SPACE TIME CODING FOR SIDELINK TRANSMISSIONS

Organization Name

qualcomm incorporated

Inventor(s)

Gideon Shlomo Kutz of Ramat Hasharon (IL)

Tal Oved of Modiin (IL)

Amit Bar-or Tillinger of Tel-Aviv (IL)

Elad Meir of Ramat Gan (IL)

SPACE TIME CODING FOR SIDELINK TRANSMISSIONS - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240195463 titled 'SPACE TIME CODING FOR SIDELINK TRANSMISSIONS

Simplified Explanation

The described techniques in the patent application support multi-rank sidelink communications that can be simplified to single-rank communications in case of decoding failure. The user equipment (UE) can transmit a first message with first data using two precoding vectors for two layers. If the first message is not successfully decoded, the UE can send a second message with second data using different precoding vectors derived from the first ones, effectively reducing the rank of the first message.

Key Features and Innovation

• Support for multi-rank sidelink communications
• Ability to reduce to single-rank communications in case of decoding failure
• Transmission of data using different precoding vectors for different layers
• Derivation of new precoding vectors from the original ones for error recovery

Potential Applications

The technology can be applied in:

• Wireless communication systems
• Internet of Things (IoT) devices
• Mobile networks
• Vehicle-to-vehicle communication

Problems Solved

• Addressing decoding failures in multi-rank sidelink communications
• Enhancing reliability of data transmission
• Improving error recovery mechanisms in wireless networks

Benefits

• Increased reliability in communication systems
• Enhanced error recovery capabilities
• Improved performance in challenging network conditions

Commercial Applications

• Telecom companies can use this technology to improve the reliability of their networks
• IoT device manufacturers can benefit from enhanced data transmission capabilities
• Automotive industry can utilize this technology for vehicle-to-vehicle communication systems

Prior Art

Readers interested in prior art related to this technology can explore research papers and patents in the field of wireless communications, error recovery mechanisms, and multi-rank communications.

Frequently Updated Research

Stay updated on the latest advancements in wireless communication technologies, error recovery techniques, and network optimization strategies to enhance the performance of this technology.

Questions about Multi-Rank Sidelink Communications

How does this technology improve the reliability of wireless communication systems?

This technology enhances reliability by allowing for error recovery through the transmission of data using different precoding vectors for different layers, reducing the impact of decoding failures.

What are the potential commercial applications of this innovation?

The potential commercial applications include telecom networks, IoT devices, and vehicle-to-vehicle communication systems, where improved reliability and error recovery mechanisms are crucial for seamless operation.

Original Abstract Submitted

the described techniques may support multi-rank sidelink communications that may be reduced to single rank communications if failure to decode the multi-rank sidelink communications occurs. a user equipment (ue) may transmit a first message including first data using a first precoding vector applied for a first layer and a second precoding vector applied for a second layer. if the first message is not decoded successfully, the ue may transmit a second message including second data using a third precoding vector applied for the first layer and a fourth precoding vector applied for the second layer, where the second data is derived from the first data, the third precoding vector is derived from the second precoding vector, and the fourth precoding vector is derived from the first precoding vector. the second message may effectively reduce a rank of the first message when the channel is rank deficient.