市場調查報告書
商品編碼
1274227
聲波傳感器全球市場研究報告 - 2023-2030 年行業分析、規模、份額、增長、趨勢和預測Global Acoustic Wave Sensors Market Research Report - Industry Analysis, Size, Share, Growth, Trends and Forecast 2023 to 2030 |
全球對聲波傳感器的需求預計將從2022年的8.8639億美元增長到2030年的21.7904億美元,2023年至2030年調查期間的複合年增長率為11.9%。預計。
聲波傳感器利用聲表面波(SAW)和體聲波(BAW)等聲波的傳播,檢測和測量各種物理、化學和生物參數,是一種技術。 這些波傳感器的工作原理是聲波的頻率、速度和振幅等特性會隨著它們與感興趣的材料或環境的相互作用而改變,從而可以檢測和量化感興趣的參數。
汽車、航空航天、製造以及石油和天然氣行業的工業和過程自動化的增長趨勢正在推動對聲波傳感器的需求。 這些傳感器用於監測和控制工業過程中的壓力、溫度、流量和液位等各種參數,以優化操作、提高效率並確保安全。 無線通信和物聯網 (IoT) 技術的進步使聲波傳感器能夠集成到無線傳感器網絡中,使其成為遠程和分佈式傳感應用的理想選擇。 聲學傳感器可用於結構健康監測、環境監測和智能農業等應用中的無線和支持物聯網的系統,這些應用正在推動市場發展。 人口老齡化、慢性病增加以及醫療設備技術的進步等因素增加了對醫療保健監測和診斷的關注,從而在醫療保健應用中創造了對聲波傳感器的需求。
這些傳感器可用於監測血壓、心率、呼吸頻率、血糖水平和藥物輸送,有助於醫療保健行業的市場增長。 汽車和航空航天工業需要為各種應用提供實時和準確的傳感,例如輪胎壓力監測、發動機監測、結構健康監測和燃油液位傳感。 聲學傳感器非常適合這些應用,因為它們具有高靈敏度、快速響應和在惡劣環境中運行的能力,從而推動了這些行業的需求。 人們對空氣和水污染、氣候變化和資源保護等環境問題的認識不斷提高,這推動了對環境監測解決方案的需求。 聲學傳感器可用於檢測和監測氣體濃度、顆粒物、水質和土壤特性等參數,使其適用於環境監測和污染控制應用。 汽車、航空航天和工業製造等各個行業嚴格的安全、排放和質量法規和標準正在推動先進傳感技術的採用,包括聲波傳感器。 這些傳感器有助於滿足安全、排放和質量監測的監管要求,從而滿足這些行業的需求。
需要傳感功能的智能設備、可穿戴設備和消費電子產品的使用越來越多,這推動了對小型、低功耗、高性能傳感器(包括聲波傳感器)的需求。 這些傳感器處於市場領先地位,因為它們可用於智能設備和可穿戴設備,用於健身監測、手勢識別和人機界面等應用。 在聲波傳感器領域,市場受到不斷的技術進步和產品創新的推動,例如靈敏度提高、小型化以及與其他技術的集成。 更新的傳感器設計、材料和製造技術使更先進和專業的聲波傳感器的開發成為可能,從而擴大了應用範圍並推動了需求。
這份研究報告解釋了波特的五力模型、市場吸引力分析和價值鏈分析。 這些工具可幫助您清楚地了解您的行業結構並評估您在全球範圍內的競爭吸引力。 此外,這些工具還提供了對全球聲波傳感器市場各個部分的全面評估。 聲波傳感器行業的增長和趨勢為這項研究提供了一種整體方法。
聲波傳感器市場細分提供按國家和地區劃分的詳細數據,以幫助確定產品和服務的目標受眾和未來商機。
本部分涵蓋區域展望,重點介紹北美、歐洲、亞太地區、拉丁美洲、中東和非洲的聲波傳感器市場當前和未來的需求。 此外,我們還關注所有主要地區各個應用領域的需求、估計和預測。
世界聲學傳感器市場:按地區劃分的份額(代表性圖表)
聲波傳感器全球市場佔有率
這份研究報告還提供了市場主要參與者的綜合概況和全球競爭格局的詳細視圖。 聲學傳感器市場的主要參與者是 Vectron International(美國)、Qualtre Inc.(美國)、SENSOR(法國)、Sensor Technology Ltd.(美國)、Sensor Technology Inc.(美國)、NanoTemper Technologies GmbH(德國)、Alten GmbH(德國)、Transense Technologies(德國)、Pro-micron(德國)、Heinz Messwiderstande(德國)、Hawk Measurement System(澳大利亞)、Abracon LLC(美國)、AD Metro Inc(美國)、API Technologies Corp(美國) ). 本節包括對競爭格局的全面了解,包括各種戰略發展,例如主要併購、未來能力、合作夥伴關係、財務概覽、合作、新產品開發和新產品發布。
注意:公司簡介中的財務細節和近期發展基於可用信息,可能不包括私營公司。
The global demand for Acoustic Wave Sensors Market is presumed to reach the market size of nearly USD 2179.04 MN by 2030 from USD 886.39 MN in 2022 with a CAGR of 11.9% under the study period 2023 - 2030.
Acoustic wave sensors are a type of sensing technology that utilizes the propagation of acoustic waves, such as surface acoustic waves (SAW) or bulk acoustic waves (BAW), to detect and measure various physical, chemical, or biological parameters. These wave sensors work on the principle that the properties of acoustic waves, such as their frequency, velocity, and amplitude, change when they interact with a target substance or environment, allowing for the detection and quantification of the target parameter.
The growing trend towards industrial and process automation in automotive, aerospace, manufacturing, and oil & gas industries is driving the demand for acoustic wave sensors. These sensors are used for monitoring and controlling various parameters, such as pressure, temperature, flow, and level, in industrial processes to optimize operations, improve efficiency, and ensure safety. The advancements in wireless communication and Internet of Things (IoT) technologies have enabled the integration of acoustic wave sensors into wireless sensor networks, making them ideal for remote and distributed sensing applications. Acoustic wave sensors can be used in wireless and IoT-enabled systems for applications such as structural health monitoring, environmental monitoring, and smart agriculture, which are driving the market. The increasing focus on healthcare monitoring and diagnostics, driven by factors such as aging population, rising chronic diseases, and advancements in medical device technologies, is creating a demand for acoustic wave sensors in healthcare applications.
These sensors can be used for monitoring blood pressure, heart rate, respiratory rate, glucose levels, and drug delivery, contributing to the growth of the market in the healthcare sector. The automotive and aerospace industries require real-time and accurate sensing for various applications, such as tire pressure monitoring, engine monitoring, structural health monitoring, and fuel level sensing. Acoustic wave sensors, with their high sensitivity, fast response times, and ability to work in harsh environments, are well-suited for these applications, driving their demand in these industries. The increasing awareness about environmental concerns, such as air and water pollution, climate change, and resource conservation, is driving the demand for environmental monitoring solutions. Acoustic wave sensors can be used for detecting and monitoring parameters such as gas concentration, particulate matter, water quality, and soil properties, making them suitable for environmental monitoring and pollution control applications. The stringent regulations and standards for safety, emissions, and quality in various industries, such as automotive, aerospace, and industrial manufacturing, are driving the adoption of advanced sensing technologies, including acoustic wave sensors. These sensors can help meet the regulatory requirements for safety, emissions, and quality monitoring, contributing to their demand in these industries.
The increasing usage of smart devices, wearables, and consumer electronics that require sensing capabilities is driving the demand for compact, low-power, and high-performance sensors, including acoustic wave sensors. These sensors can be used in smart devices and wearables for applications such as fitness monitoring, gesture recognition, and human-machine interface, which are driving the market. The continuous technological advancements and product innovations in the field of acoustic wave sensors, such as improvements in sensitivity, miniaturization, and integration with other technologies, are driving the market. Newer sensor designs, materials, and fabrication techniques are enabling the development of more advanced and specialized acoustic wave sensors, expanding their range of applications and driving their demand.
The research report covers Porter's Five Forces Model, Market Attractiveness Analysis, and Value Chain analysis. These tools help to get a clear picture of the industry's structure and evaluate the competition attractiveness at a global level. Additionally, these tools also give an inclusive assessment of each segment in the global market of acoustic wave sensors. The growth and trends of acoustic wave sensors industry provide a holistic approach to this study.
This section of the acoustic wave sensors market report provides detailed data on the segments at country and regional level, thereby assisting the strategist in identifying the target demographics for the respective product or services with the upcoming opportunities.
This section covers the regional outlook, which accentuates current and future demand for the Acoustic Wave Sensors market across North America, Europe, Asia-Pacific, Latin America, and Middle East & Africa. Further, the report focuses on demand, estimation, and forecast for individual application segments across all the prominent regions.
Global Acoustic Wave Sensors Market Share by Region (Representative Graph)
Global Acoustic Wave Sensors Market Share
The research report also covers the comprehensive profiles of the key players in the market and an in-depth view of the competitive landscape worldwide. The major players in the acoustic wave sensors market include Vectron International (US), Qualtre Inc. (US), SENSOR (France), Sensor Technology Ltd. (US), NanoTemper Technologies GmbH (Germany), Althen GmbH (Germany), Transense Technologies (Germany), Pro-micron (Germany), Heinz Messwiderstande (Germany), Hawk Measurement System (Australia), Abracon LLC (US), AD Metro Inc. (US), API Technologies Corp (US). This section consists of a holistic view of the competitive landscape that includes various strategic developments such as key mergers & acquisitions, future capacities, partnerships, financial overviews, collaborations, new product developments, new product launches, and other developments.
Note - in company profiling, financial details and recent development are subject to availability or might not be covered in case of private companies