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感測器和數位技術的成長機會及其對建築自動化的影響
市場調查報告書
商品編碼
1351236

感測器和數位技術的成長機會及其對建築自動化的影響

Growth Opportunities and Impact of Sensors and Digital Technologies on Building Automation
出版日期: | 出版商: Frost & Sullivan | 英文 78 Pages | 商品交期: 最快1-2個工作天內

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簡介目錄

對改善室內空氣品質、運轉率感測、人工智慧和數位孿生的需求正在推動建築自動化市場的成長。

建築自動化越來越依賴感測器技術和數位服務。建築物使用感測器根據各種操作和環境要素(例如溫度、濕度、照度、運轉率和能源)收集資訊。這些資訊可用於以多種方式提高建築性能,包括提供舒適健康的室內環境、預防和管理緊急情況以及實現遠端存取和控制。

建築業正在見證各種技術進步,包括物聯網、雲端運算、巨量資料分析和機器學習。感測器和建築實施的進步正在迅速發展,並對世界各地產生重大影響,組織不斷推出創新產品。

使用巨量資料分析軟體和不同類型的感測器技術可以實現完全自動化和最佳化的建築性能,以及建築企業內更有效率的資訊管理和協調。感測器提供先進的功能,例如能源效率和遠端設施的即時監控。具有計算和通訊功能的感測器可以對民用基礎設施進行更廣泛、更經濟的結構健康監測。智慧二氧化碳感測器可實現按需控制的通風,即根據每個區域的居住者人數進行通風。

透過資料分析整合資訊技術 (IT) 和營運技術 (OT),可以最佳化資源利用和維護。這種整合提高了效率,降低了成本,確保了居住者的滿意度,並凸顯了智慧系統的價值。

智慧感測器正在迅速發展,北美等新興經濟體在採用趨勢方面處於領先地位。在歐洲,動態能源效率目標正在推動建築自動化的發展趨勢。建築自動化成長最快的地區是亞太地區,其推動因素是對結構的易用性和舒適性、工業需求和地緣政治要素不斷成長的需求。

Frost & Sullivan 的這項研究涵蓋以下主題:

  • 感測器技術在智慧建築中的概述及意義
  • 預覽標準和建築規範,以加速智慧建築中感測器的開發
  • 智慧建築關鍵感測參數摘錄
  • 數位服務價值提案的意義
  • 智慧建築生態系中 IT 與 OT 的融合
  • 智慧建築數位服務商業模式
  • 主要成長機會

目錄

戰略問題

  • 為什麼成長如此困難?
  • The Strategic Imperative 8(TM)
  • 建築自動化產業三大戰略問題的影響
  • 推動Growth Pipeline Engine(TM) 的成長機會
  • 調查方法
  • 成長環境

成長機會分析

  • 分析範圍
  • 分割
  • 成長促進因素
  • 成長抑制因素

影響

  • 感測器技術在智慧建築中的概述及意義
  • 智慧建築中的感測器技術需求
  • 促進智慧建築感測器開發的標準和建築規範
  • 全球建築標準與法規配合措施:概覽
  • 透過智慧建築控制系統實現經濟效益
  • 智慧建築的關鍵感測參數
  • 室內空間利用感測和室內空氣品質監測的重要性
  • 自動照明控制和運轉率感應的重要性
  • 感測器資料如何影響其他建築服務
  • 智慧建築中感測器網路的各種供電技術
  • 智慧建築中主要感測器的放置/佈置
  • 使用超寬頻雷達感測器偵測居住者的存在和移動
  • 案例研究 Poly | 透過惠普與 Neowit 合作策略重振智慧建築市場

智慧建築數位服務

  • 數位服務:價值提案與評估
  • 智慧建築 IT 與 OT
  • 智慧建築生態系中 IT 與 OT 的融合
  • 智慧建築中的資料管理生態系統
  • 智慧建築中的資料管理資料交互
  • 數位服務交付簡介
  • 數位服務交付 建築自動化
  • 數位服務提供 建築資料管理
  • 提供數位服務建築最佳化
  • 提供數位服務居住者體驗
  • 智慧建築數位服務:常見商業模式
  • 區域趨勢和見解
  • 技術實現模型:評估
  • 波特五力分析
  • 創新聚焦智慧建築
  • 創新聚焦 進展預測

成長機會宇宙

  • 成長機會1:擴增實境(XR)
  • 成長機會2:即插即用的感測器融合
  • 成長機會 3:利用人工智慧和機器學習
  • 成長機會4:數位孿生技術的採用與建築自動化系統的更新
  • 智慧建築感測器與數位服務:未來方向

附錄

  • 技術完備等級(TRL):說明

下一步

  • 下一步
  • 為什麼是霜凍,為什麼是現在?
  • 免責聲明
簡介目錄
Product Code: DAC9

The Need to Improve Indoor Air Quality, Occupancy Sensing, and AI and Digital Twin are Driving Building Automation Market Growth.

Building automation is increasingly relying on sensor technologies and digital services. Buildings use sensors to gather information based on a range of operational and environmental factors, including temperature, humidity, light levels, occupancy, and energy. The information can be utilized to improve building performance in a variety of ways, including providing a comfortable and healthy indoor atmosphere, preventing and managing emergencies, and enabling remote access and control.

With a plethora of technology advancements observed in the building industry, IoT, cloud computing, Big Data analytics, and machine learning are a few examples of digital technologies being used to achieve building automation. Advancements in sensors and implementation in buildings are rapidly evolving and creating a significant impact around the world, with organizations constantly introducing innovative products.

Fully automated and optimized building performance as well as more efficient information management and coordination within the building enterprise can be achieved using Big Data analytics software along with different types of sensor technologies. Sensors provide advanced capabilities, such as energy efficiency and real-time monitoring of remotely located facilities. Sensors with computational and communications capabilities enable more widespread and economical structural health monitoring of civil infrastructure. Demand-controlled ventilation is made possible by smart CO2 sensors, which provide ventilation based on the number of inhabitants in each area.

Integrating information technology (IT) and operational technology (OT) through data analytics enables optimization of resource utilization and maintenance. This integration enhances efficiency, saves costs, and ensures the satisfaction of building occupants, highlighting the value of intelligent systems.

Smart sensors are evolving rapidly, with developed economies, such as North America, leading the adoption trend. In Europe, dynamic energy efficiency goals are driving the development trend for building automation. The fastest-growing region for building automation is Asia-Pacific, attributed to the rising need for ease and comfort in structures, industry demand, and geopolitical factors.

This Frost & Sullivan study covers the following topics:

  • Overview and significance of sensor technologies in smart buildings
  • Preview of standards and building codes driving sensor developments in smart building
  • Snippet of key sensing parameters in smart building
  • Significance of value proposition of digital services
  • Convergence of IT and OT in the smart building ecosystem
  • Business models of smart building digital services
  • Key growth opportunities

Table of Contents

Strategic Imperatives

  • Why Is It Increasingly Difficult to Grow?
  • The Strategic Imperative 8™
  • The Impact of the Top 3 Strategic Imperatives on the Building Automation Industry
  • Growth Opportunities Fuel the Growth Pipeline Engine™
  • Research Methodology
  • Growth Environment

Growth Opportunity Analysis

  • Scope of Analysis
  • Segmentation
  • Growth Drivers
  • Growth Restraints

Impact of

  • Overview and Significance of Sensor Technologies in Smart Buildings
  • Need for Sensor Technologies in Smart Buildings
  • Standards and Building Codes Driving Sensor Developments in Smart Buildings
  • Global Building Standards and Regulatory Initiatives: A Snapshot
  • Economies Achieved through Intelligent Building Control Systems
  • Key Sensing Parameters for Smart Buildings
  • Significance of Indoor Space Utilization Sensing and Indoor Air Quality Monitoring
  • Significance of Automated Lighting Control and Occupancy Sensing
  • Sensor Data Impact on other Building Services
  • Various Powering Technics of Sensor Networks in Smart Buildings
  • Key Sensor Arrangements/Placements in Smart Buildings
  • Ultrawideband Radar Sensors Detect Occupant Presence and Movement
  • Case Study: Poly | HP and Neowit Partnership Strategy to Boost the Smart Building Market

Digital Service Offerings for Smart Buildings

  • Digital Services: Value Proposition and Evaluation
  • Smart Buildings: IT and OT
  • Convergence of IT and OT in the Smart Building Ecosystem
  • Data Management in Smart Buildings: Ecosystem
  • Data Management in Smart Buildings: Data Interactions
  • Digital Service Offerings: A Snapshot
  • Digital Service Offerings: Building Automation
  • Digital Service Offerings: Building Data Management
  • Digital Service Offerings: Building Optimization
  • Digital Service Offerings: Occupant Experience
  • Smart Building Digital Services: Common Business Models
  • Regional Trends and Insights
  • Technology Adoption Model: Assessment
  • Porter's Five Forces: An Analysis
  • Innovation Focus: Smart Buildings
  • Innovation Focus: Progression Outlook

Growth Opportunity Universe

  • Growth Opportunity 1: Extended Reality (XR)
  • Growth Opportunity 2: Plug-and-play Sensor Fusion
  • Growth Opportunity 3: Leverage AI and ML
  • Growth Opportunity 4: Adoption of Digital Twin Technology and Revamped Building Automation Systems
  • Smart Building Sensors and Digital Services: Future Directions

Appendix

  • Technology Readiness Levels (TRL): Explanation

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