Monitoring device

US 4,907,175 A
Filed: 01/19/1988
Issued: 03/06/1990
Est. Priority Date: 01/19/1987
Status: Expired due to Fees

First Claim

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1. A monitoring device, comprising a central unit means whereto there are connected a transmitter for periodically transmitting a pulse train into a medium to be monitored and a receiver for receiving the pulse train which is transported by the medium and which is formed by a wave group, which central unit means comprises a control member for controlling a monitoring device and a sampling unit which is connected to the receiver for taking in correlation with the transmission of the pulse train and each time within a sampling cycle, a series of n sampling values from the wave group received, where n is greater than 3 and for forming an actual pattern word from said series, which control member is connected to a signal generator and comprises a reference memory for storing a reference pattern word formed during a preceding cycle, which control member also comprises a control unit which is connected to the reference memory and which comprises a comparator, characterized in that the control unit also sub-divides the period of the wave group received into a further number of n/j sub-periods, where j is greater than 1, and sub-divides the actual pattern word and the reference pattern word into n/j j-bit first sub-pattern words and second sub-pattern words, respectively, each j-bit sub-pattern word representing a signal component in a respective sub-period of the wave group, which comparator forms each time a combination word from a first sub-pattern word and a second sub-pattern word originating from corresponding sub-periods, which comparator also comprises a code number generator means for assigning a code number from a predetermined series of code numbers to each combination word, which code numbers represent a respective measure of the shift in time of the signal components, as represented by the first sub-pattern word of their respective combination word, with respect to the signal component as represented by the second sub-pattern word of their respective combination word, which control member also comprises a counter system which is connected to the code number generator means and which is suitable for determining for each of the code numbers a first sum number which indicates the number of times that the relevant code number has been assigned within one and the same cycle, which control unit is suitable for checking whether the first sum numbers exceed limit values given by a predetermined criterion and for activating the signal generator when the criterion is exceeded.

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Abstract

A monitoring device comprises a transmitter and a receiver for transmitting and receiving, respectively, a signal in a medium to be monitored. During a cycle of m sampling periods n sampling values are taken of the signal received during each sampling period. After completion of each cycle a series of n means sampling values is determined by determining a mean value from the m sampling values taken at corresponding instants in the sampling periods. This series forms an actual pattern word which is sub-divided into sub-pattern words, each sub-pattern word being combined with a corresponding sub-pattern word from a reference pattern word in order to form a combination word. The combination word is translated into a code number which is selected from a predetermined series of code numbers. The code number assigned characterizes the time shift of the actual sub-pattern word with respect to the reference pattern word. For each cycle there is determined a series of sum numbers which represent how many times each code number has been assigned. This series of sum numbers is tested with respect to a criterion. If one or more sum numbers of the series exceeds the limit value given, a signal is generated, for example an alarm signal.

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38 Claims

1. A monitoring device, comprising a central unit means whereto there are connected a transmitter for periodically transmitting a pulse train into a medium to be monitored and a receiver for receiving the pulse train which is transported by the medium and which is formed by a wave group, which central unit means comprises a control member for controlling a monitoring device and a sampling unit which is connected to the receiver for taking in correlation with the transmission of the pulse train and each time within a sampling cycle, a series of n sampling values from the wave group received, where n is greater than 3 and for forming an actual pattern word from said series, which control member is connected to a signal generator and comprises a reference memory for storing a reference pattern word formed during a preceding cycle, which control member also comprises a control unit which is connected to the reference memory and which comprises a comparator, characterized in that the control unit also sub-divides the period of the wave group received into a further number of n/j sub-periods, where j is greater than 1, and sub-divides the actual pattern word and the reference pattern word into n/j j-bit first sub-pattern words and second sub-pattern words, respectively, each j-bit sub-pattern word representing a signal component in a respective sub-period of the wave group, which comparator forms each time a combination word from a first sub-pattern word and a second sub-pattern word originating from corresponding sub-periods, which comparator also comprises a code number generator means for assigning a code number from a predetermined series of code numbers to each combination word, which code numbers represent a respective measure of the shift in time of the signal components, as represented by the first sub-pattern word of their respective combination word, with respect to the signal component as represented by the second sub-pattern word of their respective combination word, which control member also comprises a counter system which is connected to the code number generator means and which is suitable for determining for each of the code numbers a first sum number which indicates the number of times that the relevant code number has been assigned within one and the same cycle, which control unit is suitable for checking whether the first sum numbers exceed limit values given by a predetermined criterion and for activating the signal generator when the criterion is exceeded.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 23)
- - 2. A monitoring device as claimed in claim 1, characterized in that the control unit comprises a ratio factor generator for determining a ratio factor from the ratio of the first sum numbers associated with code numbers representing an advancement in time and the first sum numbers associated with code numbers representing a retardation, which control unit is also suitable for forming a second sum number by summing the sum values associated with code numbers representing shifts in a predetermined time interval, which control unit is also suitable for forming a combination number from the second sum number and the ratio factor and for activating the signal generator if said combination number forms part of a predetermined number of combination numbers.
  - 3. A monitoring device as claimed in claim 2, characterized in that the control unit forms the second sum number by summing the sum values associated with code numbers representing a phase shift having an order of magnitude situated in the ranges (120°
    - -180°
      
      ), (180°
      
      -240°
      
      ).
  - 4. A monitoring device as claimed in claim 3, characterized in that said combination number is composed of the ratio factor, the second sum number and the further second sum number.
  - 5. A monitoring device as claimed in claim 2, characterized in that the control unit is suitable for forming a further second sum number by summing sum values associated with code numbers representing a phase shift having an order of magnitude situated in the range between -60°
    - and 60°
      
      .
  - 6. A monitoring device as claimed in claim 5, characterized in that said combination number is composed of the ratio factor, the second sum number and the further second sum number.
  - 7. A monitoring device as claimed in claim 2, characterized in that the control member comprises a memory in which indicators are stored in memory locations which are addressable by combination numbers forming part of said predetermined number of combination numbers, which indicators represent each time an activation signal for the signal generator.
  - 8. A monitoring device as claimed in claim 1 or 2, characterized in that the pulse train to be transmitted is composed of a mainly sinusoidal wave pattern, the shifts in time as represented by the code numbers representing each time a phase shift within a predetermined phase range.
  - 9. A monitoring device as claimed in claim 8, characterized in that the phase range is sub-divided into regions of each time 60°
    - (π
      
      /3), a sub-pattern word being associated with each region thus formed.
  - 10. A monitoring device as claimed in claim 9, characterized in that the control unit forms the second sum number by summing the sum values associated with code numbers representing a phase shift having an order of magnitude situated in the ranges (120°
    - -180°
      
      ), (180°
      
      -240°
      
      ).
  - 11. A monitoring device as claimed in claim 9, characterized in that the control unit is suitable for forming a further second sum number by summing sum values associated with code numbers representing a phase shift having an order of magnitude situated in the range between -60°
    - and 60°
      
      .
  - 12. A monitoring device as claimed in claim 8, characterized in that said series of code numbers comprises a first code number which represents the disappearance of the wave group received and a second code number which represents a phase jump in a signal component in the wave group received, the control unit being suitable for activating a warning signal if within a cycle said first or second code number has occurred a number of times which exceeds a predetermined number.
  - 13. A monitoring device as claimed in claim 1, characterized in that the code number generator comprises a further memory in which the series of code numbers are stored and which can be addressed by an address formed by the combination word.
  - 14. A monitoring device as claimed in claim 13, characterized in that the sampling frequency amounts to three times the pulse frequency of the transmitted pulse train.
  - 15. A monitoring device as claimed in claim 1, in which the control member comprises a mean value determining unit for forming each time after completion of a cycle of m (m>
    - 1) sampling periods, a further series of n mean sampling values by determining a mean value from the sampling values taken in the corresponding further sub-periods of each of the m sampling periods of the same cycle, and for forming the actual pattern word from said further series, characterized in that the mean value determining device comprises a register memory having n memory locations, an address generator for generating, in synchronism with the taking of each of the k^th (1≦
      
      k≦
      
      n) sampling value by the sampling unit, each time a k^th address for addressing the k^th memory location of the register memory, and a counter which is connected to a data port of said register memory and to an output of the sampling unit, which mean value determining device is suitable for presenting, in response to the presentation of a sampling value originating from the sampling unit, the contents of the addressed memory location to the counter which is suitable for adding the sampling value presented to said contents presented, which mean value determining device is also suitable for storing the addition result of the counter at the addressed memory location.
  - 16. A monitoring device as claimed in claim 1, characterized in that the sampling unit samples the wave group received with a frequency which is a multiple of the pulse frequency of the transmitted pulse train.
  - 17. A monitoring device as claimed in claim 1, characterized in that the control unit comprises an amplitude control signal generator for generating a series of amplitude control signals, each control signal of the series indicating a well-defined amplitude of the pulses of the pulse train to be transmitted, which monitoring device comprises a control circuit, a control input of which is connected to the amplitude control signal generator in order to receive amplitude control signals, an output thereof being connected to the transmitter, which control circuit comprises adjusting means for adjusting, under the control of a control signal received, the pulse amplitude of the pulse train to be transmitted to a level indicated by the control signal received, which control unit is suitable for verifying, during an adjustment phase of the monitoring device, whether an amplitude adjusted by means of a selected amplitude control signal will lead to the predetermined criterion being exceeded, and for selecting, when the criterion is exceeded, a further amplitude control signal which represents a higher amplitude.
  - 18. A monitoring device as claimed in claim 17, characterized in that the control unit comprises a readjustment unit which comprises a first counter for counting the total number of times that code numbers representing a shift in time which deviates from zero have occurred within a number of cycles, which readjustment unit is connected to the amplitude control signal generator and is suitable for selecting an amplitude control signal indicating a lower and a higher amplitude, respectively, if said total number of times within a further predetermined number of cycles is smaller and larger, respectively, than a predetermined number.
  - 19. A monitoring device as claimed in claim 18, characterized in that the readjustment unit comprises a second counter and a third counter for counting the number of times that said total number of times is smaller and larger, respectively, than said predetermined number, which second counter and third counter supply a first control signal and a second control signal, respectively, when said further predetermined number is exceeded.
  - 20. A monitoring device as claimed in claim 18 or 19, characterized in that the readjustment unit is suitable for checking, under the control of a first control signal and a second control signal, respectively, received, whether the selected amplitude control signal represents the lowest and the highest amplitude value, respectively, and for keeping the selected amplitide control signal the same if it represents such a lowest amplitude value and highest amplitude value, respectively.
  - 21. A monitoring device as claimed in claim 17, characterized in that said series of code numbers comprises a first code number which represents the disappearance of the wave group received, the control unit being suitable for selecting a further amplitude signal which represents a higher amplitude if the first code number occurs more often than a predetermined number of times.
  - 22. A monitoring device as claimed in claim 17 or 21, characterized in that the control circuit comprises a parallel connection of resistors, each of which has a different resistance value, each resistor comprising a first connection which is connected to a switching element which comprises a control input for receiving the amplitude control signal, a second connection being connectable to a power supply for the transmitter.
  - 23. A central unit for use in a monitoring device as claimed in claim 1, characterized in that the control unit comprises a microprocessor.

24. A method for continuously monitoring a physical integrity of a medium, said method comprising the steps of:
- (a) repeatably generating a standard source pattern of substantially periodic nature and limited length, and coupling said source pattern to said medium for transmission therethrough;
  
  (b) for each source pattern, after said transmission sampling a received pattern on a sequence of sampling instants, each such sequence having a substantial identical time relationship with respect to the generation of the associated source pattern;
  
  (c) digitizing the results of each sampling instant to a digitized value, for generating a sequence of digitized values;
  
  (d) for each said sequence of digitized values, forming a set of sub-patterns, each set having a substantial identical time relationship with respect to the generation of the associated source pattern and each sub-pattern comprising at least two contiguous digitized values of their sequence of digitized values;
  
  (e) between two sequences of digitized values associated to respective source patterns, comparing pairs of corresponding members of the sets of sub-patterns, and for each pair detecting either an identity, or an apparent signed phase shift not exceeding a predetermined amount, or another difference category; and
  
  (f) calculating an overall trend in said apparent phase shift, and an overall difference among the sequences of digitized values in question;
  
  generating an alarm signal in case said overall difference exceeds a standard difference value, wherein said standard difference value is smaller for a lower value of said overall trend and is higher for a higher value of said overall trend.
- View Dependent Claims (25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38)
- - 25. A method as claimed in claim 24, wherein all sub-patterns have a uniform number of digitized values.
  - 26. A method as claimed in claim 25, wherein the occurrence period of said patterns in time substantially corresponds to the period of said source pattern.
  - 27. A method as claimed in claim 25 or 26, wherein said uniform number is three.
  - 28. A method as claimed in claim 26, wherein said predetermined amount of signed phase shift is ±
    - 60°
      
      .
  - 29. A method as claimed in claim 25, wherein after said digitizing a succession of said sequences of digitized values is summed to generate a composite sequence which is thereafter processed in lieu of said sequence of digitized values.
  - 30. A method as claimed in claim 29, wherein an earlier composite sequence is stored as a reference composite sequence for updating by a later composite sequence.
  - 31. A method as claimed in claim 29, wherein said digitized values consist of one bit each, and said composite sequence is formed as a most significant bit of the result of summing said digitized values.
  - 32. A method as claimed in claim 24, wherein said source pattern is substantially sinusoidal.
  - 33. A method as claimed in claim 24, wherein said overall trend is calculated as the ratio between the respective numbers of apparent phase shifts of one and the other sign, respectively, and in that said standard difference is a symmetric function of said ratio.
  - 34. A method as claimed in claim 24, wherein said other difference category comprises detection of an impossible combination of digitized values.
  - 35. A method as claimed in claim 24, wherein said other difference category comprises detection of a phase jump.
  - 36. A method as claimed in claim 34 or 35, wherein various difference categories carry different weight in calculating said overall difference.
  - 37. A method as claimed in claim 24, wherein a feedback mechanism is provided for controlling the amplitude of said source pattern.
  - 38. A method as claimed in claim 24, wherein said feedback mechanism is controlled by frequent occurrence of said other difference category.

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Current Assignee
US Philips Corporation (Koninklijke Philips N.V.)
Original Assignee
US Philips Corporation (Koninklijke Philips N.V.)
Inventors
Van Alphen, Antonius W. C. M., Hogeweg, Erwin
Primary Examiner(s)
Gruber, Felix D.

Application Number

US07/145,849
Time in Patent Office

777 Days
Field of Search

364/550, 340/550, 340/552, 340/556, 340/557, 340/558
US Class Current

702/72
CPC Class Codes

G08B 13/04 by breaking of glass

G08B 13/1609 using active vibration dete...

Monitoring device

First Claim

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Monitoring device

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