Ahmad, Bilal A component-based virtual engineering approach to PLC code generation for automation systems In recent years, the automotive industry has been significantly affected by a number of challenges driven by globalisation, economic fluctuations, environmental awareness and rapid technological developments. As a consequence, product lifecycles are shortening and customer demands are becoming more diverse. To survive in such a business environment, manufacturers are striving to find a costeffective solution for fast and efficient development and reconfiguration of manufacturing systems to satisfy the needs of changing markets without losses in production. Production systems within automotive industry are vastly automated and heavily rely on PLC-based control systems. It has been established that one of the major obstacles in realising reconfigurable manufacturing systems is the fragmented engineering approach to implement control systems. Control engineering starts at a very late stage in the overall system engineering process and remains highly isolated from the mechanical design and build of the system. During this stage, control code is typically written manually in vendor-specific tools in a combination of IEC 61131-3 languages. Writing control code is a complex, time consuming and error-prone process. [Continues.] Component-based automation;Automatic code generation;PLC programming;Virtual commissioning;Control systems;Assembly automation.;Mechanical Engineering not elsewhere classified 2014-10-14
    https://repository.lboro.ac.uk/articles/thesis/A_component-based_virtual_engineering_approach_to_PLC_code_generation_for_automation_systems/9540203