遙感探測（遠距檢測）技術和全球市場

遙感探測（遠距檢測）技術和全球市場 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包含256 Pages 價格從美金4850起跳。

簡介

全球的遙感探測（遠距檢測）技術市場、2011年推測為83億美金的規模。此市場在2012年達91億美金、並且6.4%的CAGR（複合每年成長率）成長、2017年為124億美金的規模。

本報告書內容包括:遙感探測（遠距檢測）的各種技術、產品、及應用領域的調查分析、技術及產品區分、以及各種平台的概括、主要應用領域的各地區、各平台、及各機器的產品需求預測（∼2017年）之提示等、內容綱要摘記如下:

第1章 介紹

第2章 摘要

第3章 遙感探測事業的概要

• 遙感探測的對象
• 感應器到遙感探測產品
• 遙感探測市場
• 新的政權對應遙感探測
• 歐巴馬政權下的遙感探測
• 遙感探測事業的成熟化
• 遙感探測產品的今後需求
• 經濟主導的檢討事項
• 更科學主導的美國政策
• 音響機器
• 相機（數位）
• 相機（底片式）
• 重力相關機器
• 雷射機器
• Terahertz波段檢測
• 光雷達
• 雷達
• 地震計測器
• 頻譜影像解析
• 介面最合適化機器

第4章 介面

• 介面分類需求
• 關鍵 vs 介面
• 空中介面
• 水中介面
• 宇宙基礎的介面
• 地上介面
• EARTHSCOPE

第5章 遙感探測的應用

• 遙感探測產品的應用分類需求
• 各地區預測的註解

第6-25章 各種應用領域市場預測

• 農業
• 考古文化的地區保護
• 大氣調查
• 國境警備
• 地圖製作
• 氣候變動調查
• 災害管理
• 森林
• 水文學・水源
• 資訊收集
• 地雷檢測
• 土地計畫
• 法執行
• 自然災害監視
• 海洋學
• 石油・瓦斯・礦物探查
• 公共醫療
• 優先通行權管理
• 都市・郊外
• 天氣預報

第26章 遙感探測相關專利的展望

• 21世的專利
• 20世紀的專利

第27章 遙感探測的溝通

• 美國防衛相關遙感探測的計畫
• 美國市民的遙感探測的計畫
• 營利事業
• 組織
• 學界

圖表

目錄

Abstract

REPORT HIGHLIGHTS

The global remote sensing technologies market is estimated at $8.3 billion in 2011. It is expected to reach at $9.1 billion in 2012 and it will further grow to $12.4 billion by 2017 at a compound annual growth rate (CAGR) of 6.4%.

The highest revenue contributor is space based remote sensing technology products, which is estimated at $3.3 billion in 2011. It is expected to reach at $3.6 billion by 2012 and it will further grow to $5.0 billion by 2017 at a compound annual growth rate (CAGR) of 6.8%.

The revenues from airborne products are estimated at $2.3 billion in 2011. It is expected to reach at $2.6 billion by 2012 and it will further grow to $3.1 billion by 2017 at a compound annual growth rate (CAGR) of 5.5%.

SUMMARY FIGURE
VALUE OF REMOTE SENSING PRODUCTS, BY PLATFORM, 2011-2017
($ BILLIONS)

Source: BCC Research

INTRODUCTION

Remote Sensing Technologies and Global Markets describes the fundamentals of remote sensing technology and provides 2012 through 2017 forecasts for what BCC Research envisions developing into a $12.4 billion industry. The report is divided into 27 chapters, 20 of which individually focus on the 20 largest and most robust technologies.

STUDY GOALS AND OBJECTIVES

Substantial technological and economic changes have taken place in the remote sensing market since BCC Research most recently explored the topic in its 2009 Market Research Report titled Remote Sensing Technologies and Global Markets. This study describes the current state of the industry in light of those developments. It specifically examines and provides 2012 through 2017 forecasts for:

• four major remote sensing platforms
• 10 key remote sensing instruments
• 20 applications that account for the bulk of the industry.

REASONS FOR DOING THE STUDY

Remote sensing continues to evolve as one of the most powerful, dynamic, and useful analytic tools of modern science. Since BCC Research last visited the topic in 2009, remote sensing has moved further from its technological roots as instrumentation for space exploration and Earth observation into the commercial mainstream. Customers of remote sensing products today include not only the discipline's core constituency in the defense and geophysical communities, but also hundreds of millions of individuals who rely upon the technology for personal and business decision making. While the global financial crisis triggered by the 2008 recession reduced the demand for remote sensing products in 16 of 20 application areas, that setback proved to be short lived. One reason is the migration of numerous remote sensing products to portable access devices, such as smart phones and tablet computers. Another reason is the enormous productivity increases that remote sensing products bring to municipal and county government operations. The net result of those industry-wide shifts leads BCC Research to conclude that the global market for products created with remotely sensed data will reach $12.4 billion by the end of the 2012 to 2017 forecast period.

SCOPE OF REPORT

This report focuses exclusively on products created from platform-mounted remote sensors.

Thus, it excludes instruments that:

• Require physical contact with a substance, such as chromatographs,
• Handheld devices and field instruments,
• Airport screening systems,
• Products developed using national defense and intelligence instruments or platforms, and
• Geographic information system software.

This report is divided into three parts. The first part, comprising eight chapters, provides the following:

• An overview of the remote sensing industry
• An explanation of basic remote sensing operating concept
• A description of the 10 basic types of remote sensing instruments
• A description of the four types of remote sensing platforms
• Regional, instrument by application and platform by application estimates of 2011 demand for remote sensing products
• Regional, instrument-by-application and platform-by-application forecasts for the 5 years beginning in 2012
• A basic explanation of remote sensing image analysis techniques

The second part, chapters nine through 28, describes each of the market-driven applications for remote sensing. Tables present application-specific information about market drivers. Forecasts span 2012 through 2017, using 2011 as the reference year. For each of the 20 market-driven applications, separate tables show forecasts by region, with the U.S. shown separately. Global demand forecasts are also shown for remote sensing platforms and for remote sensing instruments are also included.

The third part of the study, consisting of the last two chapters, offers a review of remote sensing patents, including patent abstracts and the names of the inventors and original patent assignees. Chapter 30 concludes the study with brief descriptions of the major organizations that form and support the global remote sensing community.

METHODOLOGY

Both primary and secondary research methodologies were used in preparing this study. To undertake this forecast, we analyzed remote sensing products currently on the market, announced products, interviews with industry leaders, U.S. patents, and products referenced in forward-looking financial statements filed with the U.S. Security and Exchange Commission (SEC). The value of imagery has been calculated on the basis of published prices, and in the case of government agencies, by extrapolating from published program budgets.

This report specifically omits handheld instruments and instruments that obtain data only by coming in physical contact with substances. It excludes remote sensing products generated within the government exclusively for noncommercial purposes. An example of an excluded product would be a high-resolution image taken by intelligence agency satellite and used to plan, execute, and evaluate a military operation. However, the report includes imagery acquired from the private sector by defense and intelligence agencies, such as imaging purchases made under the Department of Defense's (DOD) NextView program.

INFORMATION SOURCES

BCC reviewed more than 600 companies to obtain data for this study. We also reviewed reports and studies prepared for peer-reviewed professional literature, and reports by the technical staffs of the National Aeronautics and Space Administration (NASA), the Department of Energy (DOE), the U.S. Geologic Survey (USGS), the Environmental Protection Agency (EPA), the Government Accountability Office (GAO), and the SEC, as well as presidential directive and policy statements. In addition, we compiled data from scientific and technical conferences, presentations prepared for financial analysts, the United Nations, European Union, European Commission, European Space Agency, and the World Bank.

ANALYST'S CREDENTIALS

James Wilson is a noted technology analyst and author of more than 300 articles and several books dealing with science, medicine, technology, and business. Formerly the editor of the Princeton Business Journal and a senior science and technology editor for Hearst Magazines, he is a past member of the National Association of Science Writers and American Medical Writers Association. He has served on the adjunct faculty of Temple University and on the staffs of Drexel University and the Academy of Natural Sciences.

Table of Contents

Remote Sensing Technologies and Global Markets

Chapter - 1: INTRODUCTION - Complimentary

• STUDY GOAL AND OBJECTIVES
• REASONS FOR DOING THE STUDY
• INTENDED AUDIENCE
• SCOPE OF REPORT
• METHODOLOGY
• INFORMATION SOURCES
• ANALYST'S CREDENTIALS
• RELATED BCC WORK CREDENTIALS
• BCC ON-LINE SERVICES
• DISCLAIMER

Chapter - 2: SUMMARY

• Table 0: VALUE OF REMOTE SENSING PRODUCTS, BY PLATFORM, THROUGH 2017
• Figure 0: VALUE OF REMOTE SENSING PRODUCTS, BY PLATFORM, 2011-2017

Chapter - 3: OVERVIEW OF THE REMOTE SENSING BUSINESS

• REMOTELY SENSED PHENOMENA
• FROM SENSOR TO REMOTE SENSING PRODUCT
• THE REMOTE SENSING MARKET
• REMOTE SENSING RESPONDS TO A NEW ADMINISTRATION
• REMOTE SENSING DURING THE OBAMA ADMINISTRATION
• THE REMOTE SENSING BUSINESS MATURES
• FUTURE DEMAND FOR REMOTE SENSING PRODUCTS
• ECONOMIC-DRIVEN CONSIDERATIONS
• U.S. POLICY BECOMES MORE SCIENCE-DRIVEN
• ACOUSTIC INSTRUMENTS
• CAMERAS (DIGITAL)
• CAMERAS (FILM)
• GRAVITATIONAL INSTRUMENTS
• LASER INSTRUMENTS
• TERAHERTZ BAND DETECTION
• LIDAR
• RADAR
• SEISMIC INSTRUMENTS
• SPECTRAL IMAGING
• PLATFORM-OPTIMIZED INSTRUMENTS

Chapter - 4: PLATFORMS

• DEMAND BY PLATFORM
• MISSION VERSUS PLATFORM
• AIRBORNE PLATFORMS
• AQUATIC PLATFORMS
• SPACE-BASED PLATFORMS
• TERRESTRIAL PLATFORMS
• EARTHSCOPE

Chapter - 5: APPLICATIONS FOR REMOTE SENSING

• DEMAND FOR REMOTELY SENSED PRODUCTS BY APPLICATION
• REGIONAL FORECASTS NOTES

Chapter - 6: REMOTE SENSING IN AGRICULTURE

• FORECASTS FOR AGRICULTURE
  • Table 48: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN AGRICULTURE, BY REGION, THROUGH 2017
  • Table 49: PROJECTED GLOBAL DEMAND FOR REMOTE SENSING PRODUCTS USED IN AGRICULTURE, BY PLATFORM, THROUGH 2017
  • Table 50: PROJECTED GLOBAL DEMAND FOR REMOTE SENSING PRODUCTS USED IN AGRICULTURE, BY INSTRUMENT, THROUGH 2017

Chapter - 7: REMOTE SENSING IN ARCHEOLOGICAL AND CULTURE SITE PROTECTION

• FORECASTS FOR ARCHEOLOGICAL AND CULTURE SITE PROTECTION
  • Table 51: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN ARCHEOLOGICAL- AND CULTURAL-SITE PROTECTION, BY REGION, THROUGH 2017
  • Table 52: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN ARCHEOLOGICAL- AND CULTURAL-SITE PROTECTION, BY PLATFORM, THROUGH 2017
  • Table 53: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN ARCHEOLOGICAL AND CULTURAL SITE PROTECTION, BY INSTRUMENT, THROUGH 2017

Chapter - 8: REMOTE SENSING IN ATMOSPHERIC RESEARCH

• REMOTE SENSING ACRONYMS USED IN ATMOSPHERIC RESEARCH
• FORECASTS FOR ATMOSPHERIC RESEARCH
  • Table 55: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN ATMOSPHERIC RESEARCH, BY REGION, THROUGH 2017
  • Table 56: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN ATMOSPHERIC RESEARCH, BY PLATFORM, THROUGH 2017
  • Table 57: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN ATMOSPHERIC RESEARCH, BY INSTRUMENT, THROUGH 2017

Chapter - 9: REMOTE SENSING IN BORDER PROTECTION

• FORECASTS FOR BORDER PROTECTION
  • Table 58: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN BORDER PROTECTION, BY REGION, THROUGH 2017
  • Table 59: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN BORDER PROTECTION, BY PLATFORM, THROUGH 2017
  • Table 60: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN BORDER PROTECTION, BY INSTRUMENT, THROUGH 2017

Chapter - 10: REMOTE SENSING IN CARTOGRAPHY

• FORECASTS FOR CARTOGRAPHY
  • Table 61: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN CARTOGRAPHY, BY REGION, THROUGH 2017
  • Table 62: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN CARTOGRAPHY, BY PLATFORM, THROUGH 2017
  • Table 63: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN CARTOGRAPHY, BY INSTRUMENT, THROUGH 2017

Chapter - 11: REMOTE SENSING IN CLIMATE CHANGE STUDIES

• FORECASTS FOR CLIMATE CHANGE STUDIES
  • Table 64: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN CLIMATE CHANGE STUDIES, BY REGION, THROUGH 2017
  • Table 65: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN CLIMATE CHANGE STUDIES, BY PLATFORM, THROUGH 2017
  • Table 66: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN CLIMATE CHANGE STUDIES, BY INSTRUMENT, THROUGH 2017

Chapter - 12: REMOTE SENSING IN DISASTER MANAGEMENT

• THE DISASTER MANAGEMENT CONSTELLATION
• UN-SPIDER
• FORECASTS FOR DISASTER MANAGEMENT
  • Table 67: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN DISASTER MANAGEMENT, BY REGION, BY REGION, THROUGH 2017
  • Table 68: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN DISASTER MANAGEMENT, BY PLATFORM, THROUGH 2017
  • Table 69: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN DISASTER MANAGEMENT, BY INSTRUMENT, THROUGH 2017

Chapter - 13: REMOTE SENSING IN FORESTRY

• FORECASTS FOR FORESTRY
  • Table 70: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN FORESTRY, BY REGION, THROUGH 2017
  • Table 71: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN FORESTRY, BY PLATFORM, THROUGH 2017
  • Table 72: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN FORESTRY, BY INSTRUMENT, THROUGH 2017

Chapter - 14: REMOTE SENSING IN HYDROLOGY AND FRESHWATER RESOURCES MANAGEMENT

• FORECASTS FOR HYDROLOGY AND FRESHWATER RESOURCES MANAGEMENT
  • Table 73: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN HYDROLOGY AND FRESHWATER RESOURCES MANAGEMENT, BY REGION, THROUGH 2017
  • Table 74: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN HYDROLOGY AND FRESHWATER RESOURCES MANAGEMENT, BY PLATFORM, THROUGH 2017
  • Table 75: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN HYDROLOGY AND FRESHWATER RESOURCES MANAGEMENT, BY INSTRUMENT, THROUGH 2017

Chapter - 15: REMOTE SENSING IN INTELLIGENCE GATHERING

• FORECASTS FOR INTELLIGENCE GATHERING
  • Table 76: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN INTELLIGENCE GATHERING, BY REGION, THROUGH 2017
  • Table 77: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN INTELLIGENCE GATHERING, BY PLATFORM, THROUGH 2017
  • Table 78: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN INTELLIGENCE GATHERING, BY INSTRUMENT, THROUGH 2017

Chapter - 16: REMOTE SENSING IN LAND MINE DETECTION

• FORECASTS FOR LAND MINE DETECTION
  • Table 79: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN LAND MINE DETECTION, BY REGION, THROUGH 2017
  • Table 80: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN LAND MINE DETECTION, BY PLATFORM. THROUGH 2017
  • Table 81: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN LAND MINE DETECTION, BY INSTRUMENT, THROUGH 2017

Chapter - 17: REMOTE SENSING IN LAND PLANNING

• FORECASTS FOR LAND PLANNING
  • Table 83: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN LAND PLANNING, THROUGH 2017
  • Table 84: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN LAND PLANNING, BY PLATFORM, THROUGH 2017
  • Table 85: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN LAND PLANNING, BY INSTRUMENT, THROUGH 2017

Chapter - 18: REMOTE SENSING IN LAW ENFORCEMENT

• FORECASTS FOR LAW ENFORCEMENT
  • Table 86: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN LAW ENFORCEMENT, BY REGION, THROUGH 2017
  • Table 87: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN LAW ENFORCEMENT, BY PLATFORM, THROUGH 2017
  • Table 88: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN LAW ENFORCEMENT, BY INSTRUMENT, THROUGH 2017

Chapter - 19: REMOTE SENSING IN NATURAL HAZARD MONITORING

• FORECASTS FOR NATURAL HAZARD MONITORING
  • Table 89: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN NATURAL HAZARD MONITORING, BY REGION, THROUGH 2017
  • Table 90: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN NATURAL HAZARD MONITORING, BY PLATFORM, THROUGH 2017
  • Table 91: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN NATURAL HAZARD MONITORING, BY INSTRUMENT, THROUGH 2017

Chapter - 20: REMOTE SENSING IN OCEANOGRAPHY

• FORECASTS FOR OCEANOGRAPHY
  • Table 92: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN OCEANOGRAPHY, BY REGION, THROUGH 2017
  • Table 93: PROJECTED GLOBAL REMOTE SENSING PRODUCTS IN OCEANOGRAPHY, BY PLATFORM, THROUGH 2017
  • Table 94: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN OCEANOGRAPHY, BY INSTRUMENT, THROUGH 2017

Chapter - 21: REMOTE SENSING IN OIL, GAS, AND MINERAL EXPLORATION

• FORECASTS FOR OIL, GAS AND MINERAL EXPLORATION
  • Table 95: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN OIL, GAS AND MINERAL EXPLORATION, BY REGION, THROUGH 2017
  • Table 96: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN OIL, GAS AND MINERAL EXPLORATION, BY PLATFORM, THROUGH 2017
  • Table 97: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN OIL, GAS AND MINERAL EXPLORATION, BY INSTRUMENT, THROUGH 2017

Chapter - 22: REMOTE SENSING IN PUBLIC HEALTH

• FORECASTS FOR PUBLIC HEALTH
  • Table 99: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN PUBLIC HEALTH, BY REGION, THROUGH 2017
  • Table 100: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN PUBLIC HEALTH, BY PLATFORM, THROUGH 2017
  • Table 101: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN PUBLIC HEALTH, BY INSTRUMENT, THROUGH 2017

Chapter - 23: REMOTE SENSING IN RIGHT-OF-WAY MANAGEMENT

• FORECASTS FOR RIGHT-OF-WAY MANAGEMENT
  • Table 102: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN RIGHT-OF-WAY MANAGEMENT, BY REGION, THROUGH 2017
  • Table 103: PROJECTED GLOBAL SENSING PRODUCTS USED IN RIGHT-OF-WAY MANAGEMENT, BY PLATFORM, THROUGH 2017
  • Table 104: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN RIGHT-OF-WAY MANAGEMENT, BY INSTRUMENT, THROUGH 2017

Chapter - 24: REMOTE SENSING IN URBAN AND SUBURBAN APPLICATIONS

• TOWARD A U.S. NATIONAL GEOSPATIAL STRATEGY
• THE NATIONAL SPATIAL DATA INFRASTRUCTURE (NSDI)
• FORECASTS FOR URBAN AND SUBURBAN APPLICATIONS
  • Table 105: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN URBAN AND SUBURBAN APPLICATIONS, BY REGION, THROUGH 2017
  • Table 106: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN URBAN AND SUBURBAN APPLICATIONS, BY PLATFORM, THROUGH 2017
  • Table 107: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN URBAN AND SUBURBAN APPLICATIONS, BY INSTRUMENT, THROUGH 2017

Chapter - 25: REMOTE SENSING IN WEATHER FORECASTING

• RADAR WILL ILLUMINATE PACIFIC STORMS
• SPACE WEATHER
• FORECASTS FOR WEATHER FORECASTING
  • Table 109: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN WEATHER FORECASTING, BY REGION, THROUGH 2017
  • Table 110: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN WEATHER FORECASTING, BY PLATFORM, THROUGH 2017
  • Table 111: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN WEATHER FORECASTING, BY INSTRUMENT, THROUGH 2017

Chapter - 26: REMOTE SENSING PATENT REVIEW

• 21ST CENTURY PATENTS
• 20TH CENTURY PATENTS

Chapter - 27: THE REMOTE SENSING COMMUNITY

• U.S. DEFENSE-RELATED REMOTE SENSING EFFORTS
• U.S. CIVILIAN REMOTE SENSING EFFORTS
• COMMERCIAL ENTERPRISES
• ORGANIZATIONS
• ACADEMIA
  • Table 128: UNIVERSITY BASED GIS PROGRAMS

List of Tables

• Summary Table: VALUE OF REMOTE SENSING PRODUCTS, BY PLATFORM, THROUGH 2017
  • Table 1: REMOTELY SENSED PHENOMENA
  • Table 2: REMOTE SENSING INSTRUMENTS ACRONYMS
  • Table 3: THE 10 BASIC TYPES OF REMOTE SENSING INSTRUMENTS
  • Table 4: THE FOUR REMOTE SENSING PLATFORMS
  • Table 5: THE 20 MARKET-DRIVEN APPLICATIONS FOR REMOTELY SENSED DATA
  • Table 6: U.S. GOVERNMENT AGENCY INVOLVEMENT IN COMMERCIAL REMOTE SENSING PRODUCTS
  • Table 7: VALUE OF REMOTE SENSING PRODUCTS, BY INSTRUMENT, 2011-2017
  • Table 8: APPLICATIONS FOR INFRASONIC DETECTION SYSTEMS
  • Table 9: FILMS USED FOR REMOTE SENSING
  • Table 10: RADAR BANDS
  • Table 11: CHARACTERISTICS OF GROUND PENETRATING RADAR
  • Table 12: COMMERCIALLY SIGNIFICANT RADAR SATELLITES
  • Table 13: SEISMIC SENSORS
  • Table 14: BANDS COMMONLY USED IN REMOTE SENSING
  • Table 15: ALPHABETICAL LIST OF MOST COMMONLY USED MULTISPECTRAL INSTRUMENTS
  • Table 16: INSTRUMENTS BY NUMBER OF SPECTRAL BANDS
  • Table 17: ALPHABETICA LIST OF THE MOST COMMONLY USED HYPERSPECTRAL INSTRUMENTS
  • Table 18: COMMERCIALLY SIGNIFICANT HYPERSPECTRAL IMAGING SATELLITES
  • Table 19: AIRSAR - AIRBORNE SYNTHETIC APERTURE RADAR
  • Table 20: AIRSAR SPECIFICATIONS
  • Table 21: COMMONLY USED AIRBORNE REMOTE SENSING INSTRUMENTS
  • Table 22: ASTER PRODUCT SPECIFICATIONS
  • Table 23: MODIS SPECIFICATIONS
  • Table 24: DETAILED MODIS PRODUCT SPECIFICATIONS
  • Table 25: MSS SPECIFICATIONS
  • Table 26: THEMATIC MAPPER PLUS SPECIFICATIONS
  • Table 27: AERI: ATMOSPHERIC EMITTED RADIANCE INTERFEROMETER
  • Table 28: AERI SPECIFICATIONS
  • Table 29: OPERATIONAL COST AND COST TRENDS FOR PLATFORMS
  • Table 30: VALUE OF REMOTE SENSING PRODUCTS FOR ALL APPLICATIONS, BY PLATFORM, THROUGH 2017
  • Table 31: NASA MANNED AIRBORNE REMOTE SENSING PLATFORMS
  • Table 32: THE NOAA ATLANTIC FLEET
  • Table 33: THE NOAA PACIFIC FLEET
  • Table 34: WAVE BUOYS FOR LITTORAL APPLICATIONS
  • Table 35: ARGOS MEMBERS
  • Table 36: NEPTUNE CANADA INSTRUMENT LOCATIONS
  • Table 37: NEPTUNE CANADA INSTRUMENT CAPABILITIES
  • Table 38: THRESHOLDS TO SPACE
  • Table 39: LANDSAT SERIES REMOTE SENSING SATELLITES
  • Table 40: DISASTER MANAGEMENT CONSTELLATION SATELLITES
  • Table 41: SIGNIFICANT 20TH CENTURY SPACE-BASED PLATFORMS
  • Table 42: 21TH CENTURY SPACE-BASED PLATFORMS
  • Table 43: FUTURE SPACE-BASED PLATFORMS
  • Table 44: C-MAN BASELINE DATASETS
  • Table 45: DEMAND FOR ALL REMOTE SENSING PRODUCTS, BY VALUE
  • Table 46: LAND SUITABLE FOR AGRICULTURE
  • Table 47: REGIONS WITH BELOW AVERAGE FOOD PRODUCTION
  • Table 48: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN AGRICULTURE, BY REGION, THROUGH 2017
  • Table 49: PROJECTED GLOBAL DEMAND FOR REMOTE SENSING PRODUCTS USED IN AGRICULTURE, BY PLATFORM, THROUGH 2017
  • Table 50: PROJECTED GLOBAL DEMAND FOR REMOTE SENSING PRODUCTS USED IN AGRICULTURE, BY INSTRUMENT, THROUGH 2017
  • Table 51: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN ARCHEOLOGICAL- AND CULTURAL-SITE PROTECTION, BY REGION, THROUGH 2017
  • Table 52: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN ARCHEOLOGICAL- AND CULTURAL-SITE PROTECTION, BY PLATFORM, THROUGH 2017
  • Table 53: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN ARCHEOLOGICAL AND CULTURAL SITE PROTECTION, BY INSTRUMENT, THROUGH 2017
  • Table 54: NASA SATELLITES THAT COLLECT ATMOSPHERIC RESEARCH DATA
  • Table 55: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN ATMOSPHERIC RESEARCH, BY REGION, THROUGH 2017
  • Table 56: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN ATMOSPHERIC RESEARCH, BY PLATFORM, THROUGH 2017
  • Table 57: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN ATMOSPHERIC RESEARCH, BY INSTRUMENT, THROUGH 2017
  • Table 58: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN BORDER PROTECTION, BY REGION, THROUGH 2017
  • Table 59: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN BORDER PROTECTION, BY PLATFORM, THROUGH 2017
  • Table 60: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN BORDER PROTECTION, BY INSTRUMENT, THROUGH 2017
  • Table 61: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN CARTOGRAPHY, BY REGION, THROUGH 2017
  • Table 62: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN CARTOGRAPHY, BY PLATFORM, THROUGH 2017
  • Table 63: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN CARTOGRAPHY, BY INSTRUMENT, THROUGH 2017
  • Table 64: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN CLIMATE CHANGE STUDIES, BY REGION, THROUGH 2017
  • Table 65: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN CLIMATE CHANGE STUDIES, BY PLATFORM, THROUGH 2017
  • Table 66: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN CLIMATE CHANGE STUDIES, BY INSTRUMENT, THROUGH 2017
  • Table 67: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN DISASTER MANAGEMENT, BY REGION, BY REGION, THROUGH 2017
  • Table 68: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN DISASTER MANAGEMENT, BY PLATFORM, THROUGH 2017
  • Table 69: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN DISASTER MANAGEMENT, BY INSTRUMENT, THROUGH 2017
  • Table 70: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN FORESTRY, BY REGION, THROUGH 2017
  • Table 71: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN FORESTRY, BY PLATFORM, THROUGH 2017
  • Table 72: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN FORESTRY, BY INSTRUMENT, THROUGH 2017
  • Table 73: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN HYDROLOGY AND FRESHWATER RESOURCES MANAGEMENT, BY REGION, THROUGH 2017
  • Table 74: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN HYDROLOGY AND FRESHWATER RESOURCES MANAGEMENT, BY PLATFORM, THROUGH 2017
  • Table 75: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN HYDROLOGY AND FRESHWATER RESOURCES MANAGEMENT, BY INSTRUMENT, THROUGH 2017
  • Table 76: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN INTELLIGENCE GATHERING, BY REGION, THROUGH 2017
  • Table 77: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN INTELLIGENCE GATHERING, BY PLATFORM, THROUGH 2017
  • Table 78: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN INTELLIGENCE GATHERING, BY INSTRUMENT, THROUGH 2017
  • Table 79: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN LAND MINE DETECTION, BY REGION, THROUGH 2017
  • Table 80: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN LAND MINE DETECTION, BY PLATFORM. THROUGH 2017
  • Table 81: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN LAND MINE DETECTION, BY INSTRUMENT, THROUGH 2017
  • Table 82: PIONEERING STATE AND COUNTY REMOTE SENSING PROGRAMS IN THE U.S.
  • Table 83: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN LAND PLANNING, THROUGH 2017
  • Table 84: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN LAND PLANNING, BY PLATFORM, THROUGH 2017
  • Table 85: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN LAND PLANNING, BY INSTRUMENT, THROUGH 2017
  • Table 86: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN LAW ENFORCEMENT, BY REGION, THROUGH 2017
  • Table 87: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN LAW ENFORCEMENT, BY PLATFORM, THROUGH 2017
  • Table 88: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN LAW ENFORCEMENT, BY INSTRUMENT, THROUGH 2017
  • Table 89: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN NATURAL HAZARD MONITORING, BY REGION, THROUGH 2017
  • Table 90: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN NATURAL HAZARD MONITORING, BY PLATFORM, THROUGH 2017
  • Table 91: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN NATURAL HAZARD MONITORING, BY INSTRUMENT, THROUGH 2017
  • Table 92: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN OCEANOGRAPHY, BY REGION, THROUGH 2017
  • Table 93: PROJECTED GLOBAL REMOTE SENSING PRODUCTS IN OCEANOGRAPHY, BY PLATFORM, THROUGH 2017
  • Table 94: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN OCEANOGRAPHY, BY INSTRUMENT, THROUGH 2017
  • Table 95: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN OIL, GAS AND MINERAL EXPLORATION, BY REGION, THROUGH 2017
  • Table 96: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN OIL, GAS AND MINERAL EXPLORATION, BY PLATFORM, THROUGH 2017
  • Table 97: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN OIL, GAS AND MINERAL EXPLORATION, BY INSTRUMENT, THROUGH 2017
  • Table 98: DISEASE-CAUSING CONDITIONS DETECTABLE FROM SPACE-BASED PLATFORMS
  • Table 99: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN PUBLIC HEALTH, BY REGION, THROUGH 2017
  • Table 100: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN PUBLIC HEALTH, BY PLATFORM, THROUGH 2017
  • Table 101: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN PUBLIC HEALTH, BY INSTRUMENT, THROUGH 2017
  • Table 102: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN RIGHT-OF-WAY MANAGEMENT, BY REGION, THROUGH 2017
  • Table 103: PROJECTED GLOBAL SENSING PRODUCTS USED IN RIGHT-OF-WAY MANAGEMENT, BY PLATFORM, THROUGH 2017
  • Table 104: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN RIGHT-OF-WAY MANAGEMENT, BY INSTRUMENT, THROUGH 2017
  • Table 105: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN URBAN AND SUBURBAN APPLICATIONS, BY REGION, THROUGH 2017
  • Table 106: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN URBAN AND SUBURBAN APPLICATIONS, BY PLATFORM, THROUGH 2017
  • Table 107: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN URBAN AND SUBURBAN APPLICATIONS, BY INSTRUMENT, THROUGH 2017
  • Table 108: METEOROLOGICAL SATELLITES
  • Table 109: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN WEATHER FORECASTING, BY REGION, THROUGH 2017
  • Table 110: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN WEATHER FORECASTING, BY PLATFORM, THROUGH 2017
  • Table 111: PROJECTED GLOBAL REMOTE SENSING PRODUCTS USED IN WEATHER FORECASTING, BY INSTRUMENT, THROUGH 2017
  • Table 112: MEMBERSHIP OF THE NOAA ADVISORY COMMITTEE ON COMMERCIAL REMOTE SENSING
  • Table 113: GEOSS PARTICIPATING MEMBERS
  • Table 114: GEOSS ORGANIZATIONS, BY COUNTRY
  • Table 115: JAPANESE REMOTE SENSING AND GIS ORGANIZATIONS
  • Table 116: DIGITALGLOBE CLOSING PRICES
  • Table 117: DIGITALGLOBE MAJOR DIRECT STOCK HOLDERS
  • Table 118: TOP DIGITALGLOBE INSTITUTIONAL STOCK HOLDERS
  • Table 119: TOP DIGITALGLOBE MUTUAL FUND STOCK HOLDERS
  • Table 120: GEOEYE CLOSING PRICES
  • Table 121: GEOEYE MAJOR DIRECT STOCK HOLDERS
  • Table 122: TOP GEOEYE INSTITUTIONAL STOCK HOLDERS
  • Table 123:
  • Table 124: SSTL SATELLITES AND MISSIONS
  • Table 125: SPACE AGENCIES AND PROGRAMS, BY COUNTRY
  • Table 126: ISRO SATELLITES
  • Table 127: EUROPEAN-BASED REMOTE SENSING ORGANIZATIONS
  • Table 128: UNIVERSITY BASED GIS PROGRAMS

List of Figures

• Summary Figure: VALUE OF REMOTE SENSING PRODUCTS, BY PLATFORM, 2011-2017

Press Release

全球遙感產品的市場規模，預計2017年時達到124億美元

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