HL KLEMOVE CORP. (20240329199). DEVICE AND METHOD FOR PROCESSING RADAR SIGNAL, AND RADAR SYSTEM INCLUDING THE SAME simplified abstract
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DEVICE AND METHOD FOR PROCESSING RADAR SIGNAL, AND RADAR SYSTEM INCLUDING THE SAME
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DEVICE AND METHOD FOR PROCESSING RADAR SIGNAL, AND RADAR SYSTEM INCLUDING THE SAME - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240329199 titled 'DEVICE AND METHOD FOR PROCESSING RADAR SIGNAL, AND RADAR SYSTEM INCLUDING THE SAME
The device described in the patent application is designed to process radar signals efficiently by dividing the processing tasks into two distinct units: a pre-acquisition unit and a normal-acquisition unit.
- The pre-acquisition unit handles tasks such as performing fast Fourier transforms (FFTs) on a first signal, digital beamforming or non-coherent integration, peak extraction, and determining a bin-rejection mask based on extracted peaks during a first period within one scan period.
- The normal-acquisition unit takes over during a second period longer than the first period, after the pre-acquisition unit, and performs similar tasks on a second signal different from the first signal. It also determines the Doppler component of a target, calculates a virtual channel vector, and acquires information on the target based on the virtual channel vector.
Potential Applications: - Military radar systems - Air traffic control systems - Weather monitoring and forecasting - Autonomous vehicles - Surveillance and security systems
Problems Solved: - Efficient processing of radar signals - Improved target detection and tracking - Reduction of false alarms - Enhanced accuracy in determining target characteristics - Optimization of radar system performance
Benefits: - Faster and more accurate target acquisition - Enhanced situational awareness - Improved overall radar system performance - Reduction of processing time and resources - Increased reliability in target identification
Commercial Applications: Title: Advanced Radar Signal Processing Technology for Enhanced Target Detection This technology can be utilized in military defense systems, air traffic control, weather monitoring services, autonomous vehicles, and surveillance industries. The market implications include improved safety, efficiency, and accuracy in various applications.
Questions about Radar Signal Processing: 1. How does this technology improve target detection compared to traditional radar systems? 2. What are the potential cost savings associated with implementing this advanced signal processing technology?
Frequently Updated Research: Researchers are constantly exploring new algorithms and techniques to further enhance radar signal processing capabilities, improve target tracking accuracy, and reduce processing time in real-time applications. Stay updated on the latest advancements in radar technology to leverage the full potential of this innovation.
Original Abstract Submitted
a device for processing a radar signal may include a pre-acquisition unit configured to, during a first period within one scan period, perform two fast fourier transforms (ffts) on a first signal, perform digital beamforming or non-coherent integration and peak extraction, and determine a bin-rejection mask based on extracted peaks, and a normal-acquisition unit configured to, during a second period longer than the first period after the first period within the scan period, perform two ffts on a second signal different from the first signal, perform digital beamforming or non-coherent integration and peak extraction, determine a doppler component of a target, determine a virtual channel vector, and acquire information on the target based on the virtual channel vector.
