Vehicle to Everything Communication (V2X)
Vehicle-to-everything(V2X) communication systems connect directly to smart sensors and cameras. We are working on a single Domain Controller Architecture concept, where Body Control, Powertrain, Telematics, OTA, or EVs interacting with the charging station to enable secure billing, all running on one powerful processor under this Architecture defined in-line with AUTOSAR Systems.
AI Powered infotainment
Key Components of AI powered infotainment: Voice recognition: Provide hands free interaction. Machine learning: Enable infotainment systems to learn from drivers. Natural language processing: enable computers to understand, interpret, and generate human language. Data analytics: Help process large amounts of information
Vehicle Health Management Platform
Utilize AI and in vehicle data to provide early warnings of potential malfunctions in vehicles, helping the customer to plan their service time, reduce severe damages if warning indicators show up, fuel consumption information, and more.
V&V: Sensor System validation
Providing end-to-end system test and validation of vehicle sensor systems. The complexity of testing intelligent and autonomous vehicles with active safety, advanced driver assistance systems (ADAS) and autonomous drive (AD) development has increased significantly. We help with multiple facets of this testing, Example: Help align time synchronizations across all sensors, offer perception & ADAS function-levels test benches Etc.
Digital cockpit
Designing a scalable and secure software architecture for a European Tier-1 by leveraging advanced analytics and AI (Artificial Intelligence) capabilities to enable real-time monitoring of vehicle performance, safety, and comfort. The architecture can run multiple OS and applications to combine distributed functionalities.
Let’s Connect
Vehicle to Everything Communication (V2X)
V2X or vehicle-to-everything communication systems connect directly to smart sensors and cameras. We are working on a single Domain Controller Architecture concept, where Body Control and Powertrain, Telematics, OTA transfers, or Electric Vehicles (EVs), communicating with the charging station to enable secure billing, all will be running on one powerful processor under this Architecture defined in-line with AUTOSAR/adaptive AUTOSAR Systems
AI Power infotainment
Key Components of AI powered infotainment: Voice recognition: Provide hands free interaction. Machine learning: Enable infotainment systems to learn from drivers. Natural language processing: enable computers to understand, interpret, and generate human language. Data analytics: Help process large amounts of information
Vehicle Health Management Platform
Utilize AI and in vehicle data to provide early warnings of potential malfunctions in vehicles, helping the customer to plan their service time, reduce severe damages if warning indicators show up, fuel consumption information, and more.
V&V: Sensor System validation
Providing end-to-end system test and validation of vehicle sensor systems. The complexity of testing intelligent and autonomous vehicles with active safety, advanced driver assistance systems (ADAS) and autonomous drive (AD) development has increased significantly. We help with multiple facets of this testing, Example: Help align time synchronizations across all sensors, offer perception & ADAS function-levels test benches Etc.
Digital cockpit
Designing a scalable and secure software architecture for a European Tier-1 by leveraging advanced analytics and AI (Artificial Intelligence) capabilities to enable real-time monitoring of vehicle performance, safety, and comfort. The architecture can run multiple OS and applications to combine distributed functionalities.
Let’s Connect
Digital cockpit
Designing a scalable and secure software architecture for a European Tier-1 by leveraging advanced analytics and AI (Artificial Intelligence) capabilities to enable real-time monitoring of vehicle performance, safety, and comfort. The architecture can run multiple OS and applications to combine distributed functionalities.