Very narrow band multipoint communication system
First Claim
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1. An automatic meter reading system, comprising:
- a plurality of geographically distributed meters;
each meter comprising a transmitter for transmitting communication signals comprising meter data via a communication protocol;
at least one data collection device configured to receive the communication signals from the meters pursuant to the communication protocol;
wherein the communication protocol comprises an operational frequency band divided into a plurality of main channels and application of an interference limiting hopping technique among the main channels;
wherein each main channel is divided into a plurality of very narrow band sub-channels with frequency division multiplexing among the sub-channels;
wherein the meters comprise hop meters and mesh meters, wherein the mesh meters communicate associated data to the hop meters, and the hop meters communicate associated data and the data received from the mesh meters to the data collection device; and
wherein each hop meter is configured to communicate with one or more mesh meters via narrow band channels that are substantially wider than the very narrow band sub-channels used for communications between the hop meter and the data collection device.
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Abstract
A very narrow band multipoint communication system suitable for use in an automatic meter reading (AMR) system having a communication protocol that divides each main channel of a frequency or digital code hopping system into multiple sub-channels and applies frequency division multiplexing among the sub-channels. Each sub-channel exhibits a very narrow band characteristic that allows gain increase to increase the transmission range of the meters. In addition, frequency division multiplexing among the sub-channels greatly increases the number of meters that can communicate on each main channel. The data collection device demodulates and decodes the multiplexed meter signals at an intermediate frequency with electronic circuitry. The resulting very narrow band AMR system exhibits greater transmission range, greater bandwidth and can accommodate a much larger number of meters per data collection device in comparison to a conventional narrow band AMR system.
5 Citations
17 Claims
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1. An automatic meter reading system, comprising:
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a plurality of geographically distributed meters; each meter comprising a transmitter for transmitting communication signals comprising meter data via a communication protocol; at least one data collection device configured to receive the communication signals from the meters pursuant to the communication protocol; wherein the communication protocol comprises an operational frequency band divided into a plurality of main channels and application of an interference limiting hopping technique among the main channels; wherein each main channel is divided into a plurality of very narrow band sub-channels with frequency division multiplexing among the sub-channels; wherein the meters comprise hop meters and mesh meters, wherein the mesh meters communicate associated data to the hop meters, and the hop meters communicate associated data and the data received from the mesh meters to the data collection device; and wherein each hop meter is configured to communicate with one or more mesh meters via narrow band channels that are substantially wider than the very narrow band sub-channels used for communications between the hop meter and the data collection device. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A very narrow band communication system, comprising:
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a plurality of geographically distributed transmitters; each transmitter configured for transmitting communication signals via a communication protocol; at least one data collection device configured to receive the communication signals from the transmitters pursuant to the communication protocol; wherein the communication protocol comprises an operational frequency band divided into a plurality of main channels and application of an interference limiting hopping technique among the main channels; wherein each main channel is divided into a plurality of very narrow band sub-channels with frequency division multiplexing among the sub-channels; wherein the transmitters comprise hop transmitters and mesh transmitters, wherein the mesh transmitters communicate associated data to the hop transmitters, and the hop transmitters communicate associated data and the data received from the mesh transmitters to the data collection device; and wherein each hop transmitter is configured to communicate with one or more mesh transmitters via narrow band channels that are substantially wider than the very narrow band sub-channels used for communications between the hop transmitters and the data collection device. - View Dependent Claims (10, 11, 12, 13, 14, 15, 16, 17)
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Specification
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Current AssigneeThomas Meek
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Original AssigneeThomas Meek
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InventorsMeek, Thomas
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Primary Examiner(s)Shah, Chirag G
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Assistant Examiner(s)Shivers, Ashley L
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Application NumberUS12/124,627Publication NumberTime in Patent Office867 DaysField of SearchNoneUS Class Current370/295CPC Class CodesG01D 4/002 Remote reading of utility m...H04B 1/715 Interference-related aspectsH04J 13/00 Code division multiplex sys...H04J 13/0074 Code shifting or hoppingY02B 90/20 Smart grids as enabling tec...Y04S 20/30 Smart metering, e.g. specia...
