Method and apparatus for monitoring the operating condition of lamps in a public lighting network
First Claim
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1. A method of monitoring a state of operation of a lamp in a public lighting network, comprising the steps of:
- sensing a voltage at terminals of the lamp;
sensing intensity of luminous flux emitted by the lamp when the lamp is first installed;
storing the voltage at the lamp as a first reference voltage;
storing the luminous flux as a first reference luminous flux intensity, which may be represented as a first reference point on a Cartesian diagram having a voltage axis along an x-axis and an intensity axis along a y-axis;
sensing at each moment a present voltage at the lamp terminals and a present intensity of the luminous flux emitted by the lamp, with the present voltage and the present intensity at each moment being represented as a working point on the Cartesian diagram;
comparing the present voltage with the first reference voltage;
waiting until a moment when a difference between the present voltage and the first reference voltage exceeds a preset value;
storing the voltage at that moment and the intensity of luminous flux emitted at that moment as the second reference voltage and the second reference luminous flux intensity, which may be represented as a second reference point on the Cartesian diagram;
establishing a third reference point as a meeting point between the voltage axis and a line passing through the first and second reference points;
calculating at each moment an efficiency index of the lamp as ratio between an angular coefficient of a line joining the first and third reference points and a line joining the third reference point with the working point.
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Abstract
An apparatus for monitoring the state of operation of lamp (2) in a public lighting network is provided comprising a sensing unit (6) associated with each lamp (2) for measuring the voltage of and luminous flux emitted by each lamp (2). Each sensing unit (6) also calculates the efficiency of lamp using an efficiency index given by the gradient of the line which, in a Cartesian diagram in which the voltage of the lamp is the x-coordinate and the flux the y-coordinate, represents the instantaneous relationship between the parameters.
75 Citations
15 Claims
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1. A method of monitoring a state of operation of a lamp in a public lighting network, comprising the steps of:
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sensing a voltage at terminals of the lamp; sensing intensity of luminous flux emitted by the lamp when the lamp is first installed; storing the voltage at the lamp as a first reference voltage; storing the luminous flux as a first reference luminous flux intensity, which may be represented as a first reference point on a Cartesian diagram having a voltage axis along an x-axis and an intensity axis along a y-axis; sensing at each moment a present voltage at the lamp terminals and a present intensity of the luminous flux emitted by the lamp, with the present voltage and the present intensity at each moment being represented as a working point on the Cartesian diagram; comparing the present voltage with the first reference voltage; waiting until a moment when a difference between the present voltage and the first reference voltage exceeds a preset value; storing the voltage at that moment and the intensity of luminous flux emitted at that moment as the second reference voltage and the second reference luminous flux intensity, which may be represented as a second reference point on the Cartesian diagram; establishing a third reference point as a meeting point between the voltage axis and a line passing through the first and second reference points; calculating at each moment an efficiency index of the lamp as ratio between an angular coefficient of a line joining the first and third reference points and a line joining the third reference point with the working point.
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2. A method of monitoring a state of operation of a lamp in a public lighting network, comprising the steps of:
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sensing a voltage at terminals of the lamp; sensing an intensity of luminous flux emitted by the lamp when the lamp is first installed; storing the voltage at the terminals of the lamp as a first reference voltage and storing the intensity of the luminous flux as a first reference luminous flux intensity, which may be represented as a first reference point on a Cartesian diagram in which a voltage axis is along an x-axis and an intensity axis is along a y-axis; sensing at each moment a present voltage at the lamp terminals and a present intensity of the luminous flux emitted by the lamp, with the voltage and intensity at each moment being represented as a working point on the Cartesian diagram; comparing the present voltage with the first reference voltage and, for as long as the difference between the present voltage and the first reference voltage remains below a preset values calculating a preliminary efficiency index of the lamp as a ratio between the present luminous flux intensity and the first reference flux intensity; storing the present luminous flux intensity which may be represented together with the present voltage as a fourth reference point on the Cartesian diagram; gradually updating said fourth reference point as the present luminous flux intensity changes; when the difference between the present voltage at one moment and the first reference voltage exceeds the preset value, storing the present voltage at that one moment and the intensity of luminous flux emitted at that one moment as the second reference voltage and the second reference luminous flux intensity, which may be represented as a second reference point on the Cartesian diagram; establishing a third reference point as a meeting point between the voltage axis and a line passing through the fourth and second reference points, calculating at each moment an efficiency index of the lamp as a ratio between an angular coefficient of a line joining the first and third reference points and a line joining the third reference point with the working point.
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3. Apparatus for monitoring a state of operation of individual lamps in a public lighting network, each lamp having associated power supply terminals across which a voltage may be measured and emitting a characteristic luminous flux, the apparatus comprising:
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a sensing unit for each lamp; at least one concentrator adapted to exchange information with a plurality of sensing units, including information regarding a state of individual lamps; a central monitoring station adapted to receive information regarding the state of individual lamps from the concentrator; the apparatus being characterized by the sensing unit for each lamp including sensing means adapted to sense at each moment the voltage at the terminals of the lamp and the intensity of the luminous flux emitted by the lamp, and by calculation means adapted to calculate an efficiency index of the lamp given by the gradient of a line which, in a Cartesian diagram on which the voltage at the terminals of the lamp is shown as an x-coordinate and the luminous flux emitted by the lamp as a y-coordinate, represents an instaneous relationship between such parameters, the calculated efficiency index being available at the central monitoring station to enable evaluation of the state of operation of the individual lamps. - View Dependent Claims (4, 5, 6, 7, 8)
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9. Apparatus for monitoring a state of operation of individual lamps in a public lighting network, each lamp having associated power supply terminals across which a voltage may be measured and emitting a characteristic luminous flux, the apparatus comprising:
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a sensing unit for each lamp; at least one concentrator adapted to exchange information with a plurality of sensing units, including information regarding a state of individual lamps; a central monitoring station adapted to receive information regarding the state of individual lamps from the concentrator; the apparatus being characterized by the sensing unit for each lamp including sensing means adapted to sense at each moment the voltage at the terminals of the lamp and an intensity of the luminous flux emitted by the lamp, and by calculation means adapted to calculate an efficiency index of the lamp given by a gradient of a line which, in a Cartesian diagram on which the voltage at the terminals of the lamp is shown as an x-coordinate and the luminous flux emitted by the lamp as a y-coordinate, represents an instaneous relationship between such parameters, the calculated efficiency index being available at the central monitoring station to enable evaluation of the state of operation of the individual lamps; wherein said means for sensing the intensity of luminous flux emitted by the lamp comprises a photosensitive component located outside the lamp, optically linked with the inside of the lamp by an optical fiber bundle. - View Dependent Claims (10, 11)
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12. A system for monitoring a state of operation of a plurality of lamps in a public lighting network with each lamp having power supply terminals across which an operating voltage may be applied, comprising:
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a sensing unit for each lamp for sensing an intensity of luminous flux emitted by each lamp and for generating an intensity information signal; means connected to each lamp for detecting a value of said operating voltage and for generating a voltage information signal; processing means for each lamp for receiving said intensity information signal and said voltage information signal and for determining an efficiency index; a concentrator receiving the efficiency indices from said plurality of lamps in said public lighting network and for supplying the efficiency indices to a central monitoring station; said central monitoring station monitoring the state of operation for the plurality of lamps based upon said efficiency indices received from said concentrator. - View Dependent Claims (13, 14, 15)
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Specification