ENERGY PATTERN-BASED DYNAMIC FREQUENCY SELECTION FOR HIGH-BAND SPECTRUM SHARING

Organization Name

QUALCOMM Incorporated

Inventor(s)

Siyi Chen of Beijing (CN)

Arumugam Chendamarai Kannan of San Diego CA (US)

Changlong Xu of Beijing (CN)

Jing Sun of San Diego CA (US)

Xiaoxia Zhang of San Diego CA (US)

ENERGY PATTERN-BASED DYNAMIC FREQUENCY SELECTION FOR HIGH-BAND SPECTRUM SHARING - A simplified explanation of the abstract

This abstract first appeared for US patent application 18262142 titled 'ENERGY PATTERN-BASED DYNAMIC FREQUENCY SELECTION FOR HIGH-BAND SPECTRUM SHARING

Simplified Explanation

The abstract describes methods, systems, and devices for wireless communications where a first wireless device transmits an energy pattern on a channel before transmitting a message to indicate the upcoming message to other devices. A second wireless device monitors the channel, detects the energy pattern, determines the characteristic of the first wireless device, and adjusts the timing for transmission of a second message based on this characteristic.

• Wireless devices use energy patterns with different energy levels to indicate upcoming messages.
• Second wireless devices monitor channels for energy patterns to adjust message transmission timing.
• First wireless devices transmit energy patterns before messages to signal other devices.

Potential Applications

This technology could be applied in various wireless communication systems, such as IoT devices, smart homes, industrial automation, and wireless sensor networks.

Problems Solved

This technology helps in improving communication efficiency, reducing interference, and enhancing coordination among wireless devices sharing the same channel.

Benefits

The benefits of this technology include improved communication reliability, optimized channel utilization, enhanced network performance, and better overall system efficiency.

Potential Commercial Applications

Potential commercial applications of this technology include wireless networking products, IoT solutions, industrial automation systems, and smart home devices.

Possible Prior Art

One possible prior art could be the use of energy patterns in wireless communications to signal upcoming messages, but the specific method of adjusting message transmission timing based on the detected energy pattern may be a novel aspect of this innovation.

Unanswered Questions

How does this technology handle interference from other wireless devices on the same channel?

The abstract does not provide details on how this technology mitigates interference from other devices sharing the same channel.

What impact does the energy pattern transmission have on the overall power consumption of the wireless devices?

The abstract does not mention the potential impact of transmitting energy patterns on the power consumption of the wireless devices.

Original Abstract Submitted

Methods, systems, and devices for wireless communications are described. A first wireless device may determine an energy pattern corresponding to a characteristic of the first wireless device. The energy pattern may include at least two sub-periods of different energy levels. The first wireless device may transmit the energy pattern on a channel (e.g., an unlicensed channel) prior to transmitting a first message on the channel to indicate the upcoming message to other devices. A second wireless device may monitor the channel during energy detection intervals and may detect the energy pattern. The second wireless device may determine the characteristic of the first wireless device based on detecting the energy pattern and may modify timing for transmission of a second message on the channel based on determining the characteristic. The first wireless device may transmit the first message on the channel based on transmitting the energy pattern.