市场调查报告书
商品编码
1371901
2030 年工业自动化 3D 相机市场预测:按类型、技术、用途和地区分類的全球分析3D Cameras for Industrial Automation Market Forecasts to 2030 - Global Analysis By Type (Line Scan Camera and Area Scan Camera), Technology, Application and By Geography |
根据 Stratistics MRC 的数据,2023 年工业自动化用 3D 相机的全球市值为 44 亿美元,预计在预测期内将以 22.3% 的年复合成长率增长,到 2030 年达到 180 亿美元。
各行业对自动化、品质保证和生产力提高的需求正在推动工业自动化市场中3D相机的稳定成长。 3D 相机在收集三维资料以实现工业製程中的精确检测、物件辨识和缺陷检测方面发挥关键作用。 3D相机应用于多种行业,包括汽车、航太、电子、製造、医疗、物流以及食品和饮料。
据印度品牌资产基金会 (IBEF) 称,印度是全球第三大需求最大的製造地,到 2030 年有潜力出口价值超过 1 兆美元的商品。此类配合措施将推动製造业中的高速 3D 相机市场。
3D 相机越来越多地应用于机器人和无人机技术。使用 3D 相机的机器人可以在製造和其他工业用途中更有效地操作和执行。机器人可以使用 3D 相机记录有关其环境的大量资讯,使它们能够以更高的精度和精确度执行困难的任务。在工业用途中,您可以更有效率、更精简、更安全地工作。随着工业机器人在3D影像处理中的引入,对3D相机的需求将会增加。
3D 相机采用先进技术,包括专用感测器、光学元件和影像处理工具。这些零件旨在以高解析度和精度准确撷取 3D资料。开发和完善 3D 相机技术需要大量的研发成本。这些成本必须由製造商收回,这可能导致产品价格上涨。一些 3D 相机适合在恶劣条件下工作,例如寒冷地区或危险情况。在这些条件下与相机设计相关的成本通常很高。
协作机器人上的 3D 摄影机可提高其感官和感知能力。借助该摄影机,协作机器人可以从三个维度观察周围环境,从而提高其了解周围环境、识别事物和避开障碍物的能力。协作机器人的主要优点之一是它们可以与人类一起安全地工作。 3D 相机在确保这种安全方面发挥着至关重要的作用。协作机器人配备 3D 相机,非常适合需要精度和用途的拾放任务。这些机器人可以准确定位和抓取各种尺寸和形状的物体,使其在运输、仓储和製造等领域发挥作用,创造广泛的市场成长机会。
许多 3D 相机技术在精确记录 3D资料的范围和景深方面都有限制。相机可能无法准确捕捉太近或太远的物体,通常会牺牲精度或需要专门的硬体来增加范围。对于需要即时或非常快速处理的应用程式来说,某些 3D 相机系统可能无法足够快地收集资料。此限制可能会影响自动化组装和物件追踪任务。相机产生的大量 3D资料会显着降低自动化系统的处理能力。
疫情导致电子商务激增,导致仓库和配送中心的自动化需求激增。这增加了对机器人、库存管理和物流中使用的 3D 相机的需求。医疗保健中的远端医疗、病患监测和体温检查等应用均使用 3D 摄影机。此外,3D扫描技术也被用于COVID-19药物和疫苗的研究和製造。这次疫情为多个产业带来了自动化的价值,它减少了对人力的需求,加强了社会距离,并确保了经济的连续性。因此,3D 相机和其他自动化技术的使用正在增加。
线扫描相机领域预计将出现良好的成长。随着许多行业对自动化需求的增加以及品管需求的增加,工业自动化中线扫描相机的市场正在稳步扩大。线扫描相机广泛应用于生产和检测过程。线扫描相机已成为汽车、电子、製药、食品和饮料、品管、缺陷检测和流程最佳化领域的重要组成部分。线扫描相机製造商经常提供不同线长、光谱灵敏度和介面选项等客製化服务来推动市场发展。
预计工业检测领域在预测期内的年复合成长率最高。因为在企业检查中,会使用3D相机配合各种技术来记录3D资料。常见的方法包括飞行时间 (TOF)、结构光、雷射三角测量和立体视觉。每种技术都有其优点,并且根据特定应用的要求选择最好的技术。工业检测 3D 相机的两个主要用途是控制和品质保证。这些相机可以检测製造产品中的缺陷、错误和变化。使用 3D 相机进行无损检测使製造商能够检查材料和零件的品质,而无需承担损坏的风险。这对于航太以及石油、天然气行业非常有用。因此,上述所有要素都在推动市场成长。
由于 3D 相机在虚拟实境 (VR)、扩增实境(AR)、机器人和工业自动化领域的使用显着增长,亚太地区预计将在预测期内占据最大的市场占有率。 。由于技术进步、对先进成像解决方案的需求不断增加以及对更准确和详细的空间资料的需求不断增长,3D 相机的使用正在扩大。因此,该地区可能将继续成为 3D 相机领域公司的重要市场,为未来年度的扩张和创新提供广阔的前景。
由于製造、物流和品管领域对自动化解决方案的需求正在推动 3D 视觉系统的采用,预计欧洲在预测期内将出现最高的年复合成长率。多家欧洲和国际公司正在推动工业自动化 3D 相机市场的发展。竞争推动了创新和创造更经济的解决方案。随着东欧部门实现製造业和物流业现代化,他们也利用3D相机技术实现工业自动化,将市场扩展到西欧以外。
According to Stratistics MRC, the Global 3D Cameras for Industrial Automation Market is accounted for $4.4 billion in 2023 and is expected to reach $18.0 billion by 2030 growing at a CAGR of 22.3% during the forecast period. The demand for automation, quality assurance, and increased productivity in a variety of industries has been propelling the steady growth of the 3D camera market in industrial automation. In order to enable accurate measurements, object recognition, and defect detection in industrial processes, 3D cameras play a critical role in the collection of three-dimensional data. Many different industries use 3D cameras, including the automotive, aerospace, electronics, manufacturing, health care, logistics, and food & beverage sectors.
According to India Brand Equity Foundation (IBEF), India is the world's third most demanding manufacturing location, with the potential to export commodities worth over USD 1 trillion by 2030. Such initiatives will drive the market for high-speed 3D cameras in manufacturing sectors.
3D cameras are increasingly being used in robotics and drone technology. Robotics that uses 3D cameras can perform and operate more effectively in manufacturing and other industrial applications. Robots can be taught to carry out difficult jobs more precisely and accurately by employing 3D cameras to record extensive information about the environment. In industrial contexts, this can result in more effectiveness, less waste, and higher safety. The demand for 3D cameras will increase with the installation of industrial robots in 3D imaging.
Advanced technology is used by 3D cameras, including specialized sensors, optics, and picture processing tools. These parts are designed to accurately capture three-dimensional data with high resolution and precision. Significant research and development expenditures are necessary for developing and perfecting 3D camera technology. These expenses must be recovered by the manufacturers, which may lead to higher product pricing. Some 3D cameras are made to function in difficult conditions, such chilly temperatures or perilous circumstances. Costs associated with designing cameras under these conditions are frequently costs higher.
3D cameras on collaborative robots have increased their sense-making and perception capacities. Cobots can see their surroundings in three dimensions thanks to these cameras, which improve their ability to comprehend their surroundings, recognize things, and avoid impediments. One of cobots' main benefits is that they can work securely alongside people. An essential part of ensuring this safety is played by 3D cameras. Cobots with 3D cameras are ideal for pick-and-place operations that call for accuracy and versatility. These robots are useful in sectors including transportation, warehousing, and manufacturing because they can precisely locate and grab things of various sizes and forms which creates wide range of opportunities for the growth of the market.
The range or depth of field that many 3D camera technologies can accurately record 3D data is constrained. Too-near or too-far objects may not be accurately caught by the camera this accuracy must frequently be sacrificed or specialist hardware is needed to increase the range. Some 3D camera systems might not be able to gather data quickly enough for applications that need real-time or extremely fast processing. This restriction may have an impact on automated assembly or object tracking tasks. The processing power of the automation system may be severely taxed by the massive amount of 3D data that cameras produce.
The demand for automation in warehouses and distribution hubs surged as a result of the pandemic's spike in e-commerce. This increased demand for 3D cameras used in robotics, inventory control, and logistics. Applications like telemedicine, patient monitoring, and temperature checking in healthcare have all used 3D cameras. Additionally, 3D scanning technologies were employed in the study and creation of COVID-19 medicines and vaccines. The epidemic brought to light for several industries the value of automation in lowering the need for human labour, preserving social distance, and assuring economic continuity. Due to this, the use of 3D cameras and other automation technologies has increased.
The line scan camera segment is estimated to have a lucrative growth, because of the rising need for automation and the need for quality control across numerous industries, the market for line scan cameras in industrial automation has been expanding steadily. In production and inspection procedures, line scan cameras have been extensively used. In sectors like automotive, electronics, pharmaceuticals, food and beverage, and quality control, defect detection, and process optimization, they were essential. Manufacturers of line scan cameras frequently offered customization choices, such as various line lengths, spectrum sensitivity, and interface options, to satisfy particular application requirements which are driving the market.
The industrial inspection segment is anticipated to witness the highest CAGR growth during the forecast period, as enterprise examination different technologies are used by 3D cameras to record 3D data. Time-of-flight (TOF), structured light, laser triangulation, and stereo vision are frequently used methods. Each technology offers a benefit, and the best one is picked based on the requirements of the particular application. Control and guarantee of quality are two of the main applications of industrial inspection 3D cameras. These cameras are capable of spotting flaws, errors, and variances in manufactured goods. Non-destructive testing, which uses 3D cameras, enables producers to examine the quality of materials and components without risking damage. This is very useful for the aerospace and oil and gas industries. Hence all the above factors propel the market growth.
Asia Pacific is projected to hold the largest market share during the forecast period owing to the usage of 3D cameras in fields including virtual reality (VR), augmented reality (AR), robotics, and industrial automation has grown significantly in the Asia Pacific area. The use of 3D cameras is expanding, driven by technical improvements, the demand for advanced imaging solutions is rising, and there is an increasing desire for more precise and detailed spatial data. As a result, the area will probably continue to be a significant market for businesses engaged in the 3D camera sector, offering excellent prospects for expansion and innovation in the years to come.
Europe is projected to have the highest CAGR over the forecast period, owing to the adoption of 3D vision systems was being driven by the desire for automation solutions in manufacturing, logistics, and quality control. The market for 3D cameras for industrial automation was active with several European and international businesses. Innovation and the creation of more economical solutions were being driven by competition. Eastern European nations were also utilizing 3D camera technology for industrial automation as they modernized their manufacturing and logistics sectors, expanding the market beyond Western Europe.
Some of the key players profiled in the 3D Cameras for Industrial Automation Market include: Basler, Zivid, Cognex Corporation, IDS, Balluff, Mech-Mind, Sony Corp., Canon Inc., Samsung Electronics Co., Ltd, GoPro, Inc., FUJIFILM Corp, Eastman Kodak Company, Orbbec 3D Technology International, Inc., LG Electronics and Nikon Corp
In September 2023, Basler as introduced their new pylon 7.4 pylon 7.4 offers a new Flat-Field Correction tool for the latest boost V CXP-12 cameras. Also, thanks to new vTools and the new Recipe Code Generator, your image processing is boosted to a new level.
In September 2023, Cognex Launches DataMan 380 to Increase Throughput for Logistics and Manufacturing. The DataMan 380 is a versatile image-based barcode reader that uses a high-resolution imager to capture more codes in a single image for maximum traceability.
In May 2023, Basler is expanding the vTools portfolio with the new "Starter" license level. Starter licenses provide a more budget-oriented version of the existing Basic and Pro licenses. They are available for all Code Reader and Template Matching licenses.