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市场调查报告书
商品编码
1403370
远距雷射多普勒震动到 2030 年的全球市场预测:按产品类型、最终用户和地区进行全球分析Long Distance Laser Doppler Vibrometer Market Forecasts to 2030 - Global Analysis By Product, Type, End User and By Geography |
根据 Stratistics MRC 的数据,远距雷射多普勒震动的全球市场在预测期内将以 4.0% 的复合年增长率成长。
远距雷射多普勒震动(LD-LDV) 是一种先进的光学测量设备,旨在表征远距结构和物体的震动。 LD-LDV 为远距震动分析提供了一种非侵入式的精确方法。此外,当雷射与震动物体相互作用时,分析反射光的频移以确定震动的速度和振幅。此功能使得 LD-LDV 在接触感测器不切实际或物件位于远端或难以存取的位置的应用中特别有用。
该领域的持续创新和探索有助于开发更先进、高效和多功能的震动测量解决方案。这包括雷射相干、波长控制、降噪技术等方面的进步。此外,製造商、研究机构和学术界之间的研发活动和合作营造了一个协作环境,以解决小型化、降低成本和环境稳健性等挑战。因此,研发活动中出现的新技术和方法正在促进市场成长。
开发和製造 LDLDV 设备需要先进的光学元件、精密感测器和复杂的讯号处理演算法。这些组件和技术的研究、开发和製造成本高昂,从而增加了 LDLDV 系统的价格。此外,这些系统通常需要专门的安装和校准程序,从而导致整体成本更高。此外,这些高昂的初始成本对 LDLDV 技术的广泛普及构成了障碍,特别是对于规模较小或预算有限的组织而言,从而抑制了市场成长。
雷射光源和相关组件的不断进步大大提高了震动的性能、精度和多功能性。雷射光源的改进,例如固体雷射和半导体雷射的发展,正在带来更可靠、更有效率的震动。此外,改进的光学元件可以更好地控制雷射光束,从而可以更精确地瞄准和远距离表面的震动测量。随着雷射技术的进步,量子光学和其他前沿领域的研究继续推动市场扩张。
LDLDV操作的复杂性在于其复杂的运行机制,它用雷射光束照射目标表面并将光线反射回感测器。首先,LDLDV系统的高成本限制了普及,特别是在中小企业中。此外,它还可能受到环境因素的影响,例如环境光、大气条件和表面粗糙度。这些因素可能会在测量中引入杂讯和误差,从而阻碍市场规模。
远距雷射多普勒震动市场受到了 COVID-19 大流行的负面影响。主要原因是全球供应链中断、计划延误和工业活动停滞。这场流行病减缓了各行业的製造和建设业业务,减少了对震动测量解决方案的需求。此外,由于半导体供不应求和物流挑战影响了零件生产并对研发产生了负面影响,市场规模萎缩。
脉衝多普勒震动部分预计将占据最大的市场份额,因为它是一种先进的高性能解决方案,可用于长距离高精度震动测量。脉衝多普勒震动透过短雷射脉衝检测震动,从而可以准确分析结构和机器的动态运动。此外,脉衝多普勒震动的主要优点包括处理复杂表面的能力、抗环境干扰的能力以及测量漫反射和镜面表面的能力。
手动对焦领域预计在预测期内复合年增长率最高。它属于震动类别,可以针对特定测量场景手动调整和优化雷射光束的焦点。它用于多种行业,包括製造、研发和结构安全监控。此外,寻求精确且易于使用的震动测量工具和根据特定测量要求量身定制的用户控制解决方案的行业正在推动该领域的成长。
由于动态的产业形势和技术进步,亚太地区在预测期内占据最大的市场占有率。中国、日本和韩国等国家的製造业、汽车和电子产业已采用它在各种应用中进行精确的震动分析。此外,汽车行业的品管和航太行业的结构健康监测的需求特别强烈,这正在推动该地区的扩张。
由于各行业对先进非接触式震动测量解决方案的需求不断增加,预计欧洲在预测期内的复合年增长率最高。该技术使用雷射光束远距离检测震动,在航太、汽车和土木工程等应用中特别有价值。 Ometron GmbH、Polytec 和 Teledyne Technologies Incorporated 等主要参与者为推动该地区成长的技术创新、严格的品质标准和研究机构做出了贡献。
According to Stratistics MRC, the Global Long Distance Laser Doppler Vibrometer Market is growing at a CAGR of 4.0% during the forecast period. A Long Distance Laser Doppler Vibrometer (LD-LDV) is an advanced optical measurement device designed to assess vibrations in structures or objects over extended distances. It offers a non-intrusive and precise method for long-range vibration analysis. Moreover, when the laser light interacts with the vibrating object, the frequency shift of the reflected light is analyzed to determine the velocity and amplitude of the vibrations. This feature makes the LD-LDV particularly valuable in applications where contact-based sensors are impractical or where the target is located at a remote or inaccessible location.
Continuous innovation and exploration in this field contribute to the development of more sophisticated, efficient, and versatile vibrometry solutions. This includes advancements in laser coherence, wavelength control, and noise reduction techniques. Furthermore, R&D activities and collaborations between manufacturers, research institutions, and academia foster a collaborative environment and also address challenges such as miniaturization, cost reduction, and environmental robustness. As a result, emerging technologies and methodologies arising from R&D efforts contribute to the market's growth.
The development and manufacturing of LDLDV equipment involve sophisticated optical components, high-precision sensors, and advanced signal processing algorithms. These components and technologies are expensive to research, develop, and produce, leading to a higher price tag for the LDLDV systems. These systems often require specialized installation and calibration procedures, which can add to the overall cost. Furthermore, these high initial costs pose a barrier to the widespread adoption of LDLDV technology, particularly for smaller organizations or those with budget constraints, thereby impeding market growth.
The continuous evolution of laser sources and related components significantly enhances the performance, precision, and versatility of these vibrometers. Improvements in laser sources, such as the development of solid-state lasers and semiconductor lasers, have led to more reliable and efficient vibrometers. Additionally, improved optics enable better control over the laser beam, allowing for more accurate targeting and measurement of vibration on distant surfaces. As laser technology continues to advance, ongoing research in quantum optics and other cutting-edge fields is boosting this market expansion.
The complexity of the LDLDV operation lies in its intricate working mechanism, which involves the emission of a laser beam onto a target surface, which then reflects the light back to the sensor. Firstly, the high cost associated with LDLDV systems limits their widespread adoption, particularly in small and medium-sized enterprises. Furthermore, it can be affected by environmental factors such as ambient light, atmospheric conditions, and surface roughness. These factors can introduce noise and errors in the measurements, which is hampering the market size.
The long distance laser doppler vibrometer market experienced negative impacts from the COVID-19 pandemic, primarily due to disruptions in global supply chains, project delays, and a slowdown in industrial activities. The pandemic led to reduced manufacturing and construction operations across industries, causing a decline in demand for vibration measurement solutions. Moreover, semiconductor shortages and logistic challenges impacted the production of components and had a negative impact on research and development, thus hindering the market size.
The pulsed vibrometers segment is estimated to hold the largest share, due to a sophisticated and high-performance solution for precise vibration measurements at a distance. These vibrometers use short laser pulses to detect vibrations, allowing for accurate analysis of dynamic movements in structures and machinery. Moreover, key advantages of pulsed vibrometers include their ability to handle complex surfaces, immunity to environmental interference, and the capacity to measure on both diffuse and specular surfaces, thereby boosting segment expansion.
The manual focus segment is anticipated to have highest CAGR during the forecast period. This belongs to a category of vibrometers that allows users to manually adjust and optimize the focus of the laser beam for specific measurement scenarios. They are used in various industries, including manufacturing, research and development, and structural health monitoring. Additionally, industries seeking customized and user-controlled solutions for specific measurement requirements for precise and user-friendly vibration measurement tools are driving this segment's growth.
Asia Pacific commanded the largest market share during the extrapolated period owing to dynamic industrial landscape and technological advancements. Some industries, such as manufacturing, automotive, and electronics, are adopted by countries like China, Japan, and South Korea for precise vibration analysis in diverse applications. Furthermore, the need for quality control in the automotive industry and structural health monitoring in the aerospace industry is particularly strong, which is thereby propelling this region's expansion.
Europe is expected to witness highest CAGR over the projection period, owing to a growing demand for advanced non-contact vibration measurement solutions across various industries. This technology employs laser beams to detect vibrations at a distance, making it particularly valuable for applications such as aerospace, automotive, and civil engineering. Some of the major key players, such as Ometron GmbH, Polytec, and Teledyne Technologies Incorporated, contribute to technological innovations, stringent quality standards, and research institutions that are driving this region's growth.
Some of the key players in the Long Distance Laser Doppler Vibrometer Market include Teledyne Technologies Incorporated, Sunny Optical Technology, Keyence Corporation, MetroLaser, Polytec, OMS Corporation, Renishaw plc, Zetlab Company, Ometron GmbH and Yokogawa Electric Corporation.
In October 2023, Teledyne Technologies Incorporated announced today that it has entered into an agreement to acquire Xena Networks ApS ("Xena Networks").
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In August 2023, Yokogawa Electric Corporation announced that it will release an upgrade of Collaborative Information Server (CI Server), a product in the OpreX™ Control and Safety System family, with more robust alarm management, improved access to maintenance information, and expanded support for international communications standards.
In September 2022, Sunny Optical Technology Group Company Limited, and Valens Semiconductor ("Valens") announced that they have partnered to integrate MIPI A-PHY-compliant chipsets into next-generation camera modules.