Abstract :
Further, automotive software systems engineers must deliver features that cross multiple domains (body, chassis, powertrain, multimedia, driver assistance, personalization, and human machine interfaces) and reside on a distributed network of modules. These vehicle systems are also delivered through the cooperation of many automotive and non-automotive suppliers based in various geographic locations, which poses a significant project management challenge to the software systems engineering team. In addition to managing the initial project, the software systems engineer must also explicitly design for and support the re-use of stand-alone software features, mechatronic subsystems and entire vehicle-level, electronic-control-system electrical architectures. Finally, the traditional automotive software systems engineering lifecycle has expanded to include processes, methods, tools, and infrastructure (PMTI) that must integrate across all phases and domains of the technology innovation and product delivery- maintenance-disposal lifecycle.
Keywords :
automotive engineering; project management; software development management; software maintenance; software prototyping; systems analysis; automotive software systems engineering lifecycle; model-based design; product delivery-maintenance-disposal lifecycle; project management; software development management; technology innovation; vehicle system; Automotive engineering; Biological system modeling; Design engineering; Mechanical power transmission; Multimedia systems; Power engineering and energy; Power system modeling; Project management; Software systems; Systems engineering and theory;
