CELLULAR SIGNAL MESH NETWORK

Organization Name

micron technology, inc.

Inventor(s)

Kari Crane of Meridian ID (US)

Deepti Verma of Boise ID (US)

Shruthi Kumara Vadivel of Boise ID (US)

Tomoko Ogura Iwasaki of San Jose CA (US)

Sue-Fern Ng of Boise ID (US)

CELLULAR SIGNAL MESH NETWORK - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240284161 titled 'CELLULAR SIGNAL MESH NETWORK

The abstract describes methods and devices related to a cellular signal mesh network. In one example, a method involves determining if a cellular signal is below a threshold, transmitting a request for operational data to another device, receiving the operational data, and responding with a voice call, video call, or message.

• The method involves determining the strength of a cellular signal on a computing device.
• If the signal is weak, a request for operational data is sent to another computing device.
• The operational data is received from the second device.
• A response is then sent back to the second device, which can include a voice call, video call, or message.

Potential Applications: - This technology can be used in IoT devices to improve connectivity and data exchange. - It can enhance communication in remote areas with weak cellular signals. - Emergency response systems can benefit from this technology for quick data transmission.

Problems Solved: - Addresses the issue of poor cellular signal strength affecting data transmission. - Improves communication reliability in areas with weak signal coverage.

Benefits: - Enhanced data exchange capabilities in challenging signal environments. - Improved communication efficiency between devices. - Increased reliability in transmitting operational data.

Commercial Applications: Title: Enhanced Connectivity Solutions for IoT Devices This technology can be utilized in IoT devices for seamless data exchange and improved connectivity. It can also be integrated into emergency response systems to ensure quick and reliable communication in critical situations.

Questions about the technology: 1. How does this technology improve communication in areas with weak cellular signals? - This technology allows devices to request and exchange operational data even in low signal environments, ensuring reliable communication. 2. What are the potential implications of using this technology in IoT devices? - By integrating this technology into IoT devices, it can enhance connectivity and data exchange capabilities, improving overall device performance.

Original Abstract Submitted

methods and devices related to a cellular signal mesh network are described. in an example, a method can include determining, via a processing resource of a first computing device, whether a cellular signal of the first computing device is below a threshold cellular signal, transmitting from the first computing device to a second computing device first signaling including data representing a request for operational data of the second computing device in response to determining that the cellular signal of the first computing device is below the threshold cellular signal, receiving from the second computing device second signaling comprising the operational data of the second computing device, and transmitting from the first computing device to the second computing device third signaling including data representing at least one of: a voice call, a video call, or a message in response to receiving the second signaling comprising the operational data.