PSCCH AND PSSCH TRANSMISSION ON CONTIGUOUS RB SETS IN SL-U

Organization Name

QUALCOMM Incorporated

Inventor(s)

Jae Ho Ryu of San Diego CA (US)

Chih-Hao Liu of San Diego CA (US)

Sanghoon Kim of San Jose CA (US)

Hari Sankar of San Diego CA (US)

PSCCH AND PSSCH TRANSMISSION ON CONTIGUOUS RB SETS IN SL-U - A simplified explanation of the abstract

This abstract first appeared for US patent application 17937378 titled 'PSCCH AND PSSCH TRANSMISSION ON CONTIGUOUS RB SETS IN SL-U

Simplified Explanation

The present disclosure involves preparing waveforms for multiple resource blocks (RBs) in a given bandwidth to address sidelink transmission/reception problems. The apparatuses and methods allow for dynamic determination and use of available sidelink frequencies based on the availability of RBs or sets of RBs within a bandwidth part (BWP) of an unlicensed frequency band. The sidelink data is transmitted and/or received in a waveform generated for at least one of the RB sets prior to a listen-before-talk procedure indicating the availability of the RBs for transmission.

• Apparatuses and methods for preparing waveforms for multiple RBs in a given bandwidth
• Dynamic determination and use of available sidelink frequencies based on RB availability
• Transmission and reception of sidelink data in a waveform generated for RB sets prior to listen-before-talk procedure

Potential Applications

The technology can be applied in various wireless communication systems where sidelink transmission/reception is crucial, such as in vehicle-to-vehicle communication, Internet of Things (IoT) devices, and public safety networks.

Problems Solved

1. Addressing sidelink transmission/reception problems 2. Efficient utilization of available sidelink frequencies based on RB availability

Benefits

1. Improved reliability and efficiency in sidelink communication 2. Enhanced performance in wireless networks with dynamic frequency allocation

Potential Commercial Applications

"Dynamic Sidelink Frequency Allocation in Wireless Communication Systems" can be utilized in industries such as automotive, smart cities, and emergency response services to enhance communication reliability and efficiency.

Possible Prior Art

One potential prior art in this field is the use of dynamic frequency allocation techniques in wireless communication systems to optimize spectrum usage and improve network performance.

Unanswered Questions

How does this technology impact battery life in devices utilizing sidelink communication?

The impact of this technology on battery life in devices utilizing sidelink communication is not explicitly addressed in the abstract. Further research and testing may be needed to determine the effects on battery consumption.

What are the potential security implications of dynamic frequency allocation in sidelink communication?

The abstract does not mention the security implications of dynamic frequency allocation in sidelink communication. It would be important to investigate how this technology may affect the security of data transmission in wireless networks.

Original Abstract Submitted

The present disclosure provides solutions to sidelink transmission/reception problems by preparing waveforms for multiple resource blocks (RBs) in a given bandwidth. Upon determining the availability of RBs or sets of RBs the apparatuses and methods of the present disclosure allow for dynamic determination and use of available sidelink frequencies. An apparatus may comprise a memory and at least one processor coupled to the memory and configured to transmit and/or receive sidelink data in at least one contiguous set of RBs within a bandwidth part (BWP) of an unlicensed frequency band, the BWP including a plurality of RB sets, wherein the SL data is transmitted and/or received in a waveform generated for at least one of the plurality of RB sets prior to a listen-before-talk procedure indicating an availability of the at least one contiguous set of RBs for transmission.