Capabilities
Acsia’s core capabilities span AUTOSAR, Android Automotive, Automotive Linux, HMI Development, Verification & Validation, Automotive Functional Safety, Cybersecurity, and Agentic AI.
Consumers are demanding increasingly personalized and feature-rich driving experiences without compromising on safety. The rise of advanced driver-assistance systems (ADAS) and technologies like V2X communication and over-the-air (OTA) software updates necessitates a significant leap forward in ECU software capabilities.
Android Automotive has emerged as a pivotal force in reshaping the in-vehicle experience. By harnessing the Android applications ecosystem, the platform unlocks a plethora of functionalities and services readily accessible to drivers and passengers.
As automotive technology continues to evolve into a key component of mainstream digital experiences, there is an opportunity to explore new ways of building software for vehicles. A more user-friendly and secure software development framework hinged on open-source principles and easily adaptable to evolving IoT standards may be the answer.
The automotive Human-Machine Interface (HMI) is transforming in-vehicle experiences with personalization and advanced intelligent features. Tools like Kanzi for stunning visuals, Android HMI for platform flexibility, and Qt/QML for rapid prototyping enable modern digital cockpits to integrate voice recognition, intuitive touch interfaces, and personalized user experiences.
V&V approaches are evolving to address the challenges presented by software & services, personalization, autonomous driving, and connected & electric vehicles. This includes software/system requirements & integration testing, system health and performance profiling ensuring cybersecurity and functional safety of complex systems.
Automotive Functional Safety (FuSa) is becoming increasingly critical as vehicles evolve into more complex, software-driven systems. With advancements like autonomous driving and advanced driver-assistance systems (ADAS), FuSa ensures that all electrical and electronic systems in vehicles perform safely, minimizing risks to passengers.
Vehicle connectivity is rapidly expanding, creating new functions but also significant cybersecurity vulnerabilities. Stricter regulations like ISO 21434 and the United Nations Economic Commission for Europe (UNECE) WP.29 are mandating a certified Cybersecurity Management System (CSMS) and Software Update Management System (SUMS) for OEMs, ensuring secure design from components to the vehicle level.
Artificial intelligence (AI) and machine learning (ML) are revolutionizing software development, particularly in the evolving automobile industry, where software-defined vehicles (SDVs) rely heavily on code for features and performance.
