市场调查报告书
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1403389
到 2030 年工业视觉检测系统市场预测:按类型、组件、应用、最终用户和地区进行的全球分析Industrial Visual Inspection System Market Forecasts to 2030 - Global Analysis By Type, Component, Application, End User and By Geography |
根据 Stratistics MRC 的数据,全球工业视觉检测系统市场在预测期内将以 7.0% 的复合年增长率成长。
技术主导的工业视觉检测系统的目的是检查、分析和评估生产环境中产品和组件的品质、完整性和特性。为此,我们使用各种成像技术和电脑演算法来检测缺陷、发现不规则之处,并确保遵循特定标准,从而确保製造流程的一致性、精确度和准确度,这对于保持有效性至关重要。
对工业视觉检测系统的需求正在增加,因为它们大多数都专注于缺陷识别和预防。汽车、电子和製药等多个行业的製造商正在大力投资这些系统,以便在製造流程的阶段发现缺陷并防止有缺陷的产品进入市场。及早发现和避免缺陷都可以减少返工、废品和生产停机时间。因此,透过使用视觉检测系统,生产商可以快速识别并纠正问题,从而最大限度地减少与缺陷产品相关的材料浪费和营运费用,从而促进市场成长。我会支持你。
由于初始投资较高,企业可能需要很长时间才能看到投资回报。由于投资回报时间较长,公司可能会犹豫是否进行初始投资,特别是在有其他紧迫的营运费用或长期收益未知的情况下。由于安装视觉检测系统的初期成本较高,大型工业设施或成长设施可能无法扩展系统。需要大量资金来容纳更多的生产线和更广泛的产品,这阻碍了市场的成长。
自动化和工业 4.0 的进步
工业4.0着重于资料交换、自动化和智慧型生产的最尖端科技的整合。在这种范例中,视觉检测系统至关重要,因为它们透过提供自动化决策、资料分析和即时监控来支援智慧工厂的目标。透过自动化,即时决策的能力变得更加重要。当与自动化结合时,视觉检测系统可以快速识别缺陷和异常,快速做出反应以做出选择,并在无需人工干预的情况下采取补救措施。这提高了生产效率并促进市场成长。
投资这些技术的公司可能会发现,由于初始投资较高,需要一段时间才能收回投资回报。特别是如果您有其他紧迫的业务需求或不确定长期利益。实施新技术需要大量的初始投资,这可能会让公司不愿意承担风险。由于相容性、效能或可能无法获得预期投资回报等问题,组织可能不愿意使用目视检查系统。
疫情期间,某些产业和产品的需求发生了变化。有些行业对必需品的需求增加,而有些行业则减少。产量或需求减少的行业可能会推迟对检测系统的投资。儘管困难重重,但疫情加速了产业数位转型。企业将逐渐了解自动化、远端监控和资料主导决策的价值,所有这些都可以对视觉检测系统的采用产生积极的长期影响。
由于机器人和视觉技术的整合实现了精确可靠的检测,因此预计机器人视觉系统领域将出现良好的成长。利用视觉技术,机器人可以准确地检测缺陷、测量零件并执行复杂的检查,从而减少人为错误。这些系统可以进行修改以适应不同的产品尺寸、形状和类型。这种多功能性使其能够用于各种生产环境和产品线。
品管和保证产业预计在预测期内复合年增长率最高。这是因为,各行业对品质保证和品管的需求意识不断增强,从而推动了对工业视觉检测系统的需求。行业的成长和需求的增加导致了测试技术的投资和创新的增加。减少人为错误,确保商品符合准确的品质要求,并减少客户购买有缺陷产品的可能性。
预计亚太地区在预测期内将占据最大的市场占有率。这是因为这些国家的快速工业化导致采用视觉检测系统等最尖端科技来提高品管和生产效率。随着亚太地区对自动化、工业 4.0 计划和智慧製造技术的关注,对视觉检测系统的需求不断增加。企业正在这些技术上投入资金,以提高整体生产力、减少错误并提高业务效率。
由于北美是创新和研发活动的中心,因此预计欧洲在预测期内的复合年增长率最高。由于该地区自动化、人工智慧、机器学习和成像技术的显着进步,工业视觉检测系统蓬勃发展。此外,北美的医疗保健和生命科学产业需要对药品、医疗设备和医疗保健用品实施严格的品管程序。目视检查系统有助于确保法规遵循、发现缺陷并维持产品完整性,从而推动该地区的市场成长。
According to Stratistics MRC, the Global Industrial Visual Inspection System Market is growing at a CAGR of 7.0% during the forecast period. The purpose of the technology-driven Industrial Visual Inspection System is to examine, analyze, and assess the quality, integrity, or features of products or components in production environments. It does this by using a variety of imaging techniques and computer algorithms and is essential for maintaining uniformity, precision, and effectiveness in manufacturing processes since it may find flaws, spot irregularities, or confirm that certain criteria are being followed.
The growing need for industrial visual inspection systems is mostly due to the focus on fault identification and prevention. Producers in several sectors, including automotive, electronics, pharmaceuticals, and others, are putting more money into these systems to make sure that flaws are found early in the manufacturing process and that defective goods don't end up on the market. Rework, scrap, and production downtime are all decreased by early fault identification and avoidance. Thus by using visual inspection systems, producers may minimize material waste and operating expenses related to defective goods by quickly identifying and fixing problems which boosts the growth of the market.
The significant initial outlay may result in a longer time frame before businesses see a return on their investment. Businesses may be deterred from making the initial investment by a longer ROI timeline, particularly if they have other pressing operational expenses or are unsure of the long-term benefits. The high upfront cost of deploying visual inspection systems may prevent them from being scaled up for larger industrial facilities or those growing. The significant cash needed to scale up for more manufacturing lines or a wider range of products makes it difficult thus hamper the growth of the market.
Increasing automation and industry 4.0
Industry 4.0 places a strong emphasis on integrating cutting-edge technology for data interchange, automation, and intelligent production. In this paradigm, visual inspection systems are essential because they support the objectives of smart factories by providing automated decision-making, data analytics, and real-time monitoring. The ability to make decisions in real time is more important with automation. When combined with automation, visual inspection systems may quickly identify flaws or anomalies, respond quickly to make choices, and take remedial action without the need for human participation. This increases production efficiency thereby driving the growth of the market.
Businesses who invest in these technologies may find that their ROI takes longer to recover due to the high upfront expenditures. Due of the lengthier return time, firms may be deterred from making the initial expenditure, particularly if they have other pressing operational needs or are unsure about the long-term advantages. Companies may be less willing to take on risk when implementing new technology due to the significant initial financial commitment needed. Organizations may be reluctant to use visual inspection systems due to issues with compatibility, performance, or the likelihood of not realizing the anticipated return on investment.
During the pandemic, there was a shift in the demand for particular sectors and products. Certain industries saw a rise in the demand for necessities, while others saw a fall. Inspection system investments may have been delayed by industries experiencing a decline in output or demand. Notwithstanding obstacles, the pandemic sped up sectors' digital transition. Businesses have come to understand the value of automation, remote monitoring, and data-driven decision-making, all of which have the potential to have a favourable long-term effect on the adoption of visual inspection systems.
The robotic vision systems segment is estimated to have a lucrative growth, due to precise and reliable inspections that are made possible by the integration of robots and visual technologies. With the use of vision technology, robots may reduce human error by accurately detecting faults, measuring components, and carrying out intricate inspections. These systems may be modified to accommodate various product sizes, shapes, and kinds. Thus their versatility allows them to be used in a range of production environments and product lines, since they can be configured to perform a number of inspection jobs propel the market.
The quality control & assurance segment is anticipated to witness the highest CAGR growth during the forecast period, owing to the need for Industrial Visual Inspection Systems is being driven by the increasing awareness in all sectors of the need of quality assurance and control. As a result of the growing industry and greater demand, inspection technologies are seeing more investment and innovation. They cut down on human error, guaranteeing that goods fulfil exact quality requirements and lowering the possibility that defective goods will be purchased by customers.
Asia Pacific is projected to hold the largest market share during the forecast period owing to the rapid industrialization in these nations has led to the adoption of cutting-edge technology, such as visual inspection systems, to enhance quality control and production efficiency. The need for visual inspection systems has increased as a result of the APAC region's growing emphasis on automation, Industry 4.0 efforts, and smart manufacturing techniques. Businesses are spending money on these technologies in order to boost productivity overall, cut down on mistakes, and increase operational efficiency.
Europe is projected to have the highest CAGR over the forecast period, as it is the center of technical innovation and R&D activity is North America. Industrial Visual Inspection Systems have grown rapidly as a result of the region's notable advances in automation, artificial intelligence, machine learning, and imaging technology. Moreover strict quality control procedures are necessary for medicines, medical devices, and healthcare items in North America's healthcare and life sciences industries. Systems for visual inspection help ensure that regulations are followed, find flaws, and preserve product integrity which encourages the growth of the market in this region.
Some of the key players profiled in the Industrial Visual Inspection System Market include: Keyence, Imperx, Texas Instruments, LMI Technologies, Advantech, Datalogic, FRAMOS, Baumer Optronic, Ifm Group, PrimeTest Automation, Radiant Vision Systems, XVisio Technology, Ponfac, Teledyne Technologies, ISRA VISION, Omron Automation Americas, Scorpion Vision and Cognex
In November 2023, Texas Instruments announced the expansion of its low-power gallium nitride (GaN) portfolio, designed to help improve power density, maximize system efficiency, and shrink the size of AC/DC consumer power electronics and industrial systems.
In November 2023, Advantech to release its latest high-performance AIMB-723 industrial ATX motherboards with AMD RYZEN™ Embedded 7000 Processors. This is the first industrial-grade motherboard integrated with the AMD B650 chipset, delivering high computing performance with a remarkable 7-year lifespan.
In June 2023, Texas Instruments Incorporated announced plans to expand its internal manufacturing footprint in Malaysia with two new assembly and test factories in Kuala Lumpur and Melaka.