As a special vehicle, motor caravans have high customer demand and expectations for product quality under current market conditions. At the same time, customers generally have strong demands for functional differentiation and modification. To meet the requirements, manufacturers need to redesign and construct the production process platform, including redesigning and transforming various functional unit modules on the vehicle. For example, the flexibility of production process platform systems, standardization of electrical interfaces, and modularization of functional units, etc. In the implementation process, by embedding flexible architecture into the existing universal process system, motor caravans modification can be flexibly organized according to customer orders and requirements while ensuring streamlined production. In the implementation process, the focus of the new installation process system is to match the electrical systems inside the vehicle, ensuring not only the matching between different unit systems, but also the compatibility between the new installation system and the original vehicle system. When formulating the modification process, it is necessary to meet the actual usage requirements and environmental conditions of the motor caravans, while also considering the speed of production organization.
The beginning of in car modification often means rebuilding local systems, and whether the compatibility and compatibility of the overall system modules are complete is the ultimate goal pursued by modification production enterprises. In the research process, methods such as comparison, literature review, and examples were used to attempt to illustrate the role of flexible process system architecture in promoting motor caravans modification, especially personalized and differentiated modification, in the context of rapid development of the contemporary automotive industry. Especially in today's rapidly developing advanced control technology of artificial AI, breaking down the whole into smaller parts and standardizing them one by one is of great significance for improving production efficiency and enhancing the automation level of process systems.