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市場調查報告書

感測器創新推動IoT:市場機會分析

Sensor Innovations Driving IoT: Opportunity Analysis

出版商 Frost & Sullivan 商品編碼 914923
出版日期 內容資訊 英文 83 Pages
商品交期: 最快1-2個工作天內
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感測器創新推動IoT:市場機會分析 Sensor Innovations Driving IoT: Opportunity Analysis
出版日期: 2019年10月09日內容資訊: 英文 83 Pages
簡介

具有先進的資料回收、分析功能的智慧感應器,多參數感測器,彈性感測器,電子鼻等的技術推動IoT的普及。

本報告提供推動IoT的感測器創新趨勢調查,市場定義和概要,市場成長的各種影響因素分析,主要的感測器開發趨勢,關注的用途、利用產業企業的舉措、聯盟、事業開發活動,技術藍圖,未來展望等資料彙整。

第1章 摘要整理

第2章 感測器開發的主要區域

  • 節能大樓的低成本印刷二氧化碳感測器
  • 低溫運輸中水果的溫度監測感測器
  • 土壤分析改善農業
  • MIT:AI的姿勢感測
  • 即時遠隔IoT庫存管理解決方案
  • 提供地理定位的即時解決方案
  • 建設業的IoT感測器
  • 智慧水質監測用IoT感測器
  • 存在感檢測的溫度感測器
  • 各種用途的濕度、壓力感應器
  • 物體檢測的接近感測器
  • 液位感測器
  • 加速計
  • CE產品的MEMS陀螺儀
  • 氣體感測器和空氣品質監測
  • 環境監測的電子鼻
  • 影像感測器
  • 荷重元螢幕等

第3章 IoT的感測器的主要用途

  • 主要用途
  • 智慧建築
  • 人體感測器、人數計數感測器
  • 反射光場感測
  • 醫療保健部門的主要用途
  • E介面 (電子皮膚)
  • 工業自動化的感測器
  • 震動檢測的加速計
  • 邊緣閘道器的IoT連網型感測器
  • 無人操控車的IoT
  • 3D深度檢測
  • 環境監測的IoT感測器
  • 穿戴式設備
  • 電子鼻
  • 零售業IoT感測器的各種用途
  • 零售業的藍芽信標等

第4章 舉措、聯盟、事業開發活動

  • 收購:汽車
  • 收購:食品供應鏈
  • 投資:精密農業
  • 聯盟:公共安全的智慧城市技術
  • 聯盟:LED照明用IoT感測器的介面規格
  • 舉措:供應鏈數位化的智慧感應器

第5章 技術藍圖

  • 技術藍圖
  • 長期的預測
  • 分析師的見解:主要的技術、用途
  • 彈性材料的感測器和醫療保健產業
  • 行動裝置的微生物儀表

第6章 聯繫資訊

第7章 附錄

目錄
Product Code: D8F1

Smarter sensors with enhanced data collection and analysis capabilities, multi-parameter sensors, flexible sensors, e-noses are among the sensor technologies expanding IoT

Sensors are vital enablers of the Internet of Things (IoT), allowing a plethora of automated, connected devices that provide continuous feedback about their and can be remotely controlled. Sensors that are able to perform some processing and analysis on a wealth of data to provide the most important information with respect to their surroundings or a process or system's operations will enable IoT to improve and proliferate. Such connected sensors will also improve performance of production systems, enable smart homes for improved management of household tasks, provide consumer goods with improved functionality and customer interaction capability, enable connected mobility (public and private transport), and enhanced environmental monitoring, food or produce monitoring, utilities monitoring, smart cities, and defense and public safety.

Sensors that are conducive to IoT need to have low power, low cost for economical widespread deployment, compactness and unobtrusiveness, self-diagnostics, self-identification, self-validation, self-calibration, minimal maintenance requirements, data processing to reduce the burden on gateways, programmable logic controllers (PLCs), cloud resources.

This research service, “Sensor Innovations Driving IoT,” highlights the key enabling technologies allowing sensors to impact IoT. It also offers insights on individual technologies, key innovations and applications, and industry initiatives and business development activities. The research service is focused on technologies opening up and proliferating opportunities for IoT by enabling more cost-effective sensors that are able to provide more meaningful data in a network.

Key questions addressed in the research service include the following:

  • What are the key sensor technologies and developments impacting IoT?
  • What are the key applications for IoT sensors?
  • What are the factors driving adoption and expansion of sensors in IoT?
  • What are the Industry initiatives and activities enabling increased adoption and proliferation of sensors in IoT?
  • What are key growth opportunities for sensors in IoT?

Table of Contents

1.0 Executive Summary

  • 1.1 Research Scope
  • 1.2 Research Methodology
  • 1.3 Research Methodology Explained
  • 1.4 Key Research Findings
  • 1.4 Key Research Findings (continued)
  • 1.4 Key Research Findings (continued)
  • 1.4 Key Research Findings (continued)
  • 1.5 Sensors in IoT: Key Trends and Needs
  • 1.6 Key Drivers for Sensors in IoT
  • 1.7 Challenges for Sensors in IoT

2.0 Focus Areas of Sensor Development

  • 2.1 Low Cost Printed Carbon Dioxide Sensor for Efficient Buildings
  • 2.2 Sensing Fruit to Monitor Fruit Pulp Temperature Throughout the Cold Chain
  • 2.3 Artificial Fruit incorporates iButton, Which Acts as a Fruit Simulator
  • 2.4 Improved Agriculture Through Soil Analytics
  • 2.5 MIT uses AI to Sense Posture of an Individual
  • 2.6 Real-Time, Remote IoT Inventory Management Solution
  • 2.7 Real-time Solutions for Providing Location Information in the Future
  • 2.8 Sensors Reduce Need to Send Employees to Rural Diaries
  • 2.9 IoT Sensors Automate, Organize, and Monitor Construction
  • 2.10 IoT Sensors for Smart Water Quality Monitoring
  • 2.11 Temperature Sensors Enable Presence Detection
  • 2.12 Humidity and Pressure Sensors Find Various Applications
  • 2.13 Proximity Sensors Enable Detection of Objects
  • 2.14 Level Sensors Enable Detection of Viscous Fluid Level
  • 2.15 Accelerometers Find Applications in the Automotive Industry
  • 2.16 MEMS Gyros Find Applications in Consumer Electronics
  • 2.17 Gas Sensors Enable Air Quality Monitoring
  • 2.18 Electronic Noses find Opportunities in Environmental Monitoring
  • 2.19 Image Sensors Convert Optical Image into Electrical Signal
  • 2.20 Load Cells Monitor Items and Send Information to Remote Location

3.0 Key Applications for Sensors in IoT

  • 3.1 Key Applications for Sensors in IoT
  • 3.2 Sensors Enable Creation of Smart Buildings
  • 3.3 Human Presence Sensors and People Counting Sensors are Newer Types of Sensors
  • 3.4 Reflected Light Field Sensing Technology Enables People Counting
  • 3.5 Key Applications for Sensors in Healthcare
  • 3.5 Key Applications for Sensors in Healthcare (continued)
  • 3.6 Tactile Sensors Enable E-skin to Improve Healthcare
  • 3.7 E-skin Microsystem can Track Heartrate
  • 3.8 E-skin Finds Applications in Continuous Health Monitoring
  • 3.9 Sensor Applications in Industrial Automation
  • 3.10 Accelerometers fins Use in Vibration Measurement
  • 3.11 IoT Connected Sensors Deployed in Edge Gateway Reduce System Complexity
  • 3.12 IoT is Enabling Opportunities for Driverless Vehicles
  • 3.13 Research Showcases Efficacy of 3D Depth Detection
  • 3.14 Applications of IoT Sensors in Environmental Monitoring
  • 3.15 Wearables act as Personal Environmental Monitors
  • 3.16 Electronic Nose for Environmental Monitoring
  • 3.17 E-Nose Enables Environmental Air Quality Monitoring with Machine Learning
  • 3.18 Key Applications for Sensors in IoT in Retail
  • 3.19 Bluetooth Beacons Find Opportunities in Retail

4.0 Initiatives, Alliances, and Business Development Activities

  • 4.1 Industry Acquisitions - Automotive
  • 4.2 Industry Acquisitions in the Food Supply Chain
  • 4.3 Industry Investments - Precision Agriculture
  • 4.4 Alliances - Smart City Technologies for Public Safety
  • 4.5 Alliances - Interface Standard for IoT Sensors for LED Lighting
  • 4.6 Industry Initiatives - Smart Sensors for Supply Chain Digitization

5.0 Technology Roadmap

  • 5.1 Technology Roadmap for Sensors for IoT
  • 5.2 Long-Term Forecast for Sensors in IoT
  • 5.3 Analyst Insights - Growth Opportunities in Sensors for IoT: Key Technologies and Applications
  • 5.4 Sensors Made of Flexible Materials Expand Opportunities in Healthcare
  • 5.5 Microbiometers find Applications in Mobile Devices

6.0 Industry Contacts

  • 6.1 Key Contacts
  • 6.1 Key Contacts (continued)
  • 6.1 Key Contacts (continued)

7.0 Appendix

  • 7.1 Key Patents
  • 7.1 Key Patents (continued)
  • 7.1 Key Patents (continued)
  • 7.1 Key Patents (continued)
  • 7.1 Key Patents (continued)
  • Legal Disclaimer
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