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市場調查報告書

由於感測器的技術創新的「產業4.0」的變革

Sensor Innovations Transforming Industry 4.0

出版商 Frost & Sullivan 商品編碼 599568
出版日期 內容資訊 英文 52 Pages
商品交期: 最快1-2個工作天內
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由於感測器的技術創新的「產業4.0」的變革 Sensor Innovations Transforming Industry 4.0
出版日期: 2017年12月29日 內容資訊: 英文 52 Pages
簡介

所謂「產業4.0」,融合(連網)電腦網路系統與物理系統,再活用人工智能 (AI) 來實現IIoT (工業IoT)──一貫性的M2M (機器間通訊) 和數據傳送,包含相關產業的) 製造工程高科技化·自動化──之智慧型製造業型態之一。要最佳利用收集自各種機器·設備的資料、實現彼此通訊,就需要有高度信號處理·數據通訊功能的「智慧感應器」。

本報告提供實現·推動「產業4.0」時感應技術扮演的角色相關分析,提供主要企業·團體的「智慧感應器」的開發·活用案例,這樣的感測器對製造業的成長·高度化·自動化帶來的影響,為推動技術開發·事業而建立合作關係的動向,今後的成長機會等調查。

第1章 摘要整理

第2章 技術環境的評估:R&D組合的主題

  • 策略性評估:研究開發 (R&D) 組合分析

第3章 傳感器創新促進工業4.0

  • AMELI 4.0,用於機器狀態監測的智慧型自供電傳感器 - Bosch GmbH
  • RoMulus智慧型多傳感器系統 - 德國聯邦教育與研究部(BMBF)
  • 自診斷接近傳感器 (Honeywell International Inc.)
  • Safety++:可穿戴設備以提高能源工作者的安全 - 麻省理工學院(MIT)
  • 石墨烯電阻溫度傳感器 - (Marquette University,Cornell University (美國);Dongguk University,National Nanofab Center (韓國))
  • 勞動安全的穿戴式IoT網路解決方案 (Celtic-Plus (德國),Netas,(土耳其))
  • 無線傳感器系統的自動洗手間 - (Fraunhofer Institute for Integrated Circuits IIS,(德國))
  • TOMOCON (Helmholt-Zentrum Dresden-Rossendorf (HZDR),德國)
  • 連續式即時資產位置·狀態追蹤 (Cloudleaf,美國)

第4章 感測器普及狀態的評估

  • 「產業4.0」促進智慧感應器的需求
  • 傳感器數據對數位雙胞胎至關重要
  • 傳感器數據必須有效管理
  • 需要開放式嵌入式傳感器平台
  • 數位化製造中無處不在的傳感器
  • 開放標準
  • 物聯網和認知製造
  • IO-Link的
  • 實現電磁兼容性可能是困難的課題

第5章 策略性聯盟關係的評估

  • SmartFactoryKL
  • 感測器資料轉變到雲端
  • 智慧流程感測器 4.0
  • 用於混合模塊化設備的智慧核磁反應 (NMR) 感測器
  • Konux:Series 獲得1600萬美元的A系列資金
  • LoRa Alliance
  • 協動機器人超音波感測器
  • 「工具機4.0」

第6章 成長機會及策略性觀點

  • 「感測器4.0」相關主要成長機會
  • 促進「感測器4.0」引進的策略性方法

第7章 主要結論

目錄
Product Code: D7E5

Smart, Connected Sensors Create Opportunities in Smart Factories

Industry 4.0 is enabling smart factories by configuring cyber-physical (Internet-connected) systems coupled with artificial intelligence (AI) to leverage the Industrial Internet of Things (IIoT) for seamless machine-to-machine communication, data transfer, and advanced automation of processes throughout the manufacturing value chain. The opportunity to optimally use and communicate the data collected about key equipment and processes depends on the smart sensors with inherent signal processing and data communications capabilities.

Sensors will have key growth opportunities in Industry 4.0 driven by their ability to provide enhanced detection of equipment, process, and product conditions and improved Internet-based sharing of vital information within the manufacturing facility and across the entire supply chain. Industry 4.0 enables advancements in automation, efficiency, and flexibility driven by smarter sensors. This research report provides analysis of key technology innovations and identifies key developers of sensors and related technologies for improved sensing and communications of data for more efficient, cost-effective manufacturing. The technology and innovation report pinpoints key markets, needs, opportunities, and challenges for sensors in Industry 4.0.

Table of Contents

1.0. Executive Summary

  • 1.1. Research Scope
  • 1.2. Sensors in Industry 4.0-Trends and Needs
  • 1.3. Research Methodology
  • 1.3. Research Methodology (continued)
  • 1.4. Key Research Findings
  • 1.4. Key Research Findings (continued)

2.0. Technology Landscape Assessment-R&D Portfolio Themes

  • 2.1. Strategic Assessment: R&D Portfolio Analysis
  • 2.1. Strategic Assessment: R&D Portfolio Analysis (continued)

3.0. Sensors Innovations Driving Industry 4.0

  • 3.1. AMELI 4.0, Smart, Self-Powered Sensors for Machine Condition Monitoring-Bosch GmbH
  • 3.2. RoMulus Intelligent Multi-Sensor Systems-German Federal Ministry of Education and Research (BMBF)
  • 3.3. Self-diagnosing Proximity Sensors-Honeywell International Inc.
  • 3.4. Safety++, Wearables to Improve Safety of Energy Workers-Massachusetts Institute of Technology (MIT)
  • 3.5. Graphene Resistance Temperature Sensor-Marquette University, Cornell University, US; Dongguk University, National Nanofab Center, South Korea
  • 3.6. Wearable IoT Network Solution for Worker Safety-Celtic-Plus, Germany, Netas, Turkey
  • 3.7. Wireless Sensor System for Automated Washrooms -Fraunhofer Institute for Integrated Circuits IIS, Germany
  • 3.8. TOMOCON-Helmholtz0Zentrum Dresden-Rossendorf (HZDR), Germany
  • 3.9. Continuous Real-Time Asset Location and Condition Tracking-Cloudleaf, US

4.0. Assessment of Adoption of Sensors

  • 4.1. Industry 4.0 Drives Demand for Smart Sensors
  • 4.2. Sensor Data is Vital for Digital Twins
  • 4.3. The Sensor Data Must be Effectively Managed
  • 4.4. Need for Open Embedded Sensor Platforms
  • 4.5. Ubiquitous Sensors in Digitized Manufacturing
  • 4.6. Open Standards
  • 4.7. Internet of Things and Cognitive Manufacturing
  • 4.8. IO-Link
  • 4.9. Achieving Electromagnetic Compatibility can be Challenging

5.0. Assessment of Strategic Alliances

  • 5.1. SmartFactoryKL
  • 5.2. Transferring Sensor Data to the Cloud
  • 5.3. Smart Process Sensors 4.0
  • 5.4. Smart NMR Sensors for Hybrid Modular Plants
  • 5.4. Smart NMR Sensors for Hybrid Modular Plants (continued)
  • 5.5. Konux Garners $16 million in Series A Funding
  • 5.6. LoRa Alliance
  • 5.7. Ultrasonic Sensors for Collaborative Robots
  • 5.8. Machine Tool 4.0

6.0. Growth Opportunities and Strategic Viewpoint

  • 6.1. Key Growth Opportunities for Sensors 4.0
  • 6.1. Key Growth Opportunities for Sensors 4.0(continued)
  • 6.2. Strategic Approaches for Driving Adoption of Sensors 4.0
  • 6.2. Strategic Approaches for Driving Adoption of Sensors 4.0(continued)

7.0. Key Contacts

  • 7.1. Key Contacts
  • Legal Disclaimer
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