BLIND DECODING FOR MULTIPLE DOWNLINK CONTROL INFORMATION

Organization Name

apple inc.

Inventor(s)

Ankit Bhamri of Bad Nauheim (DE)

Wei Zeng of Saratoga CA (US)

Hong He of San Jose CA (US)

Dawei Zhang of Saratoga CA (US)

BLIND DECODING FOR MULTIPLE DOWNLINK CONTROL INFORMATION - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240276518 titled 'BLIND DECODING FOR MULTIPLE DOWNLINK CONTROL INFORMATION

The abstract discusses a carrier aggregation wireless system with a user equipment (UE) that can generate reports on its capabilities to support different downlink control information (DCI) formats and splitting a blind decoding (BD) budget between carrying different DCI formats.

• The UE can report its ability to support a first DCI format for a cell in a wireless system and a second DCI format for the same cell.
• It can also report its capability to split a blind decoding budget between carrying the first DCI format and the second DCI format.
• The first DCI format schedules data transmissions for multiple cells, while the second DCI format may have a different purpose.
• The UE can perform blind decoding carrying the first DCI format or the second DCI format based on its capabilities.

Potential Applications: - This technology can be applied in advanced wireless communication systems to optimize resource allocation and enhance network efficiency.

Problems Solved: - Efficient utilization of resources in a carrier aggregation wireless system. - Enhanced performance of user equipment in handling different downlink control information formats.

Benefits: - Improved network capacity and throughput. - Enhanced user experience with better data transmission scheduling. - Increased flexibility in resource allocation for different cells.

Commercial Applications: Title: "Optimized Resource Allocation Technology for Wireless Communication Systems" This technology can be utilized by telecommunications companies to enhance the performance of their wireless networks, leading to improved service quality for customers and potentially attracting more subscribers. It can also be integrated into IoT devices to ensure reliable and efficient data transmission in various applications.

Questions about the technology: 1. How does this technology improve the efficiency of resource allocation in wireless systems? 2. What are the key advantages of splitting a blind decoding budget between different DCI formats for user equipment in a wireless system?

Original Abstract Submitted

some aspects relate to a carrier aggregation wireless system having a user equipment (ue). the ue can generate a report of a ue capability to support a first downlink control information (dci) in a first dci format for a cell of a plurality of cells of the wireless system and a second dci in a second dci format for the cell, and a report of a ue capability to support splitting a blind decoding (bd) of control channel element (cce) (bd/cce) budget between performing bd/cce carrying the first dci in the first dci format, and performing bd/cce carrying the second dci in the second dci format. the first dci in the first dci format can schedule data transmissions for a set of multiple cells. the ue may perform bd/cce carrying the first dci in the first dci format, and perform bd/cce carrying the second dci in the second dci format.