市场调查报告书
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1215810
2022-2028 年汽车机器人市场Automotive Robotics Market 2022-2028 |
在预测期内,全球汽车工业机器人市场预计将以 11.1% 的复合年增长率显着增长。 预计在预测期内,对自动驾驶汽车的偏好上升将激增对汽车机器人市场的需求。 例如,2021 年 8 月,MG Motor India 推出了 Astor,一款配备个人人工智能助手和 Level 2 自动驾驶技术的中型 SUV。 该公司押注于新的汽车技术能力和“可能性与服务”的汽车即平台 (CAAP) 概念,以使 Aster 脱颖而出。 此外,Aster SUV 的仪錶盘配备了个人 AI 助手机器人,可以绘製类似人类的情绪和声音,并通过维基百科提供有关任何主题的详细信息。
全球汽车机器人市场根据类型、组件和应用进行细分。 根据类型,市场分为铰接式、标量式、正交式、合作式等。 基于组件,市场分为控制器、机械臂、末端执行器、传感器、驱动器等。 按应用又细分为装拆、焊接、喷漆、切割、物料搬运等。 预计 SCARA 机器人在预测期内将在市场上占据重要份额。 SCARA 机器人以高速和高精度运行。 在可重复性方面,目前可用的 SCARA 机器人可以实现 10 微米或更小的公差,而 6 轴机器人的公差为 20 微米。 当占地面积有限时,紧凑的布局便于为临时或远程应用程序重新部署。
市场细分按地区划分如下: 北美、欧洲、亚太地区和世界其他地区。 预计在预测期内,亚太地区将在汽车机器人市场占据重要份额。 不断上升的劳动力成本和提高的生产率正在推动该地区采用机器人。 据国际机器人联合会(IFR)称,中国是全球最大、增长最快的工业机器人市场。 此外,汽车行业的扩张预计将进一步增加中国汽车行业对机器人技术的需求。
Title:Global Automotive Robotics Market Size, Share & Trends Analysis Report, By Type (Articulated, SCARA, Cartesian, Collaborative, and Others), By Component (Controller, Robotic Arm, End Effector, Sensors, Drive, and Others), By Application (Assembling & Disassembling, Welding, Painting, Cutting, Material Handling, and Others), Forecast Period (2022-2028).
The global automotive robotics market is anticipated to grow at a substantial CAGR of 11.1 % during the forecast period. The rising inclination towards autonomous vehicles is expected to surge the demand for the automotive robotics market during the forecast period. For instance, in August 2021, MG Motor India revealed its mid-sized SUV, Astor equipped with a personal artificial intelligence assistant and level 2 autonomous driving technology. The company is betting on new auto-tech features and its concept of car-as-a-platform (CAAP) of 'possibilities and services' to differentiate the Astor. Further, the Astor SUV personal AI assistant robot on its dashboard that depicts human-like emotions and voices and can give detailed information on every topic through Wikipedia.
The global automotive robotics market is segmented based on the type, component, and application. Based on the type, the market is segmented into articulated, SCARA, Cartesian, collaborative, and others. Based on the component, the market is segmented into the controller, robotic arm, end effector, sensors, drive, and others. Based on the application, the market is further sub-segmented into assembling & disassembling, welding, painting, cutting, material handling, and others. The SCARA robots are expected to hold a considerable share in the market during the forecast period. The SCARA robot operates at high speed with high accuracy. In terms of repeatability, currently available SCARA robots can achieve tolerances lower than 10 microns, compared to 20 microns for a six-axis robot. By design, the SCARA robot suits applications with a smaller field of operation, and where floor space is limited, the compact layout also makes them more easily re-allocated in temporary or remote applications.
Geographically market is segmented into: North America, Europe, Asia Pacific, and the Rest of the World. The Asia-Pacific region is expected to hold a prominent share in the automotive robotics market during the forecast period. Due to the increasing labor cost and enhanced productivity, the adoption of robots is growing in the region. According to the International Federation of Robotics (IFR), China has become the world's largest market for industrial robotics and the fastest-growing market globally. In addition, the expansion of the automotive industry is expected to further strengthen the demand for automotive robots in China.
The major companies serving the global automotive robotics market include ABB Ltd., FANUC Corp., Kawasaki Heavy Industries Ltd., Yaskawa Electric Corp., and Kuka AG. The market players are contributing to the market growth by the adoption of various strategies including mergers and acquisitions, collaborations, and new product launches, to stay competitive in the market. For instance, in January 2020, Fanuc launched its lightweight collaborative robot for industrial applications, CRX-10iA. The company already has six models of its CR series of collaborative robots. However, this newly-launched industrial robot is of a new category. It is developed by taking the collaboration of manufacturing employees and robots into consideration. Further, the intuitive application is intended to facilitate operation for new users as companies scale up their automation and reduce setup times for experienced employees as well.
Research Methodology
The market study of the global automotive robotics market is incorporated by extensive primary and secondary research conducted by the research team at OMR. Secondary research has been conducted to refine the available data to break down the market into various segments, and derive the total market size, market forecast, and growth rate. Different approaches have been worked on to derive the market value and market growth rate. Our team collects facts and data related to the market from different geography to provide a better regional outlook. In the report, the country-level analysis is provided by analyzing various regional players, regional tax laws and policies, consumer behavior, and macro-economic factors. Numbers extracted from secondary research have been authenticated by conducting proper primary research. It includes tracking down key people from the industry and interviewing them to validate the data. This enables our analyst to derive the closest possible figures without any major deviations in the actual number. Our analysts try to contact as many executives, managers, key opinion leaders, and industry experts. Primary research brings authenticity to our reports.
Secondary Sources Include:
The report provides an in-depth analysis of the market size, and intended quality of the service preferred by consumers. The report will serve as a source for a 360-degree analysis of the market thoroughly integrating different models.
Market Segmentation
The Report Covers: