MUTUAL SUPPORT AND OPERATION OF MAIN RADIO AND LOW-POWER WAKEUP RADIO

Organization Name

qualcomm incorporated

Inventor(s)

Ahmed Elshafie of San Diego CA (US)

Hung Dinh Ly of San Diego CA (US)

Huilin Xu of Temecula CA (US)

Wanshi Chen of San Diego CA (US)

Changhwan Park of San Diego CA (US)

Linhai He of San Diego CA (US)

Yuchul Kim of San Diego CA (US)

Wei Yang of San Diego CA (US)

Peter Gaal of San Diego CA (US)

Le Liu of San Jose CA (US)

Diana Maamari of San Diego CA (US)

MUTUAL SUPPORT AND OPERATION OF MAIN RADIO AND LOW-POWER WAKEUP RADIO - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240114449 titled 'MUTUAL SUPPORT AND OPERATION OF MAIN RADIO AND LOW-POWER WAKEUP RADIO

Simplified Explanation

A network node may transmit a first signal to a first radio at a user equipment (UE). The UE receives the first signal, which includes a configuration for a second radio at the UE. The UE operates the second radio in a specific mode based on the configuration received via the first radio. The first radio may have lower power consumption than the second radio, or vice versa. The network node and the UE communicate with each other via the second radio at the UE based on the configuration transmitted to the first radio.

• The patent application involves a method for optimizing power consumption in a user equipment (UE) by utilizing two radios, one with lower power consumption (LP-WUR) and one main radio (MR).
• The first radio receives a configuration signal from a network node, which is used to control the operation mode of the second radio at the UE.
• The second radio is operated in a specific mode based on the configuration received, allowing for efficient communication between the network node and the UE.

Potential Applications

This technology can be applied in various wireless communication systems where power consumption optimization is crucial, such as IoT devices, smart home systems, and industrial automation.

Problems Solved

1. Power consumption optimization in user equipment. 2. Efficient communication between network nodes and user equipment.

Benefits

1. Extended battery life for devices. 2. Improved overall energy efficiency in wireless communication systems. 3. Enhanced reliability and performance of communication networks.

Potential Commercial Applications

Optimized power consumption technology can be utilized in smart devices, IoT applications, industrial sensors, and other wireless communication systems to improve energy efficiency and prolong battery life.

Possible Prior Art

One possible prior art could be the use of low-power radios in IoT devices to conserve energy and enable efficient communication. Another could be the implementation of wake-up radios in wireless sensor networks for power optimization.

Unanswered Questions

How does this technology impact the overall cost of wireless communication systems?

The cost implications of implementing this technology in wireless communication systems are not addressed in the abstract. It would be interesting to know if the use of two radios affects the overall cost of the system and if the benefits outweigh the additional expenses.

What are the potential security implications of using two radios in user equipment?

The abstract does not mention any security considerations related to the use of two radios in user equipment. It would be important to understand if having multiple radios could introduce new security vulnerabilities or if it enhances the security of the communication system.

Original Abstract Submitted

a network node may transmit a first signal to a first radio at a user equipment (ue). the ue may receive the first signal from the network node. the first signal may include a first configuration for a second radio at the ue. the ue may operate the second radio in a first mode based on the first configuration received via the first radio. the first radio may have a lower power consumption than the second radio or the second radio may have the lower power consumption than the first radio. for example, one radio may be a low-power wake-up radio (lp-wur) having a lower power consumption than a main radio (mr) at the ue. the network node and the ue may communicate with one another via the second radio at the ue based on the first configuration transmitted to the first radio.