1. Field of the Invention
The present invention relates to an intrusion detection system that has a pair of leaky transmission paths including a leaky transmission path of a sending side which is connected to an intrusion detection device and outputs a leaky electric wave on the basis of an output from the intrusion detection device and a leaky transmission path of a receiving side which receives the leaky electric wave output from the leaky transmission path of the sending side, and that performs intrusion detection by the intrusion detection device which detects variation of the leaky electric wave received in the leaky transmission path of the receiving side.
2. Description of the Related Art
An intrusion detection system that has a pair of leaky transmission paths including a leaky transmission path of a sending side which is connected to an intrusion detection device and outputs a leaky electric wave on the basis of an output from the intrusion detection device and a leaky transmission path of a receiving side which receives the leaky electric wave output from the leaky transmission path of the sending side, and that performs intrusion detection by the intrusion detection device which detects variation of the leaky electric wave received in the leaky transmission path of the receiving side is a relatively recent technology, as shown in, e.g., US-2007-0152817-A1 (corresponding to JP-A-2007-179402), US-2007-0152818-A1 (corresponding to JP-A-2007-179401), JP-A-2007-189521, and U.S. patent application Ser. No. 11/907,053 (not laid open into public as of Mar. 17, 2008). Accordingly, the practical use of the technology also began relatively recently. Since the system is used to detect intrusion of a person entering a factory or a runway of an airport, for example, and is not installed around electric equipment causing noise, measures for noise caused by other electric equipment are not necessary, in general. Accordingly, the measures for noise are not made.
As described above, the intrusion detection system that has the pair of leaky transmission paths including the leaky transmission path of the sending side which is connected to the intrusion detection device and outputs the leaky electric wave on the basis of the output from the intrusion detection device and the leaky transmission path of the receiving side which receives the leaky electric wave output from the leaky transmission path of the sending side, and that performs the intrusion detection by the intrusion detection device which detects the variation of the leaky electric wave received in the leaky transmission path of the receiving side is used to detect the intrusion of a person entering a factory or a runway of an airport, for example, and is not installed around the electric equipment causing noise, and thus the measures for noise caused by other electric equipment are not necessary, in general. Accordingly, the measures for noise are not made. However, when the detection of the intrusion of a person is a target, it is necessary to assume that an intruder having highly-specialized experience intrudes. In such case, when the intruder intrudes while emitting a disturbing wave similar to a leaky electric wave received in the leaky transmission path of the receiving side, the intrusion detection device which detects the variation of the leaky electric wave received in the leaky transmission path of the receiving side may malfunction.
The invention is contrived to solve the above-described problem, and an object of the invention is to prevent the intrusion detection device from malfunctioning even if the intrusion detection device is affected by the disturbing wave.
According to an aspect of the invention, an intrusion detection system includes: an intrusion detection device; and a pair of leaky transmission paths including a leaky transmission path of a sending side, connected to the intrusion detection device, for emitting a leaky electric wave supplied from the intrusion detection device and a leaky transmission path of a receiving side for receiving the leaky electric wave emitted from the leaky transmission path of the sending side. The intrusion detection device detects an instruction and its point from a variation of the leaky electric wave received in the leaky transmission path of the receiving side. An anti-disturbing wave function unit for removing or reducing a disturbing wave intruding into the leaky transmission path of the receiving side is provided, in the intrusion detection device, so that the intrusion detection device determines the instruction and its point using the leaky electric wave processed by the anti-disturbing wave function unit. Accordingly, it is possible to prevent the intrusion detection device from malfunctioning even if the intrusion detection device is affected by the disturbing wave.
The foregoing and other object, features, aspects, and advantages of the present invention will become more apparent from the following detailed description of the present invention when taken in conjunction with the accompanying drawings.
The same reference numerals or the same reference symbols in each of
Hereinafter, a first embodiment according to the invention will be described with reference to
The intrusion detection device 1 includes a transmission circuit 3, the receiving circuit 4, and an intrusion detection unit 5. The leaky transmission path (2-1) of the sending side and the leaky transmission path (2-2) of the receiving side may be, for example, a commercial leaky coaxial cable. The leaky points 21TH, 21TH, 21TH, . . . , 22TH, 22TH, 22TH, . . . of the leaky transmission path (2-1) of the sending side and the leaky transmission path (2-2) of the receiving side may be, for example, penetration slots provided so as to penetrate an outer cover of the commercial leaky coaxial cable at predetermined intervals of every few meters.
Here, an example for concept of detection of an intrusion location will be described.
It is assumed that a commercial leaky coaxial cable is used as the leaky transmission path (2-1) of the sending side and the leaky transmission path (2-2) of the receiving side, and the leaky transmission path (2-1) of the sending side and the leaky transmission path (2-2) of the receiving side are buried while being separated at predetermined intervals of every few meters. As shown in
In the same way, when one transmission pulse is transmitted from the transmission circuit 3, a leaky electric wave from a second leaky point of the leaky transmission path (2-1) of the sending side is received through a second leaky point of the leaky transmission path (2-2) of the receiving side and arrives in the receiving circuit 4 as a received signal. An arrival time of the leaky electric wave is the time taken from the starting time of signal transmission to a ΔT2 point.
In the same way, an arrival time of a received signal which passes through a third leaky point is the time taken from the starting time of signal transmission to a ΔT3 point.
Further, since a propagation rate of a signal is calculated by 300000 Km/second (in the case of the air), if the length of the signal transmission path is known, the arrival times ΔT1, ΔT2, ΔT3, . . . , that is, the arrival time ΔT can be easily acquired by using the above operation.
Therefore, by storing data of the arrival time ΔT calculated beforehand when configuring the system, the receiving circuit 4 can distinguish which leaky point (penetration slot) is passed through by the corresponding received signal by comparing the actually received signal with the stored data.
In addition, when an intruder enters a region where the leaky electric wave exists, a form of the leaky electric wave varies in response to the intruder.
Accordingly, if the intrusion detection unit 5 detects that the signal received in the receiving circuit 4 varies, it is possible to detect and inform an intrusion location along the leaky transmission path (2-1) of the sending side and the leaky transmission path (2-2) of the receiving side.
Since a signal speed is very high and a detection operation speed of the receiving circuit is related to the signal speed, a unit pulse is not transmitted once every few seconds as the transmission signal. For example, as shown in
When the PN code is used in the intrusion detection system shown in
The intrusion detection system has a leaky transmission path (2-1) of a sending side and a leaky transmission path (2-2) of a receiving side that is provided in parallel with the leaky transmission path (2-1) of the sending side and receives a leaky electric wave from the leaky transmission path (2-1) of a sending side, and determines that an intruder is present when an electric wave received in the leaky transmission path (2-2) of the receiving side varies. In an investigation performed by the inventors of the invention, the leaky transmission paths (2-1) and (2-2) are buried while being separated about 600 m and it has been understood that it is possible to detect whether or not an intruder is present between the leaky transmission paths (2-1) and (2-2) and the intrusion location over a long distance such as 600 m.
If it is possible to detect whether or not an intruder is present and the intrusion location over a long distance such as about 600 m, the intrusion detection system can be applied to a factory, transformer substation, airport, parking lot, and so on. However, when the detection can be performed over a long distance such as about 600 m, there may be, for example, a gate for the general public or a general road in a detection region. In this case, the system should be designed to be able to distinguish between an intruder and a person passing through the gate for the general public or the general road by setting a non-detection region. For example, the leaky electric wave may be corrupted in accordance with the person passing through the gate for the general public or the general road such that the received signal varies. In this case, there should be a process for distinguishing between an intruder and the person passing through the gate for the general public or the general road.
Therefore, in the first embodiment according to the invention, as shown in
In
When intrusion location detection information in the intrusion location detection unit 51 corresponds to a detection area of the detection table 521, a detection result is output from the detection result output unit 54. When the intrusion location detection information corresponds to a non-detection area of the detection table 521, the detection result is not output from the detection result output unit 54.
Next, operations will be explained with reference to
If an intruder enters between the leaky transmission paths (2-1) and (2-2) shown in
As a result of a determination at step ST12 of
Next, a received signal (intrusion location detection information in the intrusion location detection unit) detected in step ST13-1 is compared with data of the detection table 521. In the case of intrusion detection in the intrusion detection area, it is conclusively determined that an intruder is present and the detection result output unit 54 outputs an intrusion location of the intruder (step ST14).
Further, in the case that the PN code is used, the detection areas X1, X2, and X3 are associated with the reference spreading code. For example, the detection area X1 is included in a range of a predetermined reference spreading code PNX1 to a predetermined reference spreading code PNXX.
Phases of the received electric wave is measured with a predetermined reference spreading code and an electric intensity corresponding to a predetermined reference spreading code is calculated. When it is determined that the electric intensity largely varies, it is considered as an intrusion in the predetermined reference spreading code, that is, an intrusion in the detection area X1.
In the first embodiment of the invention, as described above, the intrusion can be easily and precisely detected by comparing with the detection table 521. In addition, the detection area and the non-detection area can be set and the setting of the detection area and the non-detection area can be changed. Further, it is possible to detect the intrusion over a long distance, for example, intervals at every 2 m or 5 m. Accordingly, an applicable region of the intrusion detection system can be remarkably large.
In addition, in the first embodiment of the invention, as shown in
In the first embodiment of the invention, as shown in
The receiving circuit 4 is an analog circuit and the intrusion detection unit 5 is a digital circuit. For this reason, an AD converter 7 is provided between both the circuits to convert an analog signal to a digital signal.
As shown in
As shown in
An amplifier (4-2) is an amplifier for circuit matching. A mixer (4-4) converts the frequency. The analog filter (4-5) removes signals having an unnecessary frequency from signals of which frequencies vary in the mixer (4-4).
The SAW filter (4-3) is disposed so as to be precipitous in the band including the detection signal and one disturbing wave near the detection signal as compared with the case of analog filter (4-1). Therefore, the disturbing wave at the high frequency is suppressed, as shown in
As shown in
In addition, in order to input the detection signal to the intrusion detection unit 5 which is the digital circuit by an amplifier (4-6), the detection signal is output to the AD converter 7 after being properly amplified.
Further, in a mixer (5-1) of the intrusion detection device 5, the frequency of the detection signal is converted into base-band frequency so that the detection signal can be analyzed by a correlator (5-2).
As described above, according to the first embodiment, it is possible to reduce the disturbing wave.
In addition, in the first embodiment of the invention, the intrusion detection system which can remove/reduce the disturbing wave by the analog filters of the receiving circuit 4 and the demodulation can be obtained.
Hereinafter, a second embodiment according to the invention will be described with reference to
In the above-described first embodiment of the invention, the configuration of the intrusion detection system which removes/reduces the disturbing wave by the analog filters as the anti-disturbing wave function unit provided in the receiving circuit has been described. In the second embodiment of the invention, as shown in
The basic operations of the intrusion detection system having an anti-disturbing wave function are equal to those described in the first embodiment of the invention.
In this case, the disturbing wave which can not be removed/reduced by the analog filters (4-1), (4-3), and (4-5) can be further suppressed by the digital filter (5-3), as shown in
As shown in
In the second embodiment of the invention, the intrusion detection system which can remove/reduce the disturbing wave can be obtained even when it is mounted with the digital filter (5-3).
Hereinafter, a third embodiment according to the invention will be described with reference to
In the above-described first embodiment of the invention, the configuration of the intrusion detection system which removes/reduces the disturbing wave by the analog filters as the anti-disturbing wave function unit provided in the receiving circuit has been described. In the third embodiment of the invention, as shown in
The basic operations of the intrusion detection system having the anti-disturbing wave function are equal to those described in the first embodiment of the invention.
In this case, the disturbing wave which can not be removed/reduced by the analog filter (4-1), SAW filter (4-3), and the analog filter (4-5) can be further suppressed by the digital filter (5-3), as shown in
As shown in
In the third embodiment of the invention, the intrusion detection system which can remove/reduce the disturbing wave can be obtained even when it is mounted with the digital filter (5-3).
Hereinafter, a fourth embodiment according to the invention will be described with reference to
In the above-described first embodiment of the invention, the configuration of the intrusion detection system which removes/reduces the disturbing wave by the analog filters as the anti-disturbing wave function unit provided in the receiving circuit has been described. In the fourth embodiment of the invention, as shown in
The basic operations of the intrusion detection system having the anti-disturbing wave function are equal to those described in the first embodiment of the invention.
In this case, the disturbing wave in the frequency range of the detection signal, which has not been removed/reduced by the analog filters (4-1), (4-3), and (4-5), and the digital filter (5-3) at the frequency near the detection signal, is varied in frequency by the plurality of the mixers (4-4), and (4-7). The disturbing wave can be kept outside the passing band and can be suppressed.
In the fourth embodiment of the invention, the intrusion detection system which can remove/reduce the disturbing wave can be obtained even when it is mounted with the plurality of the mixers (4-4) and (4-7).
Hereinafter, a fifth embodiment according to the invention will be described with reference to
In the above-described first embodiment of the invention, the configuration of the intrusion detection system which removes/reduces the disturbing wave by the analog filters of the receiving circuit has been described. In the fifth embodiment of the invention, as shown in
The basic operations of the intrusion detection system having the anti-disturbing wave function are equal to those described in the first embodiment of the invention.
In the fifth embodiment of the invention, the intrusion detection device 1 without the digital filter (5-3) can suppress the disturbing wave by the external resonator 6.
In the fifth embodiment of the invention, the intrusion detection system which can remove/reduce the disturbing wave can be obtained even when it is mounted with the external filter or resonator 6.
Technical characteristics according to the first to fifth embodiments of the invention are as the following Features 1 to 18 and the like.
Feature 1-1 is an intrusion detection system including: an intrusion detection device; and a pair of leaky transmission paths including a leaky transmission path of a sending side, connected to the intrusion detection device, for emitting a leaky electric wave supplied by the intrusion detection device and a leaky transmission path of a receiving side for receiving the leaky electric wave emitted from the leaky transmission path of the sending side. The intrusion detection device detects an instruction and its point from a variation of the leaky electric wave received in the leaky transmission path of the receiving side. An anti-disturbing wave function unit for removing or reducing a disturbing wave intruding into the leaky transmission path of the receiving side is provided, in the intrusion detection device, so that the intrusion detection device determines the instruction and its point using the leaky electric wave processed by the anti-disturbing wave function unit.
Feature 1-2 is an intrusion detection system including: an intrusion detection device; and a pair of leaky transmission paths including a leaky transmission path of a sending side which is connected to the intrusion detection device and outputs a leaky electric wave on the basis of an output from the intrusion detection device and a leaky transmission path of a receiving side which receives the leaky electric wave output from the leaky transmission path of the sending side. The intrusion detection device detects that the leaky electric wave received in the leaky transmission path of the receiving side varies to detect the presence or absence of intrusion and an intrusion point. An anti-disturbing wave function unit for removing or reducing a disturbing wave intruding into the leaky transmission path of the receiving side is provided, in the intrusion detection device, at a position in which the disturbing wave is removed or reduced by the anti-disturbing wave function unit before the intrusion detection device determines the presence or absence of intrusion and the intrusion point.
Feature 2 is the intrusion detection system according to Feature 1-1 or Feature 1-2. A received an analog signal which is an intrusion detection wave input from the leaky transmission path of the receiving side to the intrusion detection device is converted into a digital signal in the intrusion detection device. The intrusion determination is performed on the basis of the digital signal. The anti-disturbing wave function unit includes an anti-disturbing wave filter for at least one of the received analog signal and the digital signal.
Feature 3 is the intrusion detection system according to Feature 2. A plurality of the anti-disturbing wave filters having different filter characteristics are provided as the anti-disturbing wave filter for the received analog signal, and a plurality of the disturbing waves having different frequencies are removed or reduced by the plurality of the anti-disturbing wave filters.
Feature 4 is the intrusion detection system according to Feature 3. A SAW filter is provided as one of the plurality of the anti-disturbing wave filters having different filter characteristics, and a disturbing wave having a frequency higher than that of the received analog signal is removed or reduced by the SAW filter.
Feature 5 is the intrusion detection system according to Feature 1-1 or Feature 1-2. A received analog signal input from the leaky transmission path of the receiving side to the intrusion detection device is converted into a digital signal in the intrusion detection device. The intrusion determination is performed on the basis of the digital signal. The anti-disturbing wave function unit includes at least one analog anti-disturbing wave filter for the received analog signal and a digital anti-disturbing wave filter for the digital signal. An infinite impulse response digital filter is provided as the digital anti-disturbing wave filter.
Feature 6 is the intrusion detection system according to Feature 1-1 or Feature 1-2. A received analog signal input from the leaky transmission path of the receiving side to the intrusion detection device is converted into a digital signal in the intrusion detection device. The intrusion determination is performed on the basis of the digital signal. The anti-disturbing wave function unit includes at least one analog anti-disturbing wave filter for the received analog signal and a digital anti-disturbing wave filter for the digital signal. A finite impulse response digital filter is provided as the digital anti-disturbing wave filter.
Feature 7 is the intrusion detection system according to Features 1-1 or Feature 1-2, to 6. An external filter is provided at a front stage of a receiving unit of the intrusion detection device, and the disturbing wave is removed or reduced by the external filter.
Feature 8 is the intrusion detection system according to Features 1-1 or Feature 1-2, to 6. An external resonator is provided at a front stage of a receiving unit of the intrusion detection device, and the disturbing wave is removed or reduced by the external resonator.
Feature 9 is the intrusion detection system according to Features 1-1 or Feature 1-2, to 6. The intrusion detection device has a function of varying the frequency of the received analog signal input from the leaky transmission path of the receiving side to the intrusion detection device.
Feature 10-1 is an intrusion detection system including: a pair of leaky transmission paths including a leaky transmission path of a sending side for emitting a leaky electric wave and a leaky transmission path of a receiving side, provided in parallel with the leaky transmission path of the sending side, for receiving the leaky electric wave emitted from the leaky transmission path of the sending side; and an intrusion detection device including a transmission circuit for outputting a predetermined electric signal to the leaky transmission path of the sending side, a receiving circuit for receiving the leaky electric wave received by the leaky transmission path of the receiving side, and an intrusion detection unit for detecting an its point from a variation of the leaky electric wave received by the receiving circuit. The intrusion detection device includes an anti-disturbing wave function unit for processing the signal received by the receiving circuit for removing or reducing a disturbing wave received by the leaky transmission path of the receiving side and for outputting the processed signal to the intrusion detection unit.
Feature 10-2 is an intrusion detection system including: a pair of leaky transmission paths including a leaky transmission path of a sending side from which an electric wave leaks and a leaky transmission path of a receiving side which is provided in parallel with the leaky transmission path of the sending side and receives the electric wave leaking from the leaky transmission path of the sending side; and an intrusion detection device including a transmission circuit which outputs a predetermined electric signal to the leaky transmission path of the sending side, a receiving circuit which receives the leaky electric wave received by the leaky transmission path of the receiving side, and an intrusion detection unit which detects the presence or absence of intrusion and an intrusion point by the variation of the leaky electric wave received by the receiving circuit. The intrusion detection device includes an anti-disturbing wave function unit which processes the signal received by the receiving circuit for removing or reducing a disturbing wave received by the leaky transmission path of the receiving side and outputs the processed signal to the intrusion detection unit.
Feature 11 is the intrusion detection system according to Feature 10. The intrusion detection device includes an analog/digital converter which converts a received analog signal received by the receiving circuit from the leaky transmission path of the receiving side into a digital signal. The digital signal is input to the intrusion detection unit. The anti-disturbing wave function unit includes at least one anti-disturbing wave filter for processing the received analog signal or the digital signal.
Feature 12 is the intrusion detection system according to Feature 11. A plurality of the anti-disturbing wave filters having different filter characteristics are provided as the anti-disturbing wave filter for processing the received analog signal, and a plurality of the disturbing waves having different frequencies are removed or reduced by the plurality of the anti-disturbing wave filters.
Feature 13 is the intrusion detection system according to Feature 12. A SAW filter is provided as one of the plurality of the anti-disturbing wave filters having different filter characteristics.
Feature 14 is the intrusion detection system according to Feature 11. The anti-disturbing wave function unit includes at least one anti-disturbing wave filter for processing the received analog signal and an infinite impulse response digital filter as the anti-disturbing wave filter for processing the digital signal.
Feature 15 is the intrusion detection system according to Feature 11. The anti-disturbing wave function unit includes at least one anti-disturbing wave filter for processing the received analog signal and a finite impulse response digital filter as the anti-disturbing wave filter for processing the digital signal.
Feature 16 is the intrusion detection system according to Features 10 to 15. An external filter is provided between the leaky transmission path of the receiving side and the intrusion detection device to remove or reduce the disturbing wave.
Feature 17 is the intrusion detection system according to Features 10 to 15. An external resonator is provided between the leaky transmission path of the receiving side and the intrusion detection device to remove or reduce the disturbing wave.
Feature 18 is the intrusion detection system according to Features 10 to 15. The intrusion detection device has a function of varying the frequency of the received analog signal input from the leaky transmission path of the receiving side.
Various modifications and alterations of this invention will be apparent to those skilled in the art without departing from the scope and spirit of this invention, and it should be understood that this is not limited to the illustrative embodiments set forth herein.
Number | Date | Country | Kind |
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2007-324777 | Dec 2007 | JP | national |