FULLY ADAPTIVE RADAR FOR UBIQUITIOUS HUMAN SENSING APPLICATIONS

Organization Name

Inventor(s)

Thomas Reinhold Stadelmayer of Wenzenbach (DE)

FULLY ADAPTIVE RADAR FOR UBIQUITIOUS HUMAN SENSING APPLICATIONS - A simplified explanation of the abstract

This abstract first appeared for US patent application 18156828 titled 'FULLY ADAPTIVE RADAR FOR UBIQUITIOUS HUMAN SENSING APPLICATIONS

The abstract describes a method for operating a radar system by analyzing range-angle and range-Doppler images to determine tasks for the system and adjusting parameters accordingly.

Receiving range-angle and range-Doppler images from radar sensor data
Choosing a task for the radar system based on the images
Modifying radar system parameters based on the chosen task

Potential Applications: - Military defense systems - Air traffic control - Weather monitoring - Autonomous vehicles - Search and rescue operations

Problems Solved: - Enhances radar system efficiency - Improves task prioritization - Increases system adaptability

Benefits: - Enhanced situational awareness - Improved decision-making capabilities - Optimal resource allocation - Increased system performance

Commercial Applications: Title: "Adaptive Radar System for Enhanced Task Performance" This technology can be applied in defense industries, aviation, meteorology, autonomous vehicle development, and emergency response sectors. It offers improved operational efficiency and decision-making capabilities, making it a valuable asset in various commercial applications.

Questions about Adaptive Radar Systems: 1. How does this technology improve radar system performance in real-time scenarios?

  - This technology enhances radar system performance by analyzing data to prioritize tasks and adjust parameters accordingly, leading to improved operational efficiency.

2. What are the potential challenges in implementing this adaptive radar system in different industries?

  - The challenges may include integration with existing systems, data processing requirements, and ensuring the accuracy of task prioritization in diverse operational environments.

Original Abstract Submitted

A method of operating a radar system includes: receiving a range-angle image (RAI) and a range-Doppler image (RDI) that are based on raw data from a radar sensor of the radar system; choosing, from a list of potential tasks, a task for the radar system to perform based at least on the RAI and the RDI; and modifying one or more parameters of the radar system in accordance with the chosen task for the radar system.