Wireless infrared network transceiver and methods and systems for operating same
4 Assignments
0 Petitions
Accused Products
Abstract
A digital data network (100) uses network nodes (106) incorporating infrared transceivers (108). Each node (106) includes a plurality of infrared transceivers (108) having transmitter (109) and receiver (111) optics designed to facilitate line-of-sight infrared optical communications in a residential or business neighborhood. New nodes (106) are installed with at least one selected transceiver (108) having line-of-sight access to at least one existing transceiver (108). Automated tracking (370, 400, 500) and acquisition (300) processes are used to align transceivers (108) to enable data communication and to acquire newly installed nodes (108) into the network (100). Other automated tracking programs operate on an as-needed or scheduled basis to maintain good alignment and communications between adjoining node transceivers (108). Network nodes include weather-proof housings (112) and are of a size and shape to be easily mounted on existing structures so as not to disrupt the visual appeal of a neighborhood.
39 Citations
67 Claims
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1-44. -44. (canceled)
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45. A method of aligning first and second communicating transceivers in a network of existing point-to-point communications transceivers, comprising the steps of:
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monitoring the signal quality of a digital signal transmitted by said second transceiver and received by said first transceiver;
if the signal quality of the digital signal received by said first transceiver falls below a predetermined threshold, then with said second transceiver stationary, tracking said first transceiver over a predetermined number of positions in a first predetermined path to determine one or more positions of maximum signal quality detected by said first transceiver in said first predetermined path, if a single position of maximum signal quality is detected by said first receiver in said first predetermined path, then returning said first transceiver to said single position of maximum signal quality detected by said first transceiver in said first predetermined path, and if two positions of maximum signal quality are detected by said first receiver in said first predetermined path, then returning said first transceiver to the center between said two positions of maximum signal quality detected by said first transceiver in said first predetermined path. - View Dependent Claims (46, 47, 48, 49, 50, 51, 52, 53, 54, 55)
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56. A system for aligning first and second communicating transceivers in a network of existing point-to-point communications transceivers, comprising:
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a processor;
a memory connected to said processor and storing instructions for controlling the operation of the processor, the processor operative with the instructions to perform the steps of;
monitoring the signal quality of a digital signal transmitted by said second transceiver and received by said first transceiver;
if the signal quality of the digital signal received by said first transceiver falls below a predetermined threshold, then with said second transceiver stationary, tracking said first transceiver over a predetermined number of positions in a first predetermined path to determine one or more positions of maximum signal quality detected by said first transceiver in said first predetermined path, if a single position of maximum signal quality is detected by said first receiver in said first predetermined path, then returning said first transceiver to said single position of maximum signal quality detected by said first transceiver in said first predetermined path, and if two positions of maximum signal quality are detected by said first receiver in said first predetermined path, then returning said first transceiver to the center between said two positions of maximum signal quality detected by said first transceiver in said first predetermined path. - View Dependent Claims (57, 58, 59, 60, 61, 62, 63, 64, 65, 66)
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67. A system for aligning first and second communicating transceivers in a network of existing point-to-point communications transceivers, comprising:
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means for monitoring the signal quality of a digital signal transmitted by said second transceiver and received by said first transceiver;
means for, if the signal quality of the digital signal received by said first transceiver falls below a predetermined threshold, with said second transceiver stationary, tracking said first transceiver over a predetermined number of positions in a first predetermined path to determine one or more positions of maximum signal quality detected by said first transceiver in said first predetermined path, said if a single position of maximum signal quality is detected by said first receiver in said first predetermined path, then returning said first transceiver to said single position of maximum signal quality detected by said first transceiver in said first predetermined path, and if two positions of maximum signal quality are detected by said first receiver in said first predetermined path, then returning said first transceiver to the center between said two positions of maximum signal quality detected by said first transceiver in said first predetermined path.
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Specification