Qualcomm incorporated (20240188108). SIDELINK CO-CHANNEL CO-EXISTENCE simplified abstract
Contents
- 1 SIDELINK CO-CHANNEL CO-EXISTENCE
- 1.1 Organization Name
- 1.2 Inventor(s)
- 1.3 SIDELINK CO-CHANNEL CO-EXISTENCE - A simplified explanation of the abstract
- 1.4 Simplified Explanation
- 1.5 Potential Applications
- 1.6 Problems Solved
- 1.7 Benefits
- 1.8 Potential Commercial Applications
- 1.9 Possible Prior Art
- 1.9.1 Unanswered Questions
- 1.9.2 How does this technology impact network resource utilization in comparison to traditional methods of configuring sidelink communication?
- 1.9.3 What are the potential security implications of enabling direct communication between UEs using different RATs in terms of vulnerability to attacks or unauthorized access?
- 1.10 Original Abstract Submitted
SIDELINK CO-CHANNEL CO-EXISTENCE
Organization Name
Inventor(s)
Qing Li of Princeton Junction NJ (US)
Hong Cheng of Basking Ridge NJ (US)
SIDELINK CO-CHANNEL CO-EXISTENCE - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240188108 titled 'SIDELINK CO-CHANNEL CO-EXISTENCE
Simplified Explanation
The present disclosure relates to configuring sidelink communication in wireless communications, specifically focusing on a method for wireless communication by a base station (BS) for scheduling sidelink (SL) communication between two user equipments (UEs) using different radio access technologies (RATs).
- The method involves generating downlink control information (DCI) that includes a carrier indication field (CIF) indicating a carrier of a second RAT for the SL communication.
- The BS transmits the DCI to at least one of the first UE or the second UE for initiating the SL communication.
Potential Applications
This technology can be applied in various scenarios where direct communication between UEs is required without involving the core network, such as in public safety communications, vehicle-to-vehicle communication, and industrial IoT applications.
Problems Solved
This technology solves the problem of efficiently configuring and managing sidelink communication between UEs using different RATs, ensuring reliable and seamless direct communication without the need for network involvement.
Benefits
The benefits of this technology include improved reliability and efficiency of sidelink communication, reduced latency in direct communication between UEs, and enhanced overall network performance in scenarios requiring direct device-to-device communication.
Potential Commercial Applications
Potential commercial applications of this technology include public safety communication systems, smart transportation systems, industrial IoT networks, and any other application requiring direct and reliable communication between devices without network involvement.
Possible Prior Art
One possible prior art in this field is the use of carrier aggregation techniques in LTE networks to enable simultaneous communication over multiple carriers, which may have some similarities to the concept of using different carriers for sidelink communication between UEs.
Unanswered Questions
How does this technology impact network resource utilization in comparison to traditional methods of configuring sidelink communication?
This article does not delve into the specific details of network resource utilization and efficiency compared to traditional methods of configuring sidelink communication. Further research or testing may be needed to determine the exact impact on network resources.
What are the potential security implications of enabling direct communication between UEs using different RATs in terms of vulnerability to attacks or unauthorized access?
The article does not address the potential security implications of enabling direct communication between UEs using different RATs. A thorough security analysis would be necessary to understand and mitigate any vulnerabilities or risks associated with this technology.
Original Abstract Submitted
aspects of the present disclosure relate to wireless communications, and more particularly, to techniques for configuring sidelink communication. one aspect provides a method for wireless communication by a base station (bs). the method generally includes generating () downlink control information (dci) for scheduling sidelink (sl) communication for a first radio access technology (rat), the dci including a carrier indication field (cif) indicating a carrier of a second rat for the sl communication, where the sl communication is between a first user equipment (ue) and a second ue. the bs transmits () the dci to at least one of the first ue or the second ue.