Monitoring system and method
First Claim
1. A monitoring system, comprising:
- a plurality of monitoring devices disposed in sewer manholes, each of said monitoring devices comprising (i) a sensor configured to obtain depth measurements at periodic intervals, and (ii) a wireless transceiver;
a plurality of wireless mesh nodes arranged in a distributed network, at least one of said mesh nodes in physical proximity to each of said monitoring devices for communicating wirelessly therewith, wherein at least some of said mesh nodes communicating with said monitoring devices are also configured to wirelessly communicate with one another; and
at least one bridge node configured to communicate wirelessly with said mesh nodes, and to transfer information between said mesh nodes and a remote monitoring station;
wherein said mesh nodes each comprise a wireless transceiver configured to communicate with other mesh nodes, at least one of said monitoring devices, and said bridge node, according to a multiplexing technique;
wherein said mesh nodes convey depth measurement data from the monitoring devices to the remote monitoring station, and convey instructions or other information from the remote monitoring station to the monitoring devices; and
wherein said bridge node comprises a first wireless transceiver for communicating with the mesh nodes according to a first protocol, and a gateway interface for communicating with said remote monitoring station via a second network.
1 Assignment
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Accused Products
Abstract
A monitoring system includes one or more monitoring devices, positioned in sewer manholes, storm drains, etc., and a remote monitoring station that communicates wirelessly therewith. The monitoring device may be an integrated unit, including sensors, a two-way telemetry unit, a power supply, a processor, and supporting hardware, all located in an enclosed, waterproof housing. The monitoring device is placed within a manhole cavity to obtain depth (e.g., water level) measurements, images, and other data, and report the measurements back to the remote monitoring station, which analyzes the data and responds to alert messages when a dangerous water level is detected. An additional sensor may monitor the manhole cover for security purposes. A distributed mesh network of wireless nodes may be used to relay communications from the monitoring devices along alternative paths, through bridge nodes that may connect to a public wireless or cellular network.
76 Citations
32 Claims
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1. A monitoring system, comprising:
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a plurality of monitoring devices disposed in sewer manholes, each of said monitoring devices comprising (i) a sensor configured to obtain depth measurements at periodic intervals, and (ii) a wireless transceiver; a plurality of wireless mesh nodes arranged in a distributed network, at least one of said mesh nodes in physical proximity to each of said monitoring devices for communicating wirelessly therewith, wherein at least some of said mesh nodes communicating with said monitoring devices are also configured to wirelessly communicate with one another; and at least one bridge node configured to communicate wirelessly with said mesh nodes, and to transfer information between said mesh nodes and a remote monitoring station; wherein said mesh nodes each comprise a wireless transceiver configured to communicate with other mesh nodes, at least one of said monitoring devices, and said bridge node, according to a multiplexing technique; wherein said mesh nodes convey depth measurement data from the monitoring devices to the remote monitoring station, and convey instructions or other information from the remote monitoring station to the monitoring devices; and wherein said bridge node comprises a first wireless transceiver for communicating with the mesh nodes according to a first protocol, and a gateway interface for communicating with said remote monitoring station via a second network. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A method for monitoring a plurality of sewer manholes distributed over a large geographic region, comprising:
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placing a plurality of monitoring devices in sewer manholes, each of said monitoring devices comprising (i) a sensor configured to obtain depth measurements at periodic intervals, and (ii) a wireless transceiver; disposing a plurality of wireless mesh nodes throughout a geographic region encompassing the sewer manholes, at least one of said mesh nodes in physical proximity to each of said monitoring devices for communicating wirelessly therewith and at least some of said mesh nodes communicating with said monitoring devices configured to also wirelessly communicate with one another, thereby forming a distributed mesh network; disposing at least one bridge node in the distributed mesh network, said bridge node configured to communicate wirelessly with said mesh nodes; conveying depth measurement data from said monitoring devices to a remote monitoring station via a plurality of communication paths including said mesh nodes and said bridge node of the distributed mesh network; conveying information from said remote monitoring station to said monitoring devices, via said mesh nodes and said bridge node of the distributed mesh network; conveying information from the monitoring devices to the remote monitoring station via said mesh nodes, and conveying instructions or other information from the remote monitoring station to the monitoring devices via said mesh node; wherein a first one of said mesh nodes in direct wireless communication with a first one of said monitoring devices relays messages from a second one of said mesh nodes in direct wireless communication with a second one of said monitoring devices to said bridge node, and relay return path messages from said bridge node to the second one of said mesh nodes; and wherein said bridge node comprises a first wireless transceiver for communicating with the mesh nodes according to a first protocol, and a gateway interface for communicating with said remote monitoring station via a second network. - View Dependent Claims (12, 13, 14, 15, 16, 17, 18, 19, 20)
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21. A method for monitoring a plurality of depth measurement devices distributed over a geographic region, comprising:
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disposing a plurality of stationary monitoring devices in different geographic locations, each of said monitoring devices comprising (i) a sensor configured to obtain depth measurements at periodic intervals, and (ii) a wireless transceiver; disposing a plurality of stationary mesh nodes throughout the geographic region, said mesh nodes configured to communicate wirelessly with said monitoring devices using a low power radio frequency (RF) communication technique and to communicate wirelessly to each of the other mesh nodes within range, thereby forming a distributed mesh network; disposing at least one bridge node in the distributed mesh network, said bridge node configured to communicate wirelessly with said mesh nodes; conveying depth measurement data from said monitoring devices to a remote monitoring station via said bridge node, across a plurality of communication paths dynamically selected by said mesh nodes, at least one of the selectable communication paths including a plurality of said mesh nodes; conveying information from said remote monitoring station to said monitoring devices via the distributed mesh network; conveying information from the monitoring devices to the remote monitoring station via said mesh nodes, and conveying instructions or other information from the remote monitoring station to the monitoring devices via said mesh nodes; wherein a first one of said mesh nodes in direct wireless communication with a first one of said monitoring devices relays messages from a second one of said mesh nodes in direct wireless communication with a second one of said monitoring devices to said bridge node, and relay return path messages from said bridge node to the second one of said mesh nodes; and wherein said bridge node comprises a first wireless transceiver for communicating with the mesh nodes according to a first protocol, and a gateway interface for communicating with said remote monitoring station via a second network. - View Dependent Claims (22, 23, 24, 25)
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26. A monitoring system for monitoring a plurality of depth measurement devices distributed over a geographic region, comprising:
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a plurality of wireless mesh nodes arranged in a distributed network, a subset of said wireless mesh nodes each located in physical proximity to one of a plurality of wireless depth monitoring devices configured to obtain depth measurements at periodic intervals; and at least one bridge node configured to communicate with said wireless mesh nodes, and to transfer information between said wireless mesh nodes and a remote monitoring station; wherein said wireless mesh nodes, including said subset of wireless mesh nodes, are configured to wirelessly communicate with one another to facilitate conveyance of data from the depth monitoring devices to said bridge node; wherein said wireless mesh nodes provide multiple alternative communication paths from individual depth monitoring devices to said bridge node, each of said alternative communication paths from an individual depth monitoring device involving a different combination of mesh nodes; whereby selected depth measurements from said wireless depth monitoring devices are conveyed to said remote monitoring station; and wherein said bridge node comprises a first wireless transceiver for communicating with the wireless mesh nodes according to a first protocol, and a gateway interface for communicating with said remote monitoring station via a second network. - View Dependent Claims (27, 28, 29, 30, 31, 32)
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Specification