Design software properties and interfaces in Vehicle Hardware Abstraction Layer (VHAL) and Controller Area Network (CAN) and Automotive Ethernet Bridges, develop, test, and verify automotive infotainment system software on Virtual Cockpit Unit (VCU), Instrument Panel Cluster (IPC), Center Stack Module (CSM), and digital cockpit touch screen, in C, C++, Kotlin, Java, and Extensible Markup Language (XML) programming languages, using Android Software Development Kit (SDK), Git, and Android Studio Integrated Development Environment(IDE) tools, following Scaled Agile Framework (SAFe), for U.S./global Battery Electric Vehicles (BEVs), and to meet Software Defined Vehicle (SDV) architecture-based vehicle specific system, security, safety and encoding requirements. Act as Point of Contact to support communication between VCU and Android applications in passenger vehicles. Develop rapid prototype software for Proofs of Concept, utilizing Multi-Function Controller (MFC) as user input, and use uProtocol Systems to communicate between VCU and Android applications. Support development of Unified Diagnostic Services (UDS) Bridge to improve communication between VCU and applications.