首頁 > 市場調查報告書 > 通訊

巨量資料

市場調查報告書

商品編碼

1845682

全球數據採集系統市場規模（按組件、應用、最終用戶、區域範圍和預測）

Global Data Acquisition System Market Size By Component, By Application (Research and Development, Process Monitoring and Control, Environmental Monitoring, Test and Measurement), By End-User, By Geographic Scope And Forecast

出版日期: 2025年09月25日 | 出版商:

Verified Market Research | 英文 202 Pages | 商品交期: 2-3個工作天內

價格

簡介目錄

數據採集（DAQ）系統市場規模及預測

數據採集 (DAQ) 系統市場規模預計在 2024 年達到 19.2 億美元，到 2031 年將達到 28.6 億美元，2024 年至 2031 年的複合年成長率為 5.10%。

資料擷取系統 (DAQ) 是製造業、醫療保健、汽車、航太和研究等各行各業不可或缺的工具。這些系統使組織能夠從多個來源收集數據，並將其整合到統一的平台中，以進行全面的分析、視覺化和決策。

DAQ 系統即時擷取和解釋數據，提供有價值的見解，以提高營運效率、最佳化流程並推動創新。

先進的DAQ系統是費米實驗室開發的otsdaq（現成資料擷取系統）。這款即用型系統整合了市售韌體和軟體組件以及價格實惠的商用現貨（COTS）硬體，以促進高效的數據讀取和其他DAQ功能。

otsdaq計劃旨在簡化費米實驗室測試光束設施 (FTBF) 中各種粒子檢測器的讀數，整合檢測器以顯著造福實驗者並增加為 FTBF 用戶提供的價值。

現代 DAQ 系統具有廣泛的功能，包括高速數據採集、多通道測量、與各種感測器的兼容性以及與軟體平台交互進行數據顯示和分析的能力，使其成為數據驅動決策的關鍵推動因素。

這些系統對於提高流程效率和理解複雜系統及現象至關重要。隨著技術的進步，數據採集系統不斷發展，以滿足各種應用日益成長的需求，在需要準確可靠數據採集的領域中，其重要性日益凸顯。

全球數據採集（DAQ）系統市場動態

影響全球數據採集（DAQ）系統市場的關鍵市場動態是：

關鍵市場促進因素

產業關鍵角色：資料收集 (DAQ) 系統對於提升航太和國防、政府、能源和汽車等各行各業的營運品質和效率至關重要。它們能夠提供即時數據和詳細的洞察，對於最佳化流程和確保高效能至關重要。

早期缺陷檢測：資料採集系統有助於在製造過程中及早發現缺陷。透過最大限度地減少人工干預並實現數據收集自動化，這些系統簡化了操作流程，降低了錯誤率，並提高了整體產品質量，這對於維持卓越營運至關重要。

在能源領域，數據採集系統對於監控和管理光伏 (PV) 系統、風力發電機等發電資產的性能至關重要。隨著對可再生能源的日益關注，對準確、即時監控的需求也日益增加，以確保這些資產的最佳運作和效率。

航太應用：在航太工業中，資料採集系統對於評估飛行空氣動力學以及檢驗飛機零件的安全性和性能至關重要。它們透過提供必要的即時數據，使工程師能夠評估性能指標並遵守嚴格的安全標準，從而提高飛機的安全性、性能和可靠性。

自動化需求不斷成長：各行各業對自動化的需求不斷成長，是 DAQ 系統市場的主要驅動力。自動化需要先進的資料收集和分析工具來管理複雜的流程並提高效率，而 DAQ 系統非常適合提供這些功能。

感測器技術的進步：感測器技術的進步正在擴展資料採集系統的功能和應用。增強型感測器提高了數據的準確性和可靠性，促進了市場成長，並實現了更複雜的數據收集和分析。

即時數據分析需求：各行各業對即時數據分析的需求日益成長。數據採集系統能夠提供及時、可操作的洞察，滿足這一需求，這些洞察對於決策、效能最佳化以及即時回應動態情況至關重要。

環境和監管壓力：日益成長的環境問題和嚴格的監管要求推動先進數據採集系統的應用。這些系統透過提供準確、全面的監控和彙報數據，幫助企業遵守環境標準和法規。

高速連接的影響：對 5G 等高速連接技術日益成長的需求預計將顯著促進 DAQ 系統市場的發展。高速連接可實現更快、更有效率的資料收集和處理，從而提升 DAQ 系統的功能，並支援其在各行各業的廣泛應用。

主要挑戰

昂貴的硬體：資料擷取 (DAQ) 系統通常需要大量的前期成本，因為需要各種硬體組件，例如感測器、訊號調節器、資料擷取模組等。取得和維護這些組件的成本可能是一個很大的障礙，特別是對於較小的組織或預算有限的組織。

軟體許可：資料收集、分析和視覺化所需的專用軟體也可能價格不菲。這些軟體解決方案通常需要支付高昂的授權和持續維護費用，這可能會增加組織的整體財務負擔。此外，升級軟體和購買額外功能的成本也會增加支出。

系統整合：將 DAQ 系統整合到現有IT基礎設施中可能是一個複雜且耗時的過程。此過程涉及確保與現有系統的兼容性、自訂介面以及管理各個元件之間的資料流。這種複雜性可能會延長部署時間、增加成本並中斷正在進行的營運。

技術專長：設定、配置和操作 DAQ 系統需要專業的技術知識和技能。對於缺乏內部專業知識的組織來說，對經過訓練的人員的需求是一個挑戰。這些要求增加了營運成本，並阻礙了 DAQ 系統的有效使用。

供應商鎖定：依賴特定供應商提供硬體、軟體和支援服務可能會導致供應商鎖定，從而限制靈活性並增加成本。企業可能會受到所選供應商專有技術和定價結構的限制，難以在不產生額外成本的情況下更換供應商或採用新的解決方案。

主要趨勢

數據主導決策：人們越來越重視透過即時洞察來最佳化流程和提高營運效率，這導致數據採集 (DAQ) 系統的應用日益廣泛。各行各業的組織越來越認知到利用即時數據做出明智決策、簡化營運和提升整體績效的價值。這一趨勢凸顯了 DAQ 系統的重要性，它能夠提供及時且準確的訊息，這對於策略規劃和營運調整至關重要。

智慧工廠：數據採集系統在工業 4.0 計畫中發揮關鍵作用，該計畫致力於打造智慧、互聯和自主的製造環境。這些系統能夠實現無縫資料整合、即時監控和自動化，對於實施先進的製造技術至關重要。透過支援智慧工廠營運，數據採集系統有助於提高生產流程效率、減少停機時間並增強品管。

無線連接：無線感測網路的興起正在擴展 DAQ 系統的靈活性和功能。無線連接使得在以前有線系統難以到達的地方部署感測器和數據採集設備變得更加容易。這一趨勢使 DAQ 系統更具適應性，能夠在各種環境中實現更動態的資料收集和整合。

資料儲存與分析：使用雲端基礎的平台進行資料儲存和分析正在改變 DAQ 資料的管理方式。雲端解決方案提供了可擴展且經濟高效的方案，可用於儲存大量資料並執行複雜的分析。這種向雲端處理的轉變使組織能夠有效率地處理大量資料、跨地協作，並利用先進的分析工具來獲取切實可行的洞察。

邊緣運算：邊緣運算趨勢正在重塑資料擷取市場，它使資料處理更接近資料來源。這種方法可以減少延遲，增強即時決策能力，並提高資料處理效率。透過在邊緣處理數據，企業可以獲得更快的回應時間和更即時的洞察，這對於需要快速數據分析和行動的應用程式至關重要。

Data acquisition systems (DAQ) are essential tools utilized across diverse industries such as manufacturing, healthcare, automotive, aerospace, and research. These systems enable organizations to gather data from multiple sources and consolidate it into a unified platform for comprehensive analysis, visualization, and decision-making.

By capturing and interpreting data in real-time, DAQ systems provide valuable insights that enhance operational efficiency, optimize processes, and foster innovation.

The advanced DAQ system is the otsdaq (off-the-shelf data acquisition) developed by Fermilab. This ready-to-use system integrates off-the-shelf firmware and software components with affordable commercial off-the-shelf (COTS) hardware, facilitating efficient data readout and other DAQ functions.

The otsdaq project aims to streamline the readout of various particle detectors at the Fermilab Test Beam Facility (FTBF), providing significant benefits to experimenters by integrating their detectors and enhancing the value delivered to FTBF users.

Modern DAQ systems boast a range of features including high-speed data acquisition, multi-channel measurements, and compatibility with various sensors. They also interface with software platforms for data presentation and analysis, playing a crucial role in data-driven decision-making.

These systems are pivotal in increasing process efficiency and understanding complex systems and phenomena. As technology progresses, DAQ systems continue to evolve, adapting to the growing demands of diverse applications and reinforcing their importance in domains where accurate and reliable data collection is paramount.

Global Data Acquisition (DAQ) System Market Dynamics

The key market dynamics that are shaping the global data acquisition (DAQ) system market include:

Key Market Drivers

Essential Role Across Industries: Data Acquisition (DAQ) systems are fundamental for improving operational quality and efficiency across various industries, including aerospace and defense, government, energy, and automotive. Their ability to provide real-time data and detailed insights is crucial for optimizing processes and ensuring high standards of performance.

Early Defect Detection: DAQ systems are instrumental in early defect detection during manufacturing processes. By minimizing human intervention and automating data collection, these systems streamline operations, reduce error rates, and enhance overall product quality, which is essential for maintaining operational excellence.

Energy Sector Applications: In the energy sector, DAQ systems are vital for monitoring and managing the performance of power generation assets, such as solar photovoltaic (PV) systems and wind turbines. As the focus on renewable energy sources intensifies, the need for precise and real-time monitoring to ensure optimal operation and efficiency of these assets becomes increasingly important.

Aerospace Industry Use: In aerospace, DAQ systems are crucial for evaluating flight aerodynamic properties and validating the safety and performance of aircraft components. They provide essential real-time data that helps engineers assess performance metrics and adhere to stringent safety standards, thereby enhancing the safety, performance, and reliability of aircraft.

Increasing Demand for Automation: The growing demand for automation across industries is a significant driver for the DAQ systems market. Automation requires sophisticated data collection and analysis tools to manage complex processes and improve efficiency, which DAQ systems are well-equipped to provide.

Advancements in Sensor Technologies: Technological advancements in sensor technologies are expanding the capabilities and applications of DAQ systems. Enhanced sensors improve data accuracy and reliability, contributing to the market's growth and enabling more sophisticated data acquisition and analysis.

Need for Real-Time Data Analysis: There is an increasing need for real-time data analysis across various sectors. DAQ systems facilitate this requirement by providing timely and actionable insights, which is crucial for decision-making, optimizing performance, and responding to dynamic conditions in real time.

Environmental and Regulatory Pressures: Growing environmental concerns and stringent regulatory requirements are driving the adoption of advanced DAQ systems. These systems help organizations comply with environmental standards and regulations by providing accurate and comprehensive data for monitoring and reporting.

Impact of High-Speed Connectivity: The rising demand for high-speed connectivity technologies, such as 5G, is expected to significantly benefit the DAQ systems market. High-speed connectivity enables faster and more efficient data acquisition and processing, enhancing the capabilities of DAQ systems and supporting their broader application across industries.

Key Challenges

Costly Hardware: Data Acquisition (DAQ) systems often involve substantial upfront costs due to the need for various hardware components, including sensors, signal conditioners, and data acquisition modules. The expense associated with acquiring and maintaining these components can be a significant barrier, particularly for smaller organizations or those with limited budgets.

Software Licensing: Specialized software required for data acquisition, analysis, and visualization can also be expensive. These software solutions often come with high licensing fees and ongoing maintenance costs, which can add to the overall financial burden for organizations. The cost of upgrading or acquiring additional software functionalities further contributes to the total expense.

System Integration: Integrating DAQ systems with existing IT infrastructure can be complex and time-consuming. The process often involves ensuring compatibility with current systems, customizing interfaces, and managing data flow between various components. This complexity can lead to extended implementation timelines and increased costs, potentially causing disruptions in ongoing operations.

Technical Expertise: Setting up, configuring, and operating DAQ systems requires specialized technical knowledge and skills. The need for trained personnel can pose a challenge for organizations lacking in-house expertise. This requirement can increase operational costs and create barriers to the effective utilization of DAQ systems, as organizations may need to invest in training or hire skilled professionals.

Vendor Lock-In: Dependence on specific vendors for hardware, software, and support can lead to vendor lock-in, limiting flexibility and increasing costs. Organizations may find themselves constrained by the proprietary technologies and pricing structures of their chosen vendors, making it difficult to switch providers or adopt new solutions without incurring additional expenses.

Key Trends

Data-Driven Decision Making: The growing emphasis on optimizing processes and enhancing operational efficiency through real-time insights is significantly driving the adoption of Data Acquisition (DAQ) systems. Organizations across various industries are increasingly recognizing the value of leveraging real-time data to make informed decisions, streamline operations, and boost overall performance. This trend underscores the importance of DAQ systems in providing timely and accurate information critical for strategic planning and operational adjustments.

Smart Factories: DAQ systems play a crucial role in Industry 4.0 initiatives, which focus on creating smart, connected, and autonomous manufacturing environments. These systems are integral to the implementation of advanced manufacturing technologies, enabling seamless data integration, real-time monitoring, and automation. By supporting smart factory operations, DAQ systems contribute to more efficient production processes, reduced downtime, and enhanced quality control.

Wireless Connectivity: The rise of wireless sensor networks is expanding the flexibility and capabilities of DAQ systems. Wireless connectivity facilitates the deployment of sensors and data acquisition devices in locations that were previously challenging to reach with wired systems. This trend enhances the adaptability of DAQ systems, allowing for more dynamic data collection and integration across diverse environments.

Data Storage and Analysis: The increasing use of cloud-based platforms for data storage and analysis is transforming how DAQ data is managed. Cloud solutions offer scalable and cost-effective options for storing large volumes of data and performing complex analyses. This shift to cloud computing enables organizations to handle vast amounts of data efficiently, collaborate across locations, and leverage advanced analytics tools to derive actionable insights.

Edge Computing: The trend toward edge computing is reshaping the DAQ market by enabling data processing closer to the data source. This approach reduces latency, enhances real-time decision-making, and improves the efficiency of data handling. By processing data at the edge, organizations can achieve faster response times and more immediate insights, which are essential for applications requiring rapid data analysis and action.

Global Data Acquisition (DAQ) System Market Regional Analysis

Here is a more detailed regional analysis of the global data acquisition (DAQ) system market:

North America

North America is leading the global data acquisition (DAQ) systems market, driven by its robust industrial base and continuous technological advancements.

The region's dominance is evident across multiple sectors, including automotive, aerospace, healthcare, manufacturing, and research institutions. This growth is largely fueled by significant investments in research and development (R&D), which foster innovations in DAQ hardware, software, and sensor technologies.

These advancements have led to the creation of more accurate, reliable, and efficient DAQ systems that meet the evolving needs of various industries.

A key driver of this market leadership is the widespread adoption of Industry 4.0 principles, which emphasize automation, connectivity, and data-driven decision-making. In North America, DAQ systems are integral to these principles, supporting the collection, processing, and analysis of data from diverse sources.

The United States, in particular, has a significant influence on the market due to its position as one of the world's largest automotive markets. With over 13 major automobile manufacturers and a robust automotive manufacturing sector, the country generates substantial revenue, making it a critical driver for the DAQ systems market.

North America is expected to maintain its dominance in the DAQ systems market. Favorable government policies, significant industrial automation adoption, and new intelligent manufacturing ventures are anticipated to further bolster the region's market share.

The region's emphasis on technological advancement and its substantial number of early technology adopters solidifies its position as a leader in the global DAQ systems market.

Asia Pacific

Asia Pacific is poised for the fastest growth in the data acquisition (DAQ) systems market in the coming years.

The robust industrial sector development, supportive government policies, and the increasing integration of emerging technologies such as artificial intelligence (AI) and the Internet of Things (IoT).

The region's vibrant industrial landscape, which spans electronics, healthcare, aerospace, and automotive sectors, is fueling the demand for advanced DAQ systems.

Ongoing research and development activities across these industries are pushing the boundaries of technological innovation, creating a strong need for sophisticated DAQ solutions capable of handling complex data acquisition and analysis tasks.

China, as the largest automaker in the Asia Pacific region, exemplifies the significant impact of the automotive industry on the DAQ systems market.

The presence of numerous automotive original equipment manufacturers (OEMs) and manufacturing facilities in China is driving a heightened demand for DAQ systems to monitor and optimize production processes, ensure product quality, and support advanced automotive technologies

Global Data Acquisition (DAQ) System Market: Segmentation Analysis

The Global Data Acquisition (DAQ) System Market is segmented based on Component, Application, End-User, And Geography.

Data Acquisition (DAQ) System Market, By Component

Hardware

Software

Services

Based on the Component, the Global Data Acquisition DAQ System Market is bifurcated into Hardware, Software, and Services. The hardware segment led the global data acquisition (DAQ) system market. Hardware is vital for data acquisition, providing the necessary infrastructure for collecting and processing data. This segment includes key components such as sensors for measuring physical phenomena, analog-to-digital converters (ADCs) for converting signals, actuators for performing actions, signal conditioning devices for data preparation, and communication devices for data transfer. These elements are essential for accurate data capture and conversion, supporting various applications, and driving market expansion.

Data Acquisition (DAQ) System Market, By Application

Research and Development (R&D)

Process Monitoring and Control

Environmental Monitoring

Test and Measurement

Based on the Application, the Global Data Acquisition DAQ System Market is bifurcated into Research and Development (R&D), Process Monitoring and Control, Environmental Monitoring, Test and Measurement. Research and development dominates the global data acquisition (DAQ) system market. Research and Development efforts are dedicated to advancing hardware components for data acquisition (DAQ) systems, including data acquisition cards, modules, sensors, and interfaces. This involves exploring new materials and manufacturing techniques to improve accuracy, reliability, and efficiency.

Data Acquisition (DAQ) System Market, By End-User

Automotive

Electronics and Semiconductor

Aerospace and Defense

Healthcare and Life Sciences

Based on End-User, the Global Data Acquisition DAQ System Market is bifurcated into Automotive, Electronics and Semiconductor, Aerospace and Defense, Healthcare, and Life Science. The aerospace and defense segment dominates the global data acquisition (DAQ) system market driven by the sector's need for rigorous testing and real-time monitoring of aircraft and defense equipment under various conditions.

Key Players

The "Global Data Acquisition (DAQ) System Market" study report will provide valuable insight with an emphasis on the global market. The major players in the market are National Instruments, Keysight Technologies, Agilent Technologies, Yokogawa Electric Corporation, Honeywell International, Inc., Siemens AG, Advantech Co., Ltd., Phoenix Contact GmbH & Co. KG, Fortive, Emerson Electric Co., Teledyne Technologies Incorporated, Spectris PLC, General Electric, HBM, GE, Brilel & Kjaer, Fluke Corporation.

Our market analysis also entails a section solely dedicated to such major players wherein our analysts provide an insight into the financial statements of all the major players, along with its product benchmarking and SWOT analysis. The competitive landscape section also includes key development strategies, market share, and market ranking analysis of the above-mentioned players globally.

Data Acquisition (DAQ) System Market Key Developments

In January 2023, Axiometrix Solutions' imc Test & Measurement brand unveiled its new modular data gathering system, IMC ARGUSfit. The imc ARGUSfit base unit and additional amplifier and fieldbus interface modules, such as the FD, can be easily snapped together to provide maximum flexibility in automobile and machine testing and monitoring.
In June 2022, Advantech announced the release of a new range of data-collecting modules called the iDAQ series. The iDAQ series is a new line of modular data acquisition modules and chassis, which includes the iDAQ-900 chassis and the iDAQ-700 and 800 DAQ modules.
In December 2021 - ABB India announced the collaboration with Indore Smart City Development to deliver digital technology that allows for uninterrupted electricity supply to residences and businesses. ABB's Compact Secondary Substations (CSS) employed in the project reduce downtime by providing a consistent and dependable power supply via digitally enabled supervisory control and data acquisition (SCADA) systems.