SYSTEM AND METHOD FOR THE AUTOMATED VALIDATION OF A SEMI-ANECHOIC CHAMBER

Organization Name

Unknown Organization

Inventor(s)

Phillip C. Miller of Tempe AZ (US)

SYSTEM AND METHOD FOR THE AUTOMATED VALIDATION OF A SEMI-ANECHOIC CHAMBER - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240036095 titled 'SYSTEM AND METHOD FOR THE AUTOMATED VALIDATION OF A SEMI-ANECHOIC CHAMBER

Simplified Explanation

The abstract describes a system for the automated validation of a semi-anechoic chamber (SAC). The system includes a receive assembly and a transmit assembly that can autonomously relocate within the SAC. A local client is communicatively coupled to the transmit assembly and sends a validation arrangement to describe a validation location and distance. The transmit assembly receives the arrangement, moves to the validation location, and sends an instruction to the receive assembly, which moves to restore the separation distance between the assemblies. Multiple validation points define a test volume.

• The system automates the validation process of a semi-anechoic chamber.
• It includes a receive assembly and a transmit assembly that can autonomously relocate within the chamber.
• A local client is used to send validation arrangements to the transmit assembly, specifying a location and distance.
• The transmit assembly receives the arrangement, moves to the specified location, and sends an instruction to the receive assembly.
• The receive assembly receives the instruction and moves to restore the separation distance between the assemblies.
• Multiple validation points are used to define a test volume within the chamber.

Potential Applications:

• Testing and validation of electronic devices in a semi-anechoic chamber.
• Research and development of wireless communication systems.
• Calibration and verification of antenna performance.

Problems Solved:

• Manual validation of a semi-anechoic chamber can be time-consuming and labor-intensive.
• Ensuring accurate and consistent measurements in the chamber can be challenging.
• Automating the validation process reduces human error and improves efficiency.

Benefits:

• Increased efficiency and accuracy in the validation of semi-anechoic chambers.
• Reduced labor and time required for validation procedures.
• Improved reliability and consistency of measurements.
• Enables more frequent and thorough validation of chambers.
• Facilitates research and development of wireless communication technologies.

Original Abstract Submitted

a system for the automated validation of a semi-anechoic chamber (sac) is disclosed. the system includes a receive assembly and a transmit assembly, each configured to autonomously relocate within the sac. the system also includes a local client communicatively coupled to the transmit assembly. the local client is configured to send a validation arrangement to the transmit assembly describing a validation location and a distance. the transmit assembly is configured to receive the validation arrangement, move the transmit assembly to the validation location and send an instruction to the receive assembly, the instruction describing the distance. the receive assembly is communicatively coupled to the transmit assembly and configured to receive the instruction and move the receive assembly such that a separation between the transmit and receive assemblies is restored to the distance. each validation arrangement corresponds to a validation point. a plurality of validation points defines a test volume.