![]() Players mainly include three major categories of individual players (their own chassis + own arms), cooperative players (their own chassis + other arms/other chassis + own arms), and integrated players (other chassis + other arms). Standard interfaces (API) enable all systems and information islands to be integratedĪt present, the major manufacturers in the field of composite robots are basically at the same level. ![]() It can extract common features in many non-standard application scenarios and pave the way for the realization of standardization.ģ. When building a composite robot system, the organic combination of software, algorithms, and hardware is an important trend in the development of composite robots. ① The composite robot with the strongest core and organic integration of hardware will definitely appear in various applications as an independent product. Powerful controllers, intelligent vision algorithms, and advanced software systems can solve the application problems of diverse businesses, complex scenarios, and difficult productization. System construction Steadily advance productization SEER Intelligent comprehensively integrates the findings in the practice of the cases, and feeds them back to the development of the product, and makes the constant adjustment, strives to polish solutions that are suitable for multiple industries, help customers in various industries to get through the close siege in the market, and realize the advancement of intelligent manufacturing.ġ. SEER Intelligent provides solutions covering AMR, composite mobile robots, software systems for many industries such as 3C, textile, semiconductor, e-commerce retail, and has a large number of solutions that have been implemented. Targeted solutions accelerate industry development: solutions help upgrade smart manufacturing The information flow is not smooth, the production process is discrete, and data is not shared when a single unit is connected to different systems, information between systems is not smooth. The complex system structure gives rise to more connecting interfaces, lowers the smoothness of system coordination, and leads to low deployment efficiency.ģ. The structure is complex, the project cycle is long, and the deployment efficiency is not high. The industry is still in the stage of conceptual exploration and trial, and lacks experiments and attempts in concrete scenarios semiconductor, 3C, inspection, and other scenarios are complex, and robot hardware scenarios are customized, and it is difficult to form a standard.Ģ. Diversified businesses, complex scenarios, and difficult productization.
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