Intelligent alerting and locating communication system
First Claim
1. Method of monitoring a plurality of remote conditions from a central location, said method comprising the steps of:
- providing a monitoring system which includes a plurality of portable radio transmitters which each selectively emits a radio signal with a unique radio code, a plurality of remotely located receivers for receiving radio signals from any in-range portable radio transmitter of the plurality of radio transmitters, and a centrally located scanner;
receiving at a particular remotely located receiver a radio signal with a radio code from a portable radio transmitter of the plurality of portable radio transmitters;
responding to the receipt of the radio signal by comparing the radio code to a predefined radio code format stored in the remotely located receiver to verify that the radio signal was transmitted from a portable radio transmitter of the plurality of portable radio transmitters and further comparing the radio code to a unique radio code associated with the particular remotely located receiver to verify that the radio signal was transmitted from a particular portable radio transmitter associated with the particular remotely located receiver;
storing the radio code in the particular remotely located receiver upon verifying that the radio signal was transmitted from a portable radio transmitter of the plurality of portable radio transmitters without regard to whether the radio signal was transmitted from the particular portable radio transmitter associated with the particular remotely located receiver;
polling each remotely located receiver from the centrally located scanner for information previously stored in each remotely located receiver; and
transmitting information from each remotely located receiver to the centrally located scanner.
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Accused Products
Abstract
An intelligent alerting and locating communication system includes a centrally located scanner which communicates with a plurality of remotely located receivers to continuously monitor conditions through a plurality of detectors associated with each receiver, including smoke detectors and motion detectors, and through personal radio transmitters. Each detector detects an off-normal state in a monitored condition and makes an indication that is sensed by at least one receiver which stores the occurrence in memory. Each radio frequency transmitter emits a unique coded signal which is received by one or more receivers. If the coded signal is in a valid format, the coded signal is stored in memory. If the coded signal matches a unique code assigned to that receiver, a matched code signal is generated and also stored in memory. The scanner polls each receiver for information stored in memory by sending out unique addresses onto a communication link connecting all receivers, and the appropriate receiver responds to the polling by sending condition information back to the scanner, including any code received from any transmitter so that every receiver which receives a transmitter code communicates that code to the scanner. A controller device is connected to the scanner device which receives address information from the scanner and condition information, including transmitter codes, from each receiver and processes that information and information from a related database to generate a graphical display of condition data, related database data, and location information derived from receiver addresses.
90 Citations
14 Claims
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1. Method of monitoring a plurality of remote conditions from a central location, said method comprising the steps of:
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providing a monitoring system which includes a plurality of portable radio transmitters which each selectively emits a radio signal with a unique radio code, a plurality of remotely located receivers for receiving radio signals from any in-range portable radio transmitter of the plurality of radio transmitters, and a centrally located scanner; receiving at a particular remotely located receiver a radio signal with a radio code from a portable radio transmitter of the plurality of portable radio transmitters; responding to the receipt of the radio signal by comparing the radio code to a predefined radio code format stored in the remotely located receiver to verify that the radio signal was transmitted from a portable radio transmitter of the plurality of portable radio transmitters and further comparing the radio code to a unique radio code associated with the particular remotely located receiver to verify that the radio signal was transmitted from a particular portable radio transmitter associated with the particular remotely located receiver; storing the radio code in the particular remotely located receiver upon verifying that the radio signal was transmitted from a portable radio transmitter of the plurality of portable radio transmitters without regard to whether the radio signal was transmitted from the particular portable radio transmitter associated with the particular remotely located receiver; polling each remotely located receiver from the centrally located scanner for information previously stored in each remotely located receiver; and transmitting information from each remotely located receiver to the centrally located scanner. - View Dependent Claims (2, 3, 4)
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5. A monitoring system comprising:
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a plurality of detector means for detecting off-normal states of monitored conditions and for producing detector indications of said states; a plurality of readily portable, personal radio transmitter means for selectively transmitting radio signals with radio codes unique to each radio transmitter means; a plurality of receiver means associated with said plurality of detector means and said plurality of radio transmitter means for responding to said detector indications and said radio signals, wherein each receiver means of said plurality of receiver means includes, at least, detector monitor means for monitoring said detector indications of at least two detector means of said plurality of detector means, radio monitor means for continuously monitoring radio signals to receive any radio signal from any in-range radio transmitter means of said plurality of radio transmitter means, wherein each radio transmitter means of said plurality of radio transmitter means transmits throughout a range including, depending on receiver means arrangement, at least two receiver means of said plurality of receiver means, format comparison means for, upon receiving a radio signal with a radio code, comparing the radio code to a predefined code format stored in said receiver means to determine if the radio signal was emitted from a radio transmitter means of said plurality of radio transmitter means, assigned code comparison means for, upon receiving a radio signal with a radio code, comparing the radio code to a unique radio code assigned to said receiver means to determine if the radio signal was emitted from a particular radio transmitter means of said plurality of radio transmitter means associated with said receiver means, and packet generation means for generating a multiple bit receiver signal packet simultaneously representative of, at least, all detector indications associated with said receiver means and results of said radio code comparisons; and a scanner means associated with said plurality of receiver means for transmitting to said plurality of receiver means a separate multiple bit address packet for each receiver means of said plurality of receiver means and for receiving said multiple bit receiver signal packets from said plurality of receiver means. - View Dependent Claims (6, 7, 8, 9, 10, 11, 12, 13, 14)
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Specification
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Current AssigneeWayne W. Evans
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Original AssigneeWayne W. Evans
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InventorsEvans, Wayne W.
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Primary Examiner(s)Horabik, Michael
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Application NumberUS08/173,889Time in Patent Office589 DaysField of Search340/825.06-825.08, 340/825.1, 340/870.11, 340/870.13, 340/870.27, 340/870.41, 340/518, 340/521, 340/573, 340/870.28, 340/286.07 , 340/825.49, 307/116, 307/125, 307/130, 128/903US Class Current340/870.11CPC Class CodesG08B 26/001 with individual interrogati...
