AT LEAST PARTIAL DISABLEMENT OF TRANSMISSION PORT BASED ON THERMAL CONDITION AND ASSOCIATED CAPABILITY INDICATION

Organization Name

qualcomm incorporated

Inventor(s)

James Francis Geekie of Carlsbad CA (US)

Alexei Yurievitch Gorokhov of San Diego CA (US)

Raghu Narayan Challa of San Diego CA (US)

Mihir Vijay Laghate of San Diego CA (US)

Mahbod Ghelichi of San Diego CA (US)

Enoch Shiao-Kuang Lu of San Diego CA (US)

AT LEAST PARTIAL DISABLEMENT OF TRANSMISSION PORT BASED ON THERMAL CONDITION AND ASSOCIATED CAPABILITY INDICATION - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240224190 titled 'AT LEAST PARTIAL DISABLEMENT OF TRANSMISSION PORT BASED ON THERMAL CONDITION AND ASSOCIATED CAPABILITY INDICATION

Simplified Explanation

The patent application describes techniques for wireless communication where a user equipment (UE) can adjust its transmissions based on temperature conditions and indicate its capability to support different communication modes.

• The UE can partially disable transmissions on a port if the temperature exceeds a threshold, and re-enable them when the temperature condition improves.
• The UE can signal to a base station its ability to transition between multi-layer and single-layer communication modes.

Key Features and Innovation

• Adaptive transmission control based on temperature conditions.
• Capability indication for transitioning between communication modes.

Potential Applications

This technology can be applied in mobile devices, IoT devices, and wireless communication systems where temperature variations can affect transmission performance.

Problems Solved

• Ensures optimal transmission performance under varying temperature conditions.
• Enables efficient utilization of communication resources.

Benefits

• Improved reliability and efficiency in wireless communication.
• Enhanced user experience with better network performance.

Commercial Applications

Potential commercial applications include mobile networks, IoT systems, and industrial wireless communication setups. This technology can lead to more robust and adaptable wireless systems, catering to diverse communication needs.

Prior Art

Readers interested in prior art related to adaptive transmission control based on temperature conditions in wireless communication systems can explore research papers, patents, and industry publications in the field of wireless networking and communication protocols.

Frequently Updated Research

Researchers are continually exploring advancements in adaptive communication techniques to enhance the performance and reliability of wireless networks. Stay updated on the latest developments in temperature-aware transmission control for wireless systems.

Questions about Wireless Communication

How does temperature affect wireless transmission performance?

Temperature can impact the efficiency and reliability of wireless transmissions by affecting signal propagation, device components, and overall network performance. In the context of this patent application, temperature conditions trigger adaptive transmission control to optimize performance.

What are the advantages of transitioning between multi-layer and single-layer communication modes?

Transitioning between multi-layer (rank-2) and single-layer (rank-1) communication modes allows for flexibility in adapting to network conditions and optimizing resource utilization. This capability enables the UE to adjust its communication mode based on the network requirements, enhancing overall efficiency and performance.

Original Abstract Submitted

disclosed are techniques for wireless communication. in an aspect, a ue may partially disable transmissions on a transmission port based on a temperature condition (e.g., chipset temperature or skin temperature exceeding threshold). in a further aspect, the ue may enable the partially disabled transmissions on the transmission port in response to cessation of the temperature condition. in a further aspect, the ue may transmit a capability indication to a base station that indicates that the ue is capable of supporting a transition from a multi-layer (rank-2) communication mode to a single-layer (rank-1) communication mode.