Watch our Automotive radar webinar-series and learn about in-depth analysis of radar signals, measuring radomes to ensure radar module performance, as well as how to calibrate the next generation of radar sensors precisely in a lab-environment.
The RadEsT compact radar target simulator: Your all-rounder from lab to vehicle
In this webinar, you will learn more about the radar lifecycle and test challenges as well as the applications of the RadEsT compact target generator.
Compact and efficient automotive radar sensor testing
Join this webinar to find out how the capabilities of the game-changing fully-electronic R&S radar test system can be utilised in a physically-compact benchtop form defining a new level of cost efficiency whilst expandable to encompass any future radar object simulation scenario.
Enabling the next level of autonomous driving with advanced object generation
Join this webinar to get an up-to-date overview of radar technology, the market and the latest capabilities of automotive radar object simulation, including very short distances, MIMO and complex traffic scenarios.
Accelerate automotive ADAS validation with hardware-in-the-loop radar testing
In this webinar, you will learn more about: Automotive radar and HIL testing trends; The role of HIL in ADAS/AD development; Realization of an HIL test setup; Practical demonstration.
Ensuring automotive radome & bumper quality from design to high-volume production
Learn about how microwave imaging technology can be utilized to provide accurate, 2-dimentional characterisation of radome and bumper quality, accelerate the design cycle and facilitate seamless transition from development in the lab to high-volume production.
The next generation of automotive radar object simulation
In this webinar, the next generation automotive radar test system will be introduced.
The new R&S®RTS is the most accurate, scalable & advanced solution for automotive radar object simulation on the market with the performance and features to accelerate your radar module and system development.
Join this webinar to understand the fundamental measurements required to analyse and verify radar signals, the range of test tools available and when to use them.
Validation of radar-based autonomous driving functions
In this webinar you will learn about validation of radar-based autonomous driving functions under electromagnetic influences and get an overview of Rohde & Schwarz solutions.
High-end calibration of next-generation radar sensors
The measurements of far-field automotive radars is a challenge as it requires a large spatial distance, has a high loss path, while providing a relatively small quiet zone, and where even a slight misalignment has a huge impact on repeatable measurements.
This webinar will focus on the integration of radar sensors in future autonomous vehicles. Once the radar sensor itself has been successfully tested, questions concerning its integration within the vehicle arise: Where should the radar be placed to detect oncoming traffic? How does the plastic of the bumper influence the quality of the radar signal? How do you ensure that the radar is mounted at the correct position?
Automotive radar test solutions using high-performance oscilloscopes
This webinar will demonstrate how to simultaneously measure and analyze up to four 4 GHz automotive radar signals at 79 GHz by using a Rohde & Schwarz oscilloscope as a phase coherent receiver and high precision mixers for downconversion. Onboard oscilloscope tools and the R&S®VSE vector signal explorer software support in-depth analysis of the radar pulses. The Rohde & Schwarz oscilloscope's unique deembedding function corrects transmission losses in the measurement setup and conversion loss of the mixers.
Analysis of FMCW radar signals in automotive application
The all-weather capability of radar sensors is an important argument for many driver assistant systems. Measurement accuracy and resolution depend on the radar sensor and the used waveform. Automotive radars often apply continuous wave signals of high bandwidth in combination with digital beamforming techniques to measure range, radial velocity and azimuth angle unambiguously and in multitarget situations. These high-performance sensors and the high reliability demanded in the automotive industry require reliable and fast test solutions.
