Prior Art

Hello, I was conducting some research for a patent application regarding prior art, and was wondering if anyone was aware of existing ownership or application of this type of thing, in which case I could avoid unnecessary paperwork. 

 

 

**Automated glove land surveyor**  

System and Method for Real-Time Triangulation and Mapping of Moving Devices Using a Live Phone Call Mesh Network

 

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**Field of the Invention:**  

The present invention relates to telecommunications and geolocation technologies. Specifically, it pertains to a system and method for creating a mesh network of live phone calls to triangulate and map the real-time positions of mobile devices moving in proximity to each other over a geographic landscape.

 

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**Background of the Invention:**  

Existing geolocation systems, such as GPS, rely on satellite signals and are often limited by line-of-sight issues, indoor environments, or high power consumption. Additionally, traditional triangulation methods using cellular towers lack the precision required for real-time tracking of devices in close proximity. There is a need for a system that leverages existing communication infrastructure, such as live phone calls, to provide accurate, real-time positioning and mapping of moving devices without relying solely on external signals.

 

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**Summary of the Invention:**  

The invention provides a system and method for creating a live phone call mesh network that enables real-time triangulation of mobile devices. By establishing direct communication links between devices via live phone calls, the system calculates the relative positions of devices using signal strength, time delay, and directional data. These positions are then mapped onto a geographic landscape, allowing for the visualization of moving points in real time. The system is particularly useful for applications such as crowd tracking, emergency response coordination, and location-based services.

 

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**Detailed Description of the Invention:**

 

1. **System Overview:**  

   The system comprises a network of mobile devices connected via live phone calls. Each device acts as a node in the mesh network, transmitting and receiving signals to and from nearby devices. The system includes:  

   - A communication module for establishing and maintaining live phone call connections.  

   - A signal processing module for analyzing signal strength, time delay, and directional data.  

   - A triangulation module for calculating the relative positions of devices.  

   - A mapping module for visualizing the positions of devices on a geographic landscape.  

 

2. **Method of Operation:**  

   - Devices initiate live phone calls with nearby devices, forming a mesh network.  

   - Signal data (e.g., signal strength, time delay, and direction) is exchanged between devices.  

   - The triangulation module processes the signal data to determine the relative positions of devices.  

   - The mapping module updates the positions of devices in real time, displaying them on a geographic map.  

 

3. **Key Features:**  

   - Real-time triangulation using live phone call data.  

   - Mesh network architecture for decentralized communication.  

   - Integration with existing cellular infrastructure.  

   - Low power consumption compared to GPS-based systems.  

   - Scalable for large numbers of devices in close proximity.  

 

4. **Applications:**  

   - Crowd tracking and management at events.  

   - Emergency response coordination in disaster zones.  

   - Location-based advertising and services.  

   - Fleet tracking and logistics management.  

 

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**Claims:**

 

1. A system for real-time triangulation and mapping of mobile devices, comprising:  

   - A communication module for establishing live phone call connections between devices.  

   - A signal processing module for analyzing signal data exchanged between devices.  

   - A triangulation module for calculating the relative positions of devices.  

   - A mapping module for visualizing the positions of devices on a geographic landscape.  

 

2. The system of claim 1, wherein the mesh network is formed by direct communication links between devices via live phone calls.  

 

3. The system of claim 1, wherein the signal data includes signal strength, time delay, and directional data.  

 

4. The system of claim 1, wherein the mapping module updates device positions in real time.  

 

5. A method for real-time triangulation and mapping of mobile devices, comprising:  

   - Establishing live phone call connections between devices to form a mesh network.  

   - Exchanging signal data between devices.  

   - Calculating the relative positions of devices using triangulation.  

   - Visualizing the positions of devices on a geographic map.  

 

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**Drawings:**  

 

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**Abstract:**  

A system and method for real-time triangulation and mapping of mobile devices using a live phone call mesh network. The system leverages live phone call connections to form a decentralized mesh network, enabling accurate and real-time positioning of devices in close proximity. The invention is particularly useful for applications requiring real-time tracking and visualization of moving points over a geographic landscap