Method and System for Remotely Monitoring and Controlling Field Devices with a Street Lamp Elevated Mesh Network
First Claim
1. A computer-implemented method for communicating data between a remote field device and a back-end computer system comprising:
- receiving data from a remote field device;
transmitting the data from the remote field device to an elevated mesh network;
relaying the data across the elevated mesh network to a communications gateway;
determining if the data should be communicated to the back-end computer system;
establishing a link between the communications gateway and the back-end computer system for a predetermined amount of time; and
transferring the data from communications gateway to the back-end computer system while the link is active.
2 Assignments
0 Petitions
Accused Products
Abstract
An elevated mesh network supported and operably coupled to street lamps can be used to remotely monitor and control field devices. The packet transceiver modules of the mesh network can also be coupled to sensors that monitor operation of a street lamp as well as environmental conditions. The elevated mesh network supported by street lamps can use RF links to couple with one or more remote field devices that also have packet transceiver modules. The elevated mesh network can also include a communications gateway that couples the elevated mesh network to an asynchronous communications system. The communications gateway is a store and forward system that can periodically connect to the asynchronous communications system in order to upload compressed data derived from the remote field devices. The asynchronous communications system can connect the elevated mesh network to a back-end computer system that may monitor, diagnose, and control the remote field devices.
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Citations
20 Claims
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1. A computer-implemented method for communicating data between a remote field device and a back-end computer system comprising:
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receiving data from a remote field device;
transmitting the data from the remote field device to an elevated mesh network;
relaying the data across the elevated mesh network to a communications gateway;
determining if the data should be communicated to the back-end computer system;
establishing a link between the communications gateway and the back-end computer system for a predetermined amount of time; and
transferring the data from communications gateway to the back-end computer system while the link is active. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A system for communicating data between a remote field device and a back-end computer system comprising:
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a remote field device comprising a packet transceiver module;
an elevated mesh network comprising a plurality of nodes, each node comprising a packet transceiver module, at least one node in communication with the remote field device; and
a communications gateway forming a part of the elevated mesh network and receiving data originating from the remote field device from one of a node in the mesh network and the remote field device, the communications gateway determining if the data should be communicated to a back-end computer system and selectively establishing a link with the back-end computer system on a periodic basis. - View Dependent Claims (11, 12, 13, 14, 15)
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16. A computer-implemented method for communicating data between a remote field device and a back-end computer system comprising:
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transmitting the data from a non-light remote field device to an elevated mesh network supported by utility poles;
receiving the data with a communications gateway that is part of the elevated mesh network and that is supported by a utility pole;
determining if the data should be communicated to the back-end computer system; and
establishing a link between the communications gateway and the back-end computer system for a predetermined amount of time. - View Dependent Claims (17, 18, 19, 20)
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Specification