Advanced driver assistance systems (ADAS) that sense, think and act will provide the safe and increasingly autonomous experiences of the future. Explore these sessions and resources to learn about how we enable radar sensors and help to increase road safety.
As vehicles evolve toward higher levels of autonomy, radar technology plays a pivotal role in enabling safe, reliable, and intelligent driving experiences. The Imaging Radar Academy is your comprehensive learning hub designed to guide engineers, developers, and innovators through the rapidly advancing world of automotive radar systems.
| Training | Details |
|---|---|
| An Introduction to the Imaging Radar Academy | Get an overview of the Imaging Radar Academy and how it supports your journey into advanced radar technologies. |
| Next Generation Radar from NXP: Systems Solutions, Enablement and Introduction to Partner smartmicro | Learn how NXP and smartmicro collaborate to deliver scalable radar systems with cutting-edge performance and integration. |
| Global Roll-Out of Imaging Radar Set to Accelerate - Scalability and Efficiency Remain Key Enablers | Discover the latest market developments in ADAS and autonomous driving and the emerging requirements for the next generation of imaging radar technology on a global scale. |
| Training | Details |
|---|---|
| EdgeLock® Assurance Program and the S32R45 Imaging Radar Processor | Discover how NXP's EdgeLock® security and the S32R45 processor enable secure, high-resolution imaging radar. |
| Automotive Imaging Radar Reference Design by smartmicro | See how smartmicro's reference design accelerates development of production-ready imaging radar systems. |
| Designing Production-Ready High-Performance Radar Systems on the NXP S32R45 Processor | Gain insights into building robust radar systems using the powerful S32R45 processor. |
| Imaging Radar Set to Accelerate – Opportunities and Challenges | Explore the evolving imaging radar market, highlighting diverse requirements and how the S32R47 enables next gen imaging radar for up to ADAS Level 4. |
| Training | Details |
|---|---|
| Simplifying High Performance Safety Radar Systems with Green Hills INTEGRITY Platform and NXP Radar Processor S32R45 | Learn how the Green Hills INTEGRITY RTOS simplifies the development of safety-critical radar applications. |
| How to Accelerate S32R45 Radar Applications with Linear Algebra Accelerators | Explore how hardware-accelerated math libraries can boost radar processing performance on the S32R45. |
| New RSDK for S32R45 with Front-End Support | Understand how the latest Radar Software Development Kit (RSDK) streamlines development with front-end integration. |
| NXP's Scalable 4D Imaging Radar Fosters Accelerated Level 2+ Penetration | See how scalable 4D imaging radar solutions are enabling broader adoption of Level 2+ autonomous features. |
| Imaging Radar Continues to Push the Boundaries of Driving Safety | Discover how imaging radar enhances perception and safety in increasingly complex driving environments. |
| Computational Enhancement Is Key to Imaging Radar Mass Deployment | Learn why computational efficiency is critical to scaling imaging radar across vehicle platforms. |
| Training | Details |
|---|---|
| Jumpstart Your Radar System Solutions with Our Dedicated Radar SDK for NXP Processors and MMICs | Get started quickly with NXP's Radar SDK, designed to support a wide range of processors and radar front-ends. |
| Fast Track Radar Application Development with the Development Kit for S32R294 Radar MCU and TEF82XX Radar MMIC | Accelerate your radar development using NXP's integrated development kit for mid-range radar applications. |
| Training | Details |
|---|---|
| AI-Driven DoA and Interference Mitigation on a 4T4R Radar SoC | A streamlined radar pipeline merges classical methods and AI to boost DoA accuracy and mitigate interference. |
| Radar AI - Deep Neural Networks for Enhanced Radar Point Cloud Generation | Explore how AI and deep learning are transforming radar data into rich, high-resolution point clouds. |
| Sparse Array Approach to Imaging Radar and Comparison with a Quasi Massive MIMO Technique | Dive into advanced radar architectures using sparse arrays and MIMO techniques for enhanced imaging. |
Focused on advanced high resolution long-range front or rear radar sensors.
Enables customers to build scalable, safe and secure automotive RADAR systems dedicated to corner and front radar applications.
Features Arm® Cortex®-A53 and Cortex-M7 cores which are combined with dedicated radar processing accelerators to create an optimal radar processing chain.
Enables higher resolution sensing for L2+ / L3 autonomous driving and beyond.
TEF82xx is an ISO26262 compliant device targeting ASIL Level B, which is optimized for fast chirp modulation and is fully compatible with NXP S32R29x and S32R45x radar microcontrollers.
The SAF85xx RFCMOS automotive radar System-on-Chip (SoC) is a high performance one-chip for automotive FMCW radar application, which is optimized for fast chip modulation.
This article covers the new emerging distributed radar architectures which are leveraging information from across a network of radar sensors around the vehicle.
Sign in to download the white paperExplore 4D imaging radar’s evolution, benefits, and global adoption—enhancing ADAS with precision, scalability, and all-weather reliability.
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