TIME-FREQUENCY PLANNING FOR RADARS ON VEHICLES IN A WAREHOUSE ENVIRONMENT

Organization Name

UHNDER, INC.

Inventor(s)

Wayne E. Stark of Ann Arbor MI (US)

Ali Erdem Ertan of Austin TX (US)

Murtaza Ali of Cedar Park TX (US)

TIME-FREQUENCY PLANNING FOR RADARS ON VEHICLES IN A WAREHOUSE ENVIRONMENT - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240036584 titled 'TIME-FREQUENCY PLANNING FOR RADARS ON VEHICLES IN A WAREHOUSE ENVIRONMENT

Simplified Explanation

The abstract describes a radar system that consists of a transmitter pipeline, a receiver pipeline, and a controller. The transmitter pipeline includes transmitters that transmit radio signals, while the receiver pipeline includes receivers that receive radio signals, including signals reflected from objects in the environment. The controller is responsible for controlling the operation of the transmitter and receiver pipelines based on a coordination signal received from a local controller. The system is designed to avoid interference from other radar systems.

• The radar system includes transmitters and receivers that transmit and receive radio signals.
• The controller manages the operation of the transmitter and receiver pipelines based on a coordination signal.
• The system is designed to avoid interference from other radar systems.

Potential Applications:

• Air traffic control: The radar system can be used to track and monitor aircraft movements, ensuring safe and efficient air traffic control.
• Weather monitoring: The system can be utilized to detect and track weather patterns, providing valuable data for meteorological analysis and forecasting.
• Autonomous vehicles: The radar system can be integrated into autonomous vehicles to detect and avoid obstacles, enhancing their safety and navigation capabilities.
• Security and surveillance: The system can be employed for perimeter security and surveillance purposes, detecting and tracking intruders or suspicious activities.

Problems Solved:

• Interference avoidance: The radar system solves the problem of interference from other radar systems by implementing coordination signals and controlling the operation of the transmitter and receiver pipelines accordingly.

Benefits:

• Accurate detection: The radar system enables accurate detection and tracking of objects in the environment, providing valuable information for various applications.
• Improved safety: By avoiding interference and accurately detecting objects, the system enhances safety in applications such as air traffic control and autonomous vehicles.
• Efficient operation: The coordination signal and controller optimize the operation of the transmitter and receiver pipelines, ensuring efficient use of resources and minimizing interference.

Original Abstract Submitted

a radar system includes a transmitter pipeline, a receiver pipeline, and a controller. the transmitter pipeline includes transmitters, each transmitting radio signals. the receiver pipeline includes receivers, each receiving radio signals that include signals transmitted by the transmitters and reflected from objects in an environment. the controller is configured to control the operation of the transmitter pipeline and the receiver pipeline as defined by a coordination signal received from a local controller. at least one of the transmitter pipeline and the receiver pipeline avoid interference from other radar systems as defined by the controller.