APPARATUS, SYSTEM, AND METHOD OF MONOSTATIC SENSING OVER A MILLIMETERWAVE (MMWAVE) BAND

Organization Name

intel corporation

Inventor(s)

Cheng Chen of Camas WA (US)

Laurent Cariou of Milizac (FR)

Carlos Cordeiro of Camas WA (US)

APPARATUS, SYSTEM, AND METHOD OF MONOSTATIC SENSING OVER A MILLIMETERWAVE (MMWAVE) BAND - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240357654 titled 'APPARATUS, SYSTEM, AND METHOD OF MONOSTATIC SENSING OVER A MILLIMETERWAVE (MMWAVE) BAND

The abstract describes an apparatus that schedules sensing measurements in a wireless communication system operating in the sub-10 GHz and millimeter-wave frequency bands.

• Logic and circuitry in the apparatus enable a sensing initiator station to transmit timeslot-scheduling frames to coordinate sensing measurements for multiple responder stations.
• The apparatus can trigger measurements by transmitting a frame over the millimeter-wave band during a scheduled timeslot.
• It processes frames from sensing responder stations to participate in monostatic sounding during the scheduled timeslot.

Potential Applications: - This technology can be used in industrial automation for precise sensing and measurement tasks. - It can also be applied in smart city infrastructure for environmental monitoring and surveillance purposes.

Problems Solved: - Efficient scheduling and coordination of sensing measurements in a wireless communication system. - Facilitates accurate and timely data collection from multiple responder stations.

Benefits: - Improved accuracy and reliability of sensing measurements. - Enhanced coordination and efficiency in wireless communication systems. - Enables real-time data collection and analysis for various applications.

Commercial Applications: Title: "Wireless Sensing Measurement Apparatus for Industrial Automation and Smart City Infrastructure" This technology can be commercialized for use in industrial automation systems, smart city infrastructure, environmental monitoring solutions, and surveillance applications. It offers enhanced precision, efficiency, and reliability in wireless sensing and measurement tasks.

Questions about the technology: 1. How does this technology improve the coordination of sensing measurements in wireless communication systems? 2. What are the key advantages of using millimeter-wave frequency bands for sensing measurements in this apparatus?

Original Abstract Submitted

for example, an apparatus may include logic and circuitry configured to cause a sensing initiator station (sta) to transmit one or more timeslot-scheduling frames over a sub 10 gigahertz (ghz) (sub-10 ghz) wireless communication frequency band to schedule one or more timeslots of a coordinated monostatic millimeterwave (mmwave) sensing measurement exchange for a plurality of sensing responder stas; to transmit a trigger frame over an mmwave wireless communication frequency band during a timeslot of the one or more timeslots; and to process a frame from a sensing responder sta to participate in a monostatic sounding during the timeslot, the frame from the sensing responder sta received over the mmwave wireless communication frequency band during the timeslot.