System and method for wireless irrigation utilizing a centralized control server and field module matrix
First Claim
1. A method for wirelessly monitoring and controlling an irrigation field comprising:
- creating a field module matrix by placement of a plurality of field modules within an irrigation area, the field module matrix dynamically reconfigurable to compensate for changes in the irrigation field;
configuring a server for;
receiving data pertaining to said irrigation area from said field modules,generating a control signal based on said data,sending said control signal to said field modules adapted to receive said control signal, andcontrolling a plurality of irrigation components coupled to said field modules based on said control signal; and
enabling a wireless network adapter, communicatively coupled between the server and the irrigation field module matrix, adapted to route the data from the matrix to the server and route the control signal from the server to the matrix; and
configuring said plurality of field modules for single-hop and multi-hop communication for receiving said control signal and sending said data.
1 Assignment
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Accused Products
Abstract
The invention is a centralized server-based system containing a database with relevant information regarding features, parameters, and characteristics of a particular irrigation system, which utilizes proprietary irrigation software to control a plurality of field modules, at one or more remote locations, via a network bridge adapter. An irrigation system may comprise a single server, or multiple servers that may be configured so that control of the entire system is centralized, and control of one or multiple irrigation locations may be accomplished remotely by wirelessly accessing, monitoring and controlling a location'"'"'s field module matrix.
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Citations
21 Claims
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1. A method for wirelessly monitoring and controlling an irrigation field comprising:
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creating a field module matrix by placement of a plurality of field modules within an irrigation area, the field module matrix dynamically reconfigurable to compensate for changes in the irrigation field; configuring a server for; receiving data pertaining to said irrigation area from said field modules, generating a control signal based on said data, sending said control signal to said field modules adapted to receive said control signal, and controlling a plurality of irrigation components coupled to said field modules based on said control signal; and enabling a wireless network adapter, communicatively coupled between the server and the irrigation field module matrix, adapted to route the data from the matrix to the server and route the control signal from the server to the matrix; and configuring said plurality of field modules for single-hop and multi-hop communication for receiving said control signal and sending said data. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A system for wirelessly monitoring and controlling an irrigation field comprising:
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a server configured for; receiving data pertaining to an irrigation area from a field module matrix including one or more field modules, the field module matrix dynamically reconfigurable to compensate for changes in the irrigation field, generating a control signal based on said data, sending said control signal to said one or more field modules adapted to receive said control signal, said field modules configured for single-hop and multi-hop communication for receiving said control signal and sending said data, and controlling a plurality of irrigation components coupled to said one or more field modules based on said control signal; a wireless network adapter, communicatively coupled between the server and the field module matrix, adapted to route the data from the field matrix module to the server and route the control signal from the server to the field module matrix; a memory module accessible by said server; and a database, residing on said memory module, for storing a system status generated from said data. - View Dependent Claims (12, 13, 14, 15, 16, 17, 18, 19, 20)
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21. A method for wirelessly monitoring and controlling an irrigation field, comprising:
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creating a field module matrix by placement of a plurality of field modules within an irrigation area, the field module matrix dynamically reconfigurable to compensate for changes in the irrigation field; configuring a server for; receiving data pertaining to said irrigation area from said field modules, generating a control signal based on said data, wherein generating said control signal further comprises generating an irrigation schedule, making determinations based on a hydraulic analysis of said data, making determinations based on an interpolation of sensor data gathered from said data, and making determinations based on evapotranspiration data gathered from said data, sending said control signal to said field modules adapted to receive said control signal, and controlling a plurality of irrigation components coupled to said field modules based on said control signal; enabling a communication medium, communicatively coupled between the server and the field module matrix, adapted to route said data from said matrix to said server and route said control signal from said server to said matrix, wherein said communication medium further comprises a wireless network adapter translates between a protocol in use by said plurality of field modules and said server; configuring said field modules for single-hop and multi-hop communication for receiving said control signal and sending said data; and monitoring a performance of said server via algorithmic calibrations pertaining to one or more irrigation related processes.
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Specification