Sriram Kalluri, Product Marketing Manager for Cadence Tensilica DSPs, demonstrates the company’s latest edge AI and vision technologies and products at the 2025 Embedded Vision Summit. Specifically, Kalluri demonstrates the use of the Tensilica Vision 130 (P6) DSP for advanced 4D radar computing for perception sensing used in ADAS applications. The Vision 130 DSP is […]
AI chips for data centers, rely on international collaboration in design, manufacturing, and distribution, however the US has cornered China by restricting this collaboration. These AI processors see increasing demand in data centers, but this comes with high energy consumption and capital costs. The discussion around advanced chips for artificial intelligence, driven by billions in
US Export Controls on AI Chips Boost Domestic Innovation in China Read More +
For more information, visit https://www.idtechex.com/en/research-report/software-defined-vehicles-connected-cars-and-ai-in-cars/1108. SDV Central compute will hit US$755B by 2029; SDV feature revenue will grow 34% CAGR by 2035. The automotive industry is undergoing a foundational shift toward software-defined vehicles (SDVs), where functionality, value, and user experience are increasingly governed by software rather than hardware. IDTechEx’s report, “Software-Defined Vehicles, Connected Cars, and
Automation levels from 1 to 5 can be seen in almost all types of vehicles manufactured today. Levels 1 and 2 with adaptive cruise control or lane keep assist are the most common types of automation, with level 2 widely available in most regions worldwide. IDTechEx‘s report, “Passenger Car ADAS Market 2025-2045: Technology, Market Analysis,
Advancing ADAS Systems and Leveling Up Autonomy Read More +
This blog post was originally published at e-con Systems’ website. It is reprinted here with the permission of e-con Systems. In ADAS, forward-facing cameras capture traffic signs, signals, and pedestrians at farther distances using a narrow field of view (FOV). This narrower angle enables the camera to focus on distant objects with greater accuracy, making
Why HDR and LED Flicker Mitigation Are Game-changers for Forward-facing Cameras in ADAS Read More +
This blog post was originally published at Ambarella’s website. It is reprinted here with the permission of Ambarella. Across the globe, regulators are accelerating efforts to make roads safer through the widespread adoption of Automatic Emergency Braking (AEB). In the United States, the National Highway Traffic Safety Administration (NHTSA) implemented a sweeping regulation that requires
Achieving High-speed Automatic Emergency Braking with AI-driven 4D Imaging Radar Read More +
This market research report was originally published at the Yole Group’s website. It is reprinted here with the permission of the Yole Group. Yole Group releases the 2025 edition of its Automotive Imaging Report, offering industry-leading insights into the technology, market dynamics, and system integration behind advanced vehicle vision systems. KEY TAKEAWAYS Camera module revenues
Automotive Imaging Market Surges Toward $8.7B Milestone Read More +
This blog post was originally published at e-con Systems’ website. It is reprinted here with the permission of e-con Systems. Forward-facing cameras are the proverbial eyes of Advanced Driver Assistance Systems (ADAS). They collect real-time visual data from the vehicle’s surroundings and monitor the road, contributing to the system’s overall situational awareness. They capture key
How Does a Forward-facing Camera Work, and What Are Its Use Cases in ADAS? Read More +
This market research report was originally published at the Yole Group’s website. It is reprinted here with the permission of the Yole Group. Yole Group’s new report, Automotive LiDAR 2025, shows explosive growth in passenger cars, shifting OEM strategies, and China’s growing dominance across the value chain. KEY TAKE AWAYS: The global automotive LiDAR market
China Takes the Lead in Automotive LiDAR: A Market Set to Quadruple by 2030 Read More +
Keeping the driver alert on long drives and ensuring the safety of children in the rear sets are two examples of how in-cabin monitoring systems work to increase the welfare of passengers. Infrared and radar are two of the main technologies that operate within a vehicle’s in-cabin sensing systems, explored in IDTechEx‘s report, “In-Cabin Sensing
Detecting Drowsy Drivers: IDTechEx Explores In-cabin Sensing Read More +
Here you’ll find a wealth of practical technical insights and expert advice to help you bring AI and visual intelligence into your products without flying blind.
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