RESOURCE SELECTION BASED ON LATENCY REQUIREMENTS

Organization Name

Telefonaktiebolaget LM Ericsson (publ)

Inventor(s)

Ricardo Blasco Serrano of Espoo (FI)

Stefano Sorrentino of Solna (SE)

RESOURCE SELECTION BASED ON LATENCY REQUIREMENTS - A simplified explanation of the abstract

This abstract first appeared for US patent application 18153600 titled 'RESOURCE SELECTION BASED ON LATENCY REQUIREMENTS

Simplified Explanation

The abstract describes a method and wireless device for determining a time interval, T2, for selecting a time-frequency resource. The method involves using at least one parameter as a proxy to estimate the likelihood of collision and determining the time interval based on this estimation. The abstract also mentions that a higher priority transmission results in a lower value of T2.

• The method and wireless device aim to determine a suitable time interval for selecting a time-frequency resource.
• The time interval, T2, is determined based on at least one parameter that serves as an indicator of the likelihood of collision.
• One of the parameters used can be a priority level indication, where higher priority transmissions lead to a lower value of T2.

Potential Applications

This technology can have various potential applications, including:

• Wireless communication systems: The method can be applied in wireless communication systems to optimize the selection of time-frequency resources, reducing the likelihood of collisions and improving overall system performance.
• Internet of Things (IoT): The method can be utilized in IoT networks to enhance resource allocation and minimize interference between devices, leading to more efficient and reliable communication.
• Mobile networks: The technology can be implemented in mobile networks to improve the allocation of time-frequency resources, resulting in better network capacity and quality of service.

Problems Solved

The technology addresses several problems in wireless communication systems, such as:

• Collision avoidance: By estimating the likelihood of collision using proxy parameters, the method helps to prevent collisions between transmissions, which can lead to data loss and degraded performance.
• Resource optimization: By determining a suitable time interval for selecting time-frequency resources, the method optimizes resource allocation, minimizing interference and maximizing system capacity.
• Priority-based transmission: The inclusion of priority level indication as a parameter allows for prioritization of higher priority transmissions, ensuring their timely and reliable delivery.

Benefits

The technology offers several benefits in the field of wireless communication:

• Improved performance: By reducing collisions and optimizing resource allocation, the method enhances the overall performance of wireless communication systems, leading to better reliability, throughput, and quality of service.
• Efficient resource utilization: The technology enables efficient utilization of time-frequency resources, maximizing the capacity and efficiency of wireless networks.
• Priority-based transmission: The inclusion of priority level indication allows for prioritization of critical or time-sensitive transmissions, ensuring their timely delivery and improving system responsiveness.

Original Abstract Submitted

A method and wireless device for determining a time interval, T2, for selecting a time-frequency resource are disclosed. According to one aspect, a method includes determining the time interval based on at least one parameter serving as a proxy indicative of a likelihood of collision. In some embodiments, at least one of the at least one parameter is a priority level indication, such that a higher priority transmission results in a lower value of T2.