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市場調查報告書

為環境監測產業帶來變革的技術發展

Technology Advancements Transforming Environmental Monitoring

出版商 Technical Insights (Frost & Sullivan) 商品編碼 360701
出版日期 內容資訊 英文 127 Pages
商品交期: 最快1-2個工作天內
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為環境監測產業帶來變革的技術發展 Technology Advancements Transforming Environmental Monitoring
出版日期: 2016年05月25日 內容資訊: 英文 127 Pages
簡介

本報告提供監測環境相關的各種參數之各種感應技術發展趨勢調查,提供您作用與適用/引進處,相關專利資料,資金籌措·供給相關趨勢,主要的革新,主要的創新者,技術引進的推進因素與課題,有前途的市場機會等資訊,並依感測器種類分別加以彙整。

第1章 摘要整理

第2章 MEMS感測器

  • 作用與適用範圍
  • 專利環境
  • 投入資金於高效率的MEMS感測設備開發之趨勢擴大
  • MEMS VCSEL LIDAR系統的革新
  • MEMS氣壓感測器的革新
  • MEMS VOC感測器的革新
  • 創新者簡介·主要主張
  • 技術引進的推進因素與課題
  • 市場·用途

第3章 智慧感應器

  • 環境監測的作用
  • 適用範圍
  • 專利環境
  • 資金籌措趨勢
  • 智慧感應器平台
  • 智慧感應器定位/地理定位系統
  • 智慧感應器信標
  • 主要創新者
  • 技術引進的推進因素與課題
  • 用水處理部門市場機會的擴大

第4章 生物感應器

  • 環境監測的作用
  • 海洋部門:生物感應器的主要適用處
  • 專利環境
  • 資金籌措趨勢:可檢測出各種病原體的感測器是開發的焦點
  • 酪氨酸酶生物傳感器
  • 毒性檢測的主要革新
  • 奈米生物感應器的革新
  • 主要創新者
  • 創新者簡介·主要主張
  • 技術引進的推進因素與課題
  • 市場·用途

第5章 奈米感測器

  • 環境監測的作用
  • 各種用途的影響
  • 專利環境
  • 資金籌措趨勢
  • Paper奈米感測器
  • 奈米柱氣體感測器
  • 奈米電子感測器的革新
  • 主要創新者
  • 技術引進的推進因素與課題
  • 藉由奈米機器人推動市場機會

第6章 彈性感測器

  • 環境監測的作用
  • 各種用途的影響
  • 專利環境
  • 資金籌措趨勢:以生活環境管理上軟性電子產品的商業化為焦點
  • 低功率遙測彈性感測器
  • 微波彈性感測器
  • 利用網版印刷的電化學感測器
  • 主要創新者
  • 技術引進的推進因素與課題
  • 市場·用途

第7章 光學傳感器

  • 環境監測的作用
  • 光學傳感器的海洋學的應用
  • 專利環境
  • 資金籌措趨勢
  • 使用奈米碳管的光溫度感測器
  • 智慧被動式IR感測器的革新
  • HD塔式監測用的光學傳感器
  • 主要創新者簡介
  • 技術引進的推進因素與課題
  • 市場·用途

第8章 無線感測器

  • 環境監測的作用
  • 各種用途的影響:新興都市區的廢棄物回收·管理部門
  • 專利環境
  • 資金籌措趨勢:以自立電源型感測器為焦點
  • 壓縮無線感測器
  • 異種間無線感測器網路
  • Wireless in-kiln濕度感測器
  • 主要進入經營者
  • 創新者簡介·主要主張
  • 技術引進的推進因素與課題
  • 未來展望:都市區的監測是一大成長機會

第9章 影像感測器

  • 環境監測的作用
  • 各種用途的影響
  • 專利環境
  • 資金籌措趨勢:以衛星影像用先進技術為焦點
  • 適應靈敏度影像感測器
  • 穿戴式感測器
  • 恆星傳感器
  • 主要進入經營者
  • 創新者簡介·主要主張
  • 技術引進的推進因素與課題
  • 市場·用途

第10章 摘要

第11章 主要專利·聯絡處

  • MEMS感測器專利
  • 智慧感應器專利
  • 生物感應器專利
  • 奈米感測器專利
  • 光學傳感器專利
  • 無線感測器專利
  • 影像感測器專利
  • 主要聯繫
  • 免責聲明

第12章 關於Frost&Sullivan

目錄
Product Code: D6E9-01-00-00-00

Timely and Meaningful Action Plans with Innovative Sensing Devices

Climate changes in the past were attributed to astronomical deviations, however presently it is predominantly anthropogenic. Ocean acidification, air quality deterioration, and ice sheet melting are few evidences of climate change. Advanced monitoring technologies are greatly supporting formulation of action plans for managing changes in the environment.

Innovations in sensor technology are paving the way for real time and precise monitoring of environmental parameters leading to informed decision making and action plans. Sensors intended for environmental monitoring applications are becoming more and smaller and user friendly.

The technology innovation report captures advances in sensor technologies that are intended for monitoring various parameters in the environment. The report covers sensor technologies such as MEMS, nano, flexible, smart, bio, optical, image, and wireless. Assessment of sensor applications for environmental monitoring is done based on patent and funding trends, innovation initiatives, factors influencing adoption, and future growth opportunities.

Table of Contents

1. EXECUTIVE SUMMARY

  • 1. Research Scope
  • 2. Research Methodology
  • 3. Key Findings
  • 4. Overview
  • 5. Key Findings (continued)
  • 6. Key Findings (continued)

2. MEMS SENSORS

  • 1. Role and Applicability
  • 2. Patent Landscape - Total Patents Published and Filed
  • 3. Funding Geared towards Developing Efficient MEMS Sensing Devices
  • 4. Innovation in MEMS VCSEL LIDAR Systems
  • 5. MEMS Barometric Sensor Innovation
  • 6. MEMS VOC Sensor Innovation
  • 7. Innovators Profile and Key Initiatives
  • 8. Innovators Profile and Key Initiatives (continued)
  • 9. Technology Adoption Drivers and Challenges
  • 10. Market/Applications

3. SMART SENSORS

  • 1. Role in Environment Monitoring
  • 2. Applicability
  • 3. Patent Landscape - Total Patents Published and Filed
  • 4. Funding Trends
  • 5. Smart Sensory Platform
  • 6. Smart Sensor Positioning/Location System
  • 7. Smart Sensor Beacon
  • 8. Key Innovators
  • 9. Technology Adoption Drivers and Challenges
  • 10. Increased opportunities in the water treatment sector

4. BIOSENSORS

  • 1. Role in Environment Monitoring
  • 2. Marine is a Key Application Area for Biosensor
  • 3. Patent Landscape - Total Patents Published and Filed
  • 4. Funding Trends - Focus on Developing Sensors Capable of Detecting a Wide Range of Pathogens
  • 5. Tyrosinase Biosensor
  • 6. Key Innovation in Determining Toxicity
  • 7. Nano Biosensor Innovation
  • 8. Key Innovators
  • 9. Innovators Profile and Key Initiatives
  • 10. Technology Adoption Drivers and Challenges
  • 11. Market/Applications

5. NANOSENSORS

  • 1. Role in Environment Monitoring
  • 2. Applications Impact
  • 3. Patent Landscape - Total Patents Published and Filed
  • 4. Funding Trends
  • 5. Paper Nanosensors
  • 6. Nanorod Gas Sensors
  • 7. Nano Electronic Sensor Innovation
  • 8. Key Innovators
  • 9. Technology Adoption Drivers and Challenges
  • 10. Nanobots can Drive Market Opportunities

6. FLEXIBLE SENSORS

  • 1. Role in Environment Monitoring
  • 2. Applications Impact
  • 3. Patent Landscape - Total Patents Published and Filed
  • 4. Funding Trends - Major Focus on Commercialization of Flexible Electronics in Habitat Management
  • 5. Low Power Telemetric Flexible Sensor
  • 6. Microwave Flexible Sensor
  • 7. Screen Printed Electrochemical Sensor
  • 8. Key Innovators
  • 9. Technology Adoption Drivers and Challenges
  • 10. Market/Applications

7. OPTICAL SENSORS

  • 1. Role in Environment Monitoring
  • 2. Applications of Optical Sensors in Oceanography Studies have been on the Rise
  • 3. Patent Landscape - Total Patents Published and Filed
  • 4. Funding Trends
  • 5. Optical Temperature Sensor using Carbon Nanotubes
  • 6. Smart Passive IR Sensor Innovation
  • 7. Optical Sensor for High-Definition Turreted Surveillance
  • 8. Key Innovators Profile
  • 9. Key Innovators Profile (continued)
  • 10. Technology Adoption Drivers and Challenges
  • 11. Market/Applications

8. WIRELESS SENSORS

  • 1. Role in Environment Monitoring
  • 2. Applications Impact - Urban Waste Collection and Management are Emerging Areas
  • 3. Patent Landscape - Total Patents Published and Filed
  • 4. Funding Trends - Emphasis on Self-Powered Sensors for Wider Network
  • 5. Compressive Wireless Sensors
  • 6. Heterogeneous Wireless Sensor Networks
  • 7. Wireless in-kiln Moisture Sensor
  • 8. Key Participants
  • 9. Innovators Profile & Key Initiatives
  • 10. Technology Adoption Drivers and Challenges
  • 11. Future Outlook - Urban Monitoring hold Higher Growth Opportunities

9. IMAGE SENSORS

  • 1. Role in Environment Monitoring
  • 2. Applications Impact
  • 3. Patent Landscape - Total Patents Published and Filed
  • 4. Funding Trends - Emphasis on Advanced Technologies for Satellite Imaging
  • 5. Adaptive Sensitivity Image Sensor
  • 6. Wearable Sensors
  • 7. Fixed Star Sensor
  • 8. Key Participants
  • 9. Innovators Profile and Key Initiatives
  • 10. Technology Adoption Drivers and Challenges
  • 11. Market/Applications

10. SUMMARY

  • 1. Summary

11. KEY PATENTS AND CONTACTS

  • 1. MEMS Sensors Patents
  • 2. Smart Sensors Patents
  • 3. Biosensors Patents
  • 4. Nanosensors Patents
  • 5. Optical Sensors Patents
  • 6. Wireless Sensors Patents
  • 7. Image Sensors Patents
  • 8. Key Contacts
  • 9. Legal Disclaimer

12. THE FROST & SULLIVAN STORY

  • 1. The Frost & Sullivan Story
  • 2. Value Proposition: Future of Your Company & Career
  • 3. Global Perspective
  • 4. Industry Convergence
  • 5. 360° Research Perspective
  • 6. Implementation Excellence
  • 7. Our Blue Ocean Strategy
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