METHOD AND SYSTEM FOR PROVIDING REDUNDANCY IN RAILROAD COMMUNICATION EQUIPMENT
First Claim
1. In a communication system utilizing multiple processors for encoding both media access information and application information into a single message data stream, a method of providing redundancy for a safety-critical function, the method comprising:
- using a first of the multiple processors but not a second of the processors to encode first safety critical data into the message wherein the first safety critical data is encoded within the media access information, the first safety critical information generated by a first switch controlled by an operator control unit; and
using the second of the multiple processors but not the first of the processors to encode second safety critical data redundant with the first safety critical data into the message, wherein the second safety critical data is encoded within the application information, the second safety critical information generated by a second switch controlled by the operator control unit, the first switch parallel with the second switch, the first and the second switches simultaneously operable responsive to operation of the operator control unit;
transmitting the message over an over-the-air communications link;
receiving the first safety critical information at a first receiver;
receiving the second safety critical information at a second receiver;
a first device responsive to the first receiver for responding to the first safety critical information;
a second device responsive to the second receiver for responding to the second safety critical information; and
the first and the second receivers and the first and the second devices comprising two independent parallel data paths from the communications link.
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Accused Products
Abstract
A railway communication system (10) includes a transmitter (12) receiving an input and producing a communication signal (18). The communication signal (18) includes at least two different portions (20,22) for separately encoding respective indications (38,40) of the input. The system also includes a receiver (14) coupled to a controlled device, the receiver (14) extracting at least one of the respective indications (38,40) from the communication signal (18). The receiver controls the device responsive to the at least one extracted indications (38,40).
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Citations
11 Claims
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1. In a communication system utilizing multiple processors for encoding both media access information and application information into a single message data stream, a method of providing redundancy for a safety-critical function, the method comprising:
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using a first of the multiple processors but not a second of the processors to encode first safety critical data into the message wherein the first safety critical data is encoded within the media access information, the first safety critical information generated by a first switch controlled by an operator control unit; and using the second of the multiple processors but not the first of the processors to encode second safety critical data redundant with the first safety critical data into the message, wherein the second safety critical data is encoded within the application information, the second safety critical information generated by a second switch controlled by the operator control unit, the first switch parallel with the second switch, the first and the second switches simultaneously operable responsive to operation of the operator control unit; transmitting the message over an over-the-air communications link; receiving the first safety critical information at a first receiver; receiving the second safety critical information at a second receiver; a first device responsive to the first receiver for responding to the first safety critical information; a second device responsive to the second receiver for responding to the second safety critical information; and the first and the second receivers and the first and the second devices comprising two independent parallel data paths from the communications link. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A communication system comprising:
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a communication signal comprising at least two different portions for separately encoding signal identification information; and a receiver comprising at least two processors, each processor separately responsive to a respective one of the at least two different portions of the communication signal;
each processor measuring a predetermined time period from a detection of respective signal identification information and each processor determining if subsequently received respective signal identification information is detected within the predetermined time period to confirm that the receiver is receiving communication signals at a desired reception rate.
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Specification