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市場調查報告書

影響工業感測的革新

Innovations Impacting Industrial Sensing

出版商 Frost & Sullivan 商品編碼 577629
出版日期 內容資訊 英文 82 Pages
商品交期: 最快1-2個工作天內
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影響工業感測的革新 Innovations Impacting Industrial Sensing
出版日期: 2017年09月29日 內容資訊: 英文 82 Pages
簡介

本報告提供產業部門的主要感測器相關的革新的影響的相關調查,感測技術形勢,先進願景/成像系統,氣體感測,音響/震動感測,及加速計/傾斜感測相關主要發展趨勢,創新者,促進要素與課題,及藍圖等相關彙整。

第1章 摘要整理

第2章 技術形勢:宏觀層面趨勢、感測技術的重要性

  • 工業IoT及機器人工學促進的自動化趨勢
  • 預測分析促進智慧工廠
  • 商業化的資金活動

第3章 先進願景/成像系統的評估:主要的發展、創新者,促進要素、課題,藍圖

  • 3D影像感測器及LiDAR帶給產業發展的影響
  • 主要的創新者/開發者
  • 先進3D成像視覺系統
  • 工業自動化的熱感成像系統
  • 使用了量子點的高感度CMOS影像感測器、其他

第4章 氣體感測的評估:主要的發展、創新者,促進要素、課題,藍圖

  • 奈米氣體感測器及MEMS型氣體感測帶給產業發展的影響
  • 主要的創新者/開發者
  • 使用創新材料的感測器陣列的多重氣體的偵測
  • 使用了鉿的超高感度氫偵測
  • 適合氣體檢測的非機械性小型感測器、其他

第5章 音響/震動感測的評估:主要的發展、創新者,促進要素、課題,藍圖

  • 影響產業發展的預測分析、智慧感應器
  • 主要的創新者/開發者
  • 使用了震動感測器的預知保全
  • 低壓電馬達的健康監測智慧感應器
  • 預知保全超音波感測器、其他

第6章 加速計/傾斜感測的評估:主要的發展、創新者,促進要素、課題,藍圖

  • 感測器的整合和需求擴大促進機會
  • 主要的創新者/開發者
  • 超高感度MEMS加速計
  • 產業應用AMR、GMR感測器
  • 震動監測、運動檢測用超小型加速計、其他

第7章 其他主要革新及創新者的簡介

  • 查出污染物質的低成本的化學油量規
  • 查出產業上有害化學藥品的奈米化學的感測器
  • 主要的發展、創新者

第8章 實例

  • 案例研究:影像感測器、震動感測器
  • 案例研究:相機、智慧感應器
  • 案例研究:智慧超音波感測器、LiDAR

第9章 主要專利

  • 主要專利:紅外線成像模組及馬達條件監測
  • 主要專利:LiDAR校準及MEMS氣體感測器

第10章 主要聯絡處

目錄
Product Code: D7DB

MEMS, LiDAR, CMOS Image Sensors Drive Developments in Industrial Safety

Sensor technologies have been extensively used in building smart factories and manufacturing automation processes. Industrial manufacturers are increasingly using electronics systems for improving machine performance, worker safety and comfort. The main role of the sensors in the industrial sector is to inspect and monitor the work-in-progress operations that are interfaced with the manufacturing equipment. Eventually, with the advancements in sensor technologies, novel ways of parameter monitoring will lead to improvement in safety and precision of automation solutions.

Sensors in industrial applications measure multiple parameters including light, gas, chemical, pressure, flow, level, vibration and acceleration. By 2020, innovations in smart sensing will find wide scale adoption in industrial sector for tracking machine's process state and support predictive and preventive maintenance measures.

Key sensing technologies covered in this technology and innovation report include LiDAR (Light Detection and Ranging), CMOS image sensors, 3D vision sensors, thermal image sensors, nano gas sensors, MEMS sensors, acoustic sensors, smart sensors and accelerometers. Sensor technology and IIOT concept plays a major role in building smart factories. Other enabling technologies supporting industrial safety include machine-to-machine learning, big data, and predictive analytics. The report assesses impact of key sensor innovations in the industrial sector.

Table of Contents

1.0. Executive Summary

  • 1.1. Research Scope
  • 1.2. Research Methodology
  • 1.3. Research Methodology Explained
  • 1.4. Need for Small Form Factor Sensors
  • 1.5. MEMS Drive Opportunities for Industrial Sensing Technologies

2.0. Technology Landscape - Macro Level Trends and Significance of Sensing Technologies

  • 2.1. Industrial IoT and Robotics Drive Automation Trend
  • 2.2. Predictive Analytics will Drive Smart Factories
  • 2.3. Funding Activities Geared Towards Commercialization

3.0. Assessment of Advanced Vision/Imaging Systems - Key Developments and Innovators, Drivers and Challenges, Roadmap

  • 3.1. 3D Image Sensors and LiDAR Influence Industrial Developments
  • 3.2. Key Innovators/Developers
  • 3.3. Advanced 3D Imaging Vision System
  • 3.4. Thermal Imaging System For Industrial Automation
  • 3.5. High Sensitivity CMOS Image Sensor using Quantum Dots
  • 3.6. Ultra High Resolution CMOS image sensor for Machine vision
  • 3.7. Hyperspectral Imaging Cameras for Material inspection and Quality Control
  • 3.8. Solid State LiDAR for Level Sensing And Volume Measurement
  • 3.9. Key Developments and Innovators
  • 3.9. Key Developments and Innovators (Continued)
  • 3.9. Key Developments (Continued)
  • 3.10. Key Driving Factors and Challenges
  • 3.11. Key Competitive Strategies of Organizations in Image Sensing
  • 3.12. Roadmap and Future Opportunities

4.0. Assessment of Gas Sensing - Key Developments and Innovators, Drivers and Challenges, Roadmap

  • 4.1. Nano Gas Sensors and MEMS based Gas Sensing Influence Industrial Developments
  • 4.2. Key Innovators/Developers
  • 4.3. Detection Of Multiple Gases Using Sensor Arrays With Innovative Material
  • 4.4. Ultra-sensitive Hydrogen Detection Using Hafnium
  • 4.5. Non Mechanical Compact Sensor For Gas Detection
  • 4.6. Key Technology Developments and Innovators
  • 4.6. Key Technology Developments and Innovators (Continued)
  • 4.7. Key Driving Factors
  • 4.8. Key Competitive Strategies of Organizations in Gas Sensing
  • 4.9. Roadmap and Future Opportunities

5.0. Assessment of Acoustic/Vibration Sensing - Key Developments and Innovators, Drivers and Challenges, Roadmap

  • 5.1. Predictive Analytics and Smart Sensors Influence Industrial Developments
  • 5.2. Key Innovators/Developers
  • 5.3. Predictive Maintenance Using Vibration Sensors
  • 5.4. Smart Sensor For Monitoring Health Of Low Voltage Motors
  • 5.5. Ultrasonic Sensor For Predictive Maintenance
  • 5.6. 3D Ultrasound Sensor For Robotics
  • 5.7. MM Wave Sensors for Industrial Mobility
  • 5.8. Key Technology Developments and Innovators
  • 5.8. Key Technology Developments and Innovators (Continued)
  • 5.8. Key Technology Developments and Innovators (Continued)
  • 5.9. Key Driving Factors
  • 5.10. Key Competitive Strategies of Organizations in Acoustic/ Vibration Sensing
  • 5.11. Roadmap and Future Opportunities

6.0. Assessment of Accelerometers/Tilt Sensing - Key Developments and Innovators, Drivers and Challenges, Roadmap

  • 6.1. Integration of Sensors and Growing Demand Drive Opportunities
  • 6.2. Key Innovators/Developers
  • 6.3. Ultrasensitive MEMS Accelerometers
  • 6.4. AMR and GMR Sensors for Industrial Applications
  • 6.5. Ultra Small Accelerometer For Vibration Monitoring And Motion Detection
  • 6.6. 3D Magnetic sensor for Multiple Component Detection
  • 6.7. High Precision Magnetic Sensor for 360° Angle Detection
  • 6.8. Key Technology Developments and Innovators
  • 6.8. Key Technology Developments and Innovators (Continued)
  • 6.8. Key Technology Developments and Innovators (Continued)
  • 6.9. Key Driving Factors and Challenges
  • 6.10. Roadmap and Future Opportunities

7.0. Other Key Innovations and Innovators' Profile

  • 7.1. Low Cost Chemical Dipsticks For Detecting Contamination
  • 7.2. Nano Chemical Sensor for Detecting Toxic Chemicals in Industries
  • 7.3. Key Developments and Innovators

8.0. Implementation Examples

  • 8.1. Case Studies - Image Sensors and Vibration Sensors
  • 8.2. Case Studies - Cameras and Smart Sensors
  • 8.3. Case Studies - Smart Ultrasonic Sensors and LiDAR

9.0. Key Patents

  • 9.1. Key Patents - Infrared Imaging Module and Motor Condition Monitoring
  • 9.2. Key Patents - Lidar Calibration and MEMS Gas Sensor

10.0. Key Industry Contacts

  • 10.1. Industry Contacts
  • Legal Disclaimer
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