DATA
- SENSING SYSTEMS BASED ON LARGE-SCALE RADAR SYSTEMS
- SPACECRAFT AND THE GRAVITY RECOVERY AND CLIMATE EXPERIMENT
- MARKET DEMAND
- GOVERNMENT INITIATIVES RELEVANT TO REMOTE SENSING
- R&D FOCUS
- Table 23: PRINCIPLE ADVANCES EXPECTED IN ENVIRONMENTAL MONITORING
ASPECTS OF REMOTE SENSING, 2011 - 2016
- Table 24: TOP FORECASTED ENVIRONMENTAL MONITORING APPLICATIONS FOR
REMOTE SENSING
Chapter - 10: TECHNOLOGY AND PRODUCT DEVELOPMENT
- OVERVIEW
- MAJOR TRENDS
- CYBERINFRASTRUCTURE
- NANOTECHNOLOGY
- CURRENTLY FUNDED SENSOR R&D AND PRODUCT DEVELOPMENT
- NOTABLE PRODUCT AND TECHNOLOGY FOCUSES
Chapter - 11: ENVIRONMENTAL SENSORS AND NANOTECHNOLOGY
- OVERVIEW
- ENVIRONMENTAL NANOSENSOR MARKET PROSPECTS
- NANOWIRES
- PRINCIPAL NANOTECHNOLOGY RESEARCH INITIATIVES INVOLVING SENSING
TECHNOLOGIES OR DEVICES FOR POLLUTANT AND MICROBIAL DETECTION
- MICROFLUIDICS
Chapter - 12: PATENT ANALYSIS
- SAMPLE PATENTS FROM THE U.S. PATENT DATABASE
Chapter - 13: COMPANY PROFILES
- ACREO AB
- AGILENT TECHNOLOGIES
- AIRMAR TECHNOLOGY CORPORATION
- AIRTEST TECHNOLOGIES, INC.
- ALLEGRO MICROSYSTEMS
- ALERTEK, LLC
- ANALOG DEVICES, INC.
- APPLIED GEOMECHANICS, INC.
- APPLIEDSENSOR, INC.
- BALL AEROSPACE
- CASELLA MEASUREMENT, LTD.
- CHELSEA TECHNOLOGIES GROUP, LTD.
- CIRRUS LOGIC, INC.
- CODAR OCEAN SENSORS
- CROSSBOW TECHNOLOGY, INC.
- CYMBET CORPORATION
- CYRANO SCIENCES, INC. (A DIVISION OF SMITHS DETECTION)
- DOLOMITE MICROFLUIDICS
- DUST NETWORKS, INC.
- ELECTRONIC SENSOR TECHNOLOGY
- ENDEVCO
- ENSCO
- ENVIROMON.NET (A DIVISION OF NETMON)
- EPCOS AG
- ESI ENVIRONMENTAL SENSORS, INC.
- FLUID COMPONENTS, INTL.
- FREESCALE SEMICONDUCTOR, INC.
- GENEFLUIDICS
- GILL INSTRUMENTS, LTD.
- HEWLETT-PACKARD
- HONEYWELL SENSING AND CONTROL
- INFICON
- INFINEON TECHNOLOGIES, INC.
- INFOTONICS TECHNOLOGY, INC.
- INTEGRATED SENSING SYSTEMS
- INTERNATIONAL SENSOR TECHNOLOGY
- INTERSIL CORPORATION
- IROBOT
- KESTREL CORPORATION
- KMG2 SENSORS CORPORATION
- LANDAUER
- LINEAR TECHNOLOGY CORPORATION
- LIQUID ROBOTICS, CALIFORNIA
- LOS ALAMOS NATIONAL LABORATORY
- LUMASENSE TECHNOLOGIES, INC.
- MATRIX SENSORS, INC.
- MAXBOTIX, INC.
- MAXIM INTEGRATED PRODUCTS, INC.
- MICROCHIP TECHNOLOGY, INC.
- NEXSENS TECHNOLOGY, INC.
- NASA GODDARD SPACE FLIGHT CENTER
- NATIONAL INSTITUTE OF STANDARDS AND TECHNOLOGY
- NATIONAL SEMICONDUCTOR CORPORATION
- NEXTECH MATERIALS, LTD.
- NXP SEMICONDUCTORS N.V.
- OCEAN SENSORS, INC.
- OCEANA SENSOR TECHNOLOGY
- ONSET COMPUTER
- OPTICAL SCIENTIFIC, INC.
- ORGANIZATION OF BIOLOGICAL FIELD STATIONS
- PACIFIC CREST CORPORATION
- PALL CORPORATION
- PCB PIEZOTRONICS, INC.
- POTOMAC PHOTONICS
- PRECISION MEASUREMENT ENGINEERING, INC.
- QUANTITECH, LTD.
- PACHUBE
- RENAISSANCE COMPUTING INSTITUTE
- RUPPRECHT AND PATASHNICK COMPANY, INC.
- SANDIA NATIONAL LABORATORIES
- SATLANTIC, INC.
- SENSATA TECHNOLOGIES, INC.
- SENSIRION AG
- SENSOR PRODUCTS, INC.
- SENSORS, INC.
- SENSORWARE SYSTEMS, INC.
- SENTILLA
- SIEMENS AG
- SIERRA MONITOR CORPORATION
- SIERRA SENSORS GMBH
- SIONEX
- STANFORD RESEARCH SYSTEMS, INC.
- STMICROELECTRONICS
- TRANZEO WIRELESS TECHNOLOGIES USA, INC. (A DIVISION OF TRANZEO WIRELESS)
TECHNOLOGIES, INC.
- TRONICS MICROSYSTEMS
- VAISALA, INC.
- VTI TECHNOLOGIES
- WAYNE STATE UNIVERSITY COMPUTER SCIENCE DEPARTMENT
- WORLDSENSING
- XENSOR INTEGRATION BV
- YSI, INC.
- ZIGBEE ALLIANCE
- OTHER SENSOR INDUSTRY ORGANIZATIONS
List of Tables
- Summary Table: GLOBAL ENVIRONMENTAL SENSOR AND MONITORING BUSINESS BY
MARKET CATEGORY, THROUGH 2016
- Table 1: U.S. INDUSTRIES WITH THE LARGEST TOTAL ENVIRONMENTAL CAPITAL
EXPENDITURES, 2010
- Table 2: U.S. ENVIRONMENTAL MONITORING AND TESTING MARKET BY OPERATING
COSTS EXCLUSIVE OF EQUIPMENT PURCHASES, 2010
- Table 3: SENSOR CATEGORIES IN ENVIRONMENTAL MONITORING
- Table 4: DOMINANT TECHNOLOGIES DEPLOYED FOR PHYSICAL SENSING
- Table 5: NEW TECHNOLOGY REQUIREMENTS FOR PHYSICAL SENSING
- Table 6: PROMISING BIOLOGICAL SENSOR TECHNOLOGIES
- Table 7: FEDERAL SPENDING ON BIO-SURVEILLANCE NETWORKS, THROUGH 2016
- Table 8: ENVIRONMENTAL SENSING TYPES AND COMPANIES INVOLVED, 2010
- Table 9: SENSORS USEFUL IN ENVIRONMENTAL DETECTION AND MONITORING
- Table 10: SENSORS BY MODALITY AND RELATIVE COST
- Table 11: GLOBAL SALES OF ENVIRONMENTAL SENSORS BY TYPE WITHIN MARKET
CATEGORIES, THROUGH 2016
- Table 12: SENSOR MARKET IN SOUTH KOREA, 2010
- Table 13: KEY SENSOR SUPPLIERS IN THE SOUTH KOREAN MARKET
- Table 14: IN-DEMAND WATER QUALITY MONITORING EQUIPMENT TYPES IN DEMAND
IN CHINA
- Table 15: PRINCIPAL COUNTRIES OF ORIGIN FOR WATER MONITORING AND SENSORS
IMPORTED BY CHINA IN APPROXIMATE RANK, 2008
- Table 16: PRINCIPAL FIRMS ACTIVE IN SELLING WATER QUALITY MONITORING
TECHNOLOGIES IN CHINA
- Table 17: DISTRIBUTION OF ENVIRONMENTAL REVENUES BY PROVINCE
- Table 18: WATER FILTRATION AND SEWAGE EQUIPMENT, INCLUDING MONITORING
EXPENDITURES, 2008-2011
- Table 19: MONITORING AND SENSOR EXPORT PROSPECTS FOR BELGIUM
- Table 20: GLOBAL MARKET DEMAND FOR ENVIRONMENT-RELATED APPLICATIONS OF
GPS TECHNOLOGIES, THROUGH 2016
- Table 21: GLOBAL MARKET DEMAND FOR RADON TESTING AND MITIGATION
TECHNOLOGIES, THROUGH 2016
- Table 22: MARKET DEMAND FOR ENVIRONMENT-RELATED REMOTE SENSING
TECHNOLOGIES, THROUGH 2016
- Table 23: PRINCIPLE ADVANCES EXPECTED IN ENVIRONMENTAL MONITORING
ASPECTS OF REMOTE SENSING, 2011 - 2016
- Table 24: TOP FORECASTED ENVIRONMENTAL MONITORING APPLICATIONS FOR
REMOTE SENSING
- Table 25: NEW SENSOR PRODUCT TECHNOLOGIES AND TECHNOLOGY TRENDS
- Table 26: ECONOMIC ACTIVITY (PRODUCT AND R&D) ATTRIBUTABLE TO NEW
ENVIRONMENTAL SENSOR AND MONITORING TECHNOLOGIES, THROUGH 2016
- Table 27: CURRENTLY FUNDED SENSOR DEVELOPMENT PROGRAMS, AS OF JULY 1,
2011
- Table 28: DISTRIBUTION OF ENVIRONMENTAL SENSOR PATENTS BY CATEGORY OF
ASSIGNEE, 2009 - 2011
List of Figures
- Summary Figure: GLOBAL ENVIRONMENTAL SENSOR AND MONITORING BUSINESS BY
MARKET CATEGORY, 2009 - 2016
2016年時全球環境感測&監測技術市場將達到153億美元規模
2011年11月07日
Global Information, Inc.已開始銷售BCC Research所發行的報告書「Environmental Sensing and Monitoring Technologies: Global Markets (全球的環境感測&監控技術市場)」
該報告書預測,2011年全球環境感測&監測技術市場是113億美元規模,之後以複合年平均成長率(CAGR)6.5%成長,2016年時達到153億美元。
全球環境感測&監測技術市場能分成5個部門。亦即地上、大氣、監測服務、海洋、最後是以及氡、GPS、遙感及新技術部門。
到2016年為止這些部門的預測如下。
- 2011年地上部門是29億美元規模,之後CAGR以5.3%成長,2016年時約為38億美元。
- 2011年大氣部門是大概約16億美元規模,之後以CAGR 4%成長,2016年時達到19億美元。
- 2011年監測服務部門是約10億美元規模,之後CAGR 以5.5%成長,2016年時達到12億美元。
- 2011年海洋部門是4億7,000萬美元規模,之後CAGR 以5.2%成長,2016年時達到6億1,000萬美元。
- 2011年氡、GPS,遙感及新技術部門是54億美元規模,之後CAGR 以7.5%成長,2016年時達到78億美元。
在環境感測&監測商務裡,可看到二個主要傾向。
一是傳感器和傳感器組件的設計及工學的技術創新,亦即小型化。藉由更小的傳感器,降低素材成本和能源消費量,可廣泛分散網路。
二是環境傳感器及監測網路本身的進化。
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