USER EQUIPMENT BEHAVIOR OF HYBRID AUTOMATIC REPEAT REQUEST RETRANSMISSION IN NEW RADIO SIDELINK CO-EXISTENCE SCENARIO WITH OTHER TECHNOLOGY

Organization Name

Nokia Technologies Oy

Inventor(s)

Ling Yu of Kauniainen (FI)

Nuno Manuel Kiilerich Pratas of Gistrup (DK)

Daniel Medina of Munich (DE)

Torsten Wildschek of Gloucester (GB)

Vinh Van Phan of Oulu (FI)

Faranaz Sabouri-sichani of Aalborg (DK)

Jari Olavi Lindholm of Palojoki (FI)

Thomas Haaning Jacobsen of Norresundby (DK)

USER EQUIPMENT BEHAVIOR OF HYBRID AUTOMATIC REPEAT REQUEST RETRANSMISSION IN NEW RADIO SIDELINK CO-EXISTENCE SCENARIO WITH OTHER TECHNOLOGY - A simplified explanation of the abstract

This abstract first appeared for US patent application 17957383 titled 'USER EQUIPMENT BEHAVIOR OF HYBRID AUTOMATIC REPEAT REQUEST RETRANSMISSION IN NEW RADIO SIDELINK CO-EXISTENCE SCENARIO WITH OTHER TECHNOLOGY

Simplified Explanation

The abstract describes a patent application related to user equipment behavior in new radio sidelink co-existence scenarios with another technology, specifically focusing on hybrid automatic repeat request retransmission. The method involves enabling negative acknowledgement only feedback for receiving user equipment, determining conditions for negative feedback, deciding whether to retransmit a message based on the feedback, and communicating with the user equipment accordingly.

• Enables hybrid automatic repeat request negative acknowledgement only feedback for receiving user equipment
• Determines conditions for negative feedback
• Decides whether to retransmit a message based on feedback results
• Communicates with user equipment based on feedback

Potential Applications

This technology could be applied in various communication systems where user equipment behavior needs to be optimized in co-existence scenarios with other technologies, ensuring efficient data transmission and reception.

Problems Solved

This technology addresses the challenge of managing hybrid automatic repeat request retransmission in new radio sidelink co-existence scenarios, improving the reliability and performance of data transmission for user equipment.

Benefits

- Enhanced user equipment behavior in co-existence scenarios - Improved efficiency of hybrid automatic repeat request retransmission - Enhanced communication reliability and performance

Potential Commercial Applications

This technology could be valuable in the telecommunications industry for optimizing data transmission in complex network environments, potentially improving the quality of service for users.

Possible Prior Art

There may be prior art related to hybrid automatic repeat request retransmission techniques in communication systems, but specific details would need to be researched to determine any existing similar technologies.

Unanswered Questions

How does this technology impact battery life in user equipment?

This article does not address the potential effects of implementing this technology on the battery life of user equipment. It would be important to understand if there are any implications for power consumption.

What are the potential security implications of using this technology?

The article does not discuss the security aspects of implementing this technology. It would be essential to consider any vulnerabilities or risks associated with the communication protocols involved.

Original Abstract Submitted

Systems, methods, apparatuses, and computer program products for user equipment behavior with respect to hybrid automatic repeat request retransmission in new radio sidelink co-existence scenarios with another technology are provided. For example, a method can include enabling, for a receiving user equipment, hybrid automatic repeat request negative acknowledgement only feedback. The method can also include first determining whether to condition negative feedback on at least one first condition, or second determining whether negative feedback is conditioned on at least one second condition. The method can further include third determining whether to retransmit a message according to hybrid automatic repeat request according to results of the first determining or the second determining. The method can additionally include communicating with the receiving user equipment based on a result of the third determining.