JP6326686B2 - Abnormality monitoring apparatus, abnormality monitoring method and program - Google Patents

Description

本発明は、車種判別に用いられる踏板の異常監視装置、異常監視方法及びプログラムに関する。   The present invention relates to a tread board abnormality monitoring device, an abnormality monitoring method, and a program used for vehicle type discrimination.

高速道路等の有料道路では、料金収受の効率化のために、通行券自動発行機や料金自動収受機が設置されてなる料金収受システムが利用されている。また、近年、無線を介して、車両走行中に自動的に料金の電子決済を行う電子式料金収受システム（ＥＴＣ：Electronic Toll Collection System（登録商標））（「自動料金収受システム」とも言う）が普及している。
このような料金収受システムには、車種に応じた課金を行うために、通行する車両の車種を自動で判別する車種判別装置が備えられている場合がある。料金収受システムは、この車種判別装置により走行車両の車種を判別し、当該車種に応じた課金処理を行う。 In toll roads such as expressways, a toll collection system in which an automatic ticket issuing machine and an automatic toll collector are installed is used for efficiency of toll collection. In recent years, an electronic toll collection system (ETC: Electronic Toll Collection System (registered trademark)) (also referred to as an “automatic toll collection system”) that automatically performs electronic payment of charges while driving a vehicle via radio. It is popular.
Such a fee collection system may be provided with a vehicle type discriminating device that automatically discriminates the vehicle type of a passing vehicle in order to charge according to the vehicle type. The toll collection system discriminates the vehicle type of the traveling vehicle by this vehicle type discriminating apparatus, and performs a billing process according to the vehicle type.

この車種判別装置は、車両の進入を一台ずつ分離して検知する車両分離器、車両の車軸数やタイヤ幅等を検出する車種判別用踏板、その他車高検知器や車長検知器等、様々な検知装置を組み合わせて構成される（例えば、特許文献１）。   This vehicle type discriminating device is a vehicle separator that detects the entry of vehicles one by one, a vehicle type discriminating tread that detects the number of axles and tire width of the vehicle, other vehicle height detectors, vehicle length detectors, etc. It is configured by combining various detection devices (for example, Patent Document 1).

車種判別装置に用いられる踏板（車種判別用踏板）は、踏まれた車線幅方向の位置及び範囲に応じた検出信号を出力する踏圧検知センサを内部に有している。これにより、通行する車両のタイヤ幅やトレッド幅（左右のタイヤの中心間距離）等を取得することができる。また、踏圧検知センサを車線方向（車両の進行方向）の異なる位置に複数配し、各踏圧検知センサによる検出信号の経時的な変化を参照することで、車両の前進や後退を判別することができる。   A tread (a vehicle type discrimination tread) used in the vehicle type discrimination device has a tread pressure detection sensor that outputs a detection signal according to the position and range of the stepped lane width direction. Thereby, the tire width, tread width (distance between the centers of the left and right tires), etc. of the vehicle that passes can be acquired. Also, it is possible to determine whether the vehicle is moving forward or backward by arranging a plurality of stepping pressure detection sensors at different positions in the lane direction (the traveling direction of the vehicle) and referring to changes over time in detection signals from the respective stepping pressure detection sensors. it can.

特開２０００−０２０８７７号公報JP 2000-020877 A

車種判別装置に用いられる踏板は、経年劣化等により踏圧検知センサの感度が低下し、タイヤによって踏まれているにも関わらず検出信号を出力しない、等の異常が発生することがある。この場合、感度が低下した踏圧検知センサの設置箇所によっては車種判別を正確に実施することができなくなる可能性があり、早急に修繕を行う必要がある。
しかしながら、料金所を通行する車両は、二輪車や四輪車等、多岐に渡るため、車両の通行があったにも関わらず検出信号が出力されなかったからといってｍ直ちに異常とは断定できない。例えば、二輪車が通過する場合、踏板の幅方向において踏み込まれる範囲は単一のタイヤ幅のみであるから、当該踏み込まれる範囲を含まない範囲に渡って設置されたセンサは、踏圧が検知されなくとも正常といえる。そのため、踏圧検知センサにおける異常の発生及び異常箇所の特定を精度よく行うことができなかった。 The tread used in the vehicle type discriminating device may have an abnormality such as a decrease in sensitivity of the tread pressure detection sensor due to deterioration over time or the like, and a detection signal not being output despite being stepped on by a tire. In this case, there is a possibility that the vehicle type cannot be accurately determined depending on the installation location of the stepping pressure detection sensor whose sensitivity is lowered, and it is necessary to repair the vehicle as soon as possible.
However, since there are a wide variety of vehicles passing through the toll booth, such as two-wheeled vehicles and four-wheeled vehicles, it cannot be immediately determined that there is an abnormality because a detection signal is not output even though the vehicle has passed. For example, when a two-wheeled vehicle passes, since the range that is stepped on in the width direction of the tread is only a single tire width, a sensor installed over a range that does not include the stepped-on range does not require stepping pressure to be detected. It can be said that it is normal. For this reason, the occurrence of an abnormality in the pedal pressure detection sensor and the identification of the abnormal part cannot be accurately performed.

本発明は、このような事情に鑑みてなされたもので、その目的は、踏圧検知センサにおける異常の発生及び異常箇所の特定を精度よく行うことができる異常監視装置、異常監視方法及びプログラムを提供することにある。   The present invention has been made in view of such circumstances, and an object of the present invention is to provide an abnormality monitoring device, an abnormality monitoring method, and a program capable of accurately performing the occurrence of an abnormality in the tread pressure detection sensor and the identification of the abnormal portion. There is to do.

本発明の一態様は、車線を走行する四輪車の左右一方側のタイヤにのみ踏まれるように車線幅方向の所定範囲に渡って伸びて配されて、踏まれた際の電気抵抗の変化に応じて当該踏まれた位置及びタイヤ幅を検出可能な第１抵抗接点と、前記四輪車の左右他方側のタイヤにのみ踏まれるように、前記第１抵抗接点とは異なる車線幅方向の範囲に渡って伸びて配されて、踏まれた際の電気抵抗の変化に応じて当該踏まれた位置及びタイヤ幅を検出可能な第２抵抗接点と、前記第１抵抗接点または前記第２抵抗接点の少なくとも一方と車線方向に異なる位置に、車線幅方向に重なる範囲を設けて配されて、踏まれたか否かを検出可能な一つ以上の平接点と、前記四輪車の進入を検知する検知器と、を備える踏板の異常監視装置であって、前記第１抵抗接点、前記第２抵抗接点、前記平接点の各々から出力される検出信号を取得すると共に、前記検知器からの出力される検出信号を取得する検出信号取得部と、前記取得した各検出信号に基づいて、踏み付けが検出された前記第１抵抗接点、前記第２抵抗接点、及び前記平接点の何れか一つと車線幅方向の範囲が重なる他の前記第１抵抗接点、前記第２抵抗接点、前記平接点の何れか一つにおいて踏み付けが検出されたか否かを判定し、検出されていない場合には、当該他の前記第１抵抗接点、前記第２抵抗接点、及び前記平接点の何れか一つを異常と判定し、前記検知器により前記四輪車の進入が検知されているにもかかわらず、前記第１抵抗接点及び前記第２抵抗接点のいずれもが踏み付けを検知しない場合には、前記第１抵抗接点と前記第２抵抗接点とのうち少なくとも一方を異常と判定する異常判定部と、を備える異常監視装置である。 One aspect of the present invention is a change in electrical resistance when the vehicle is stepped on and extended over a predetermined range in the lane width direction so as to be stepped only on the left and right tires of a four-wheeled vehicle traveling in the lane. A first resistance contact capable of detecting the stepped position and the tire width according to the vehicle, and a lane width direction different from the first resistance contact so as to be stepped only on the left and right tires of the four-wheel vehicle. A second resistance contact that extends over a range and can detect the stepped position and the tire width according to a change in electrical resistance when stepped on, and the first resistance contact or the second resistance One or more flat contacts that can detect whether or not the vehicle has been stepped on are arranged at a position that is different from at least one of the contacts in the lane direction and overlaps in the lane width direction, and detects the entry of the four-wheeled vehicle a detector for, an abnormality monitoring device for step board provided with the first Anti contacts, the second resistor contact, the acquires the detection signal output from each of the flat contacts, the detection signal acquiring unit that acquires the outputted detection signal from the detector, the detection signal the acquired Based on the above, the first resistance contact, the second resistance contact, and the other one of the first resistance contact, the second resistance contact, and the flat contact that are detected to be stepped on overlap with the range in the lane width direction. , It is determined whether or not stepping is detected in any one of the flat contacts, and if not, any of the other first resistance contact, the second resistance contact, and the flat contact is detected. When one of the first resistance contact and the second resistance contact does not detect the stepping, even though it is determined that one of them is abnormal and the detector detects the entry of the four-wheeled vehicle And the first resistance contact The abnormality determining unit determines that the abnormality at least one of the serial second resistor contact is abnormal monitoring device comprising a.

また、本発明の一態様は、上述の異常監視装置において、前記踏板が、前記第１抵抗接点と前記第２抵抗接点とが車線方向に異なる位置に配されており、前記平接点として、前記第１抵抗接点と車線方向に同じ位置で、車線幅方向の前記第１抵抗接点が設けられていない範囲に渡って伸びて配される第１平接点と、前記第２抵抗接点と車線方向に同じ位置で、車線幅方向の前記第２抵抗接点が設けられていない範囲に渡って伸びて配される第２平接点と、を備え、前記異常判定部は、前記第１抵抗接点のうち前記第２平接点と車線幅方向に重なる範囲内において踏み付けが検出された場合に、前記第２平接点の異常の有無を判定し、前記第２抵抗接点のうち前記第１平接点と車線幅方向に重なる範囲内において踏み付けが検出された場合に、前記第１平接点の異常の有無を判定することを特徴とする。   Further, according to one aspect of the present invention, in the above-described abnormality monitoring device, the tread plate is disposed at a position where the first resistance contact and the second resistance contact are different from each other in a lane direction. A first flat contact extending in a range where the first resistance contact in the lane width direction is not provided at the same position as the first resistance contact in the lane direction, and the second resistance contact in the lane direction A second flat contact extending at a same position and extending over a range in which the second resistance contact in the lane width direction is not provided, and the abnormality determination unit includes the first resistance contact among the first resistance contacts. When stepping is detected within a range that overlaps the second flat contact in the lane width direction, it is determined whether or not the second flat contact is abnormal, and the first flat contact and the lane width direction of the second resistance contact are determined. If trampling is detected within the range that overlaps with And judging the presence or absence of abnormality of the serial first flat contact.

また、本発明の一態様は、上述の異常監視装置において、前記第１抵抗接点と前記第２抵抗接点とが、前記車線の車線幅方向中央に設定される中央範囲において車線幅方向に重なるように配されており、前記異常判定部は、前記第１抵抗接点及び前記第２抵抗接点の両方において、互いの前記重なる範囲で踏み付けが検出された場合に、前記第１平接点及び前記第２平接点を異常と判定しないことを特徴とする。   Further, according to one aspect of the present invention, in the above-described abnormality monitoring device, the first resistance contact and the second resistance contact are overlapped in the lane width direction in a center range set in the lane width direction center of the lane. The abnormality determination unit is configured to detect the first flat contact and the second contact point when both of the first resistance contact and the second resistance contact are detected in the overlapping range. The flat contact is not determined to be abnormal.

また、本発明の一態様は、上述の異常監視装置において、前記踏板が、前記平接点として、さらに、前記第１抵抗接点及び前記第２抵抗接点と車線方向に異なる位置で、当該第１抵抗接点及び第２抵抗接点の車線幅方向の全範囲に重なるように伸びて配される第３平接点と、を備え、前記異常判定部は、前記第１抵抗接点または前記第２抵抗接点の少なくとも何れか一つで踏み付けが検出された場合に、前記第３平接点の異常の有無を検出することを特徴とする。   Further, according to one aspect of the present invention, in the above-described abnormality monitoring device, the tread plate is further connected as the flat contact at a position different from the first resistance contact and the second resistance contact in the lane direction. A third flat contact extending so as to overlap the entire range of the contact and the second resistance contact in the lane width direction, and the abnormality determination unit includes at least one of the first resistance contact or the second resistance contact. If any one of the steps is detected, the presence or absence of an abnormality of the third flat contact is detected.

また、本発明の一態様は、車線を走行する四輪車の左右一方側のタイヤにのみ踏まれるように車線幅方向の所定範囲に渡って伸びて配されて、踏まれた際の電気抵抗の変化に応じて当該踏まれた位置及びタイヤ幅を検出可能な第１抵抗接点と、前記四輪車の左右他方側のタイヤにのみ踏まれるように、前記第１抵抗接点とは異なる車線幅方向の範囲に渡って伸びて配されて、踏まれた際の電気抵抗の変化に応じて当該踏まれた位置及びタイヤ幅を検出可能な第２抵抗接点と、前記第１抵抗接点または前記第２抵抗接点の少なくとも一方と車線方向に異なる位置に、車線幅方向に重なる範囲を設けて配されて、踏まれたか否かを検出可能な一つ以上の平接点と、前記四輪車の進入を検知する検知器と、を備える踏板の異常監視方法であって、検出信号取得部が、前記第１抵抗接点、前記第２抵抗接点、前記平接点の各々から出力される検出信号を取得と共に、前記検知器からの出力される検出信号を取得し、異常判定部が、前記取得した各検出信号に基づいて、踏み付けが検出された前記第１抵抗接点、前記第２抵抗接点、及び前記平接点の何れか一つと車線幅方向の範囲が重なる他の前記第１抵抗接点、前記第２抵抗接点、前記平接点の何れか一つにおいて踏み付けが検出されたか否かを判定し、検出されていない場合には、当該他の前記第１抵抗接点、前記第２抵抗接点、及び前記平接点の何れか一つを異常と判定判定し、前記検知器により前記四輪車の進入が検知されているにもかかわらず、前記第１抵抗接点及び前記第２抵抗接点のいずれもが踏み付けを検知しない場合には、前記第１抵抗接点と前記第２抵抗接点とのうち少なくとも一方を異常と判定することを特徴とする異常監視方法である。 In addition, according to one aspect of the present invention, the electric resistance when the vehicle is stepped on is extended and arranged over a predetermined range in the lane width direction so as to be stepped only on the left and right tires of the four-wheeled vehicle traveling in the lane. The first resistance contact that can detect the stepped position and the tire width according to the change of the vehicle, and the lane width that is different from the first resistance contact so that only the left and right tires of the four-wheel vehicle are stepped on A second resistance contact that extends over a range of directions and can detect the stepped position and the tire width according to a change in electrical resistance when stepped on, and the first resistance contact or the first One or more flat contacts that are arranged at a position different from at least one of the two resistance contacts in the lane direction so as to overlap in the lane width direction and can detect whether or not the vehicle has been stepped on, and the entry of the four-wheeled vehicle a step board of the abnormality monitoring method and a detector for detecting a test Signal acquisition unit, the first resistor contact, the second resistor contact, said with obtaining a detection signal outputted from each of the flat contacts, to get the output is detected the signal from the detector, the abnormality determining unit The other first resistor in which the range in the lane width direction overlaps with any one of the first resistance contact, the second resistance contact, and the flat contact where the stepping is detected based on each acquired detection signal It is determined whether or not stepping is detected in any one of the contact, the second resistance contact, and the flat contact. If not, the other first resistance contact and the second resistance contact are detected. Any one of the first resistance contact and the second resistance contact, even though one of the flat contacts is determined to be abnormal and the entry of the four-wheeled vehicle is detected by the detector. If treading is not detected An abnormality monitoring method characterized by determining an abnormality of at least one of the first resistor contact and the second ohmic contacts.

また、本発明の一態様は、車線を走行する四輪車の左右一方側のタイヤにのみ踏まれるように車線幅方向の所定範囲に渡って伸びて配されて、踏まれた際の電気抵抗の変化に応じて当該踏まれた位置及びタイヤ幅を検出可能な第１抵抗接点と、前記四輪車の左右他方側のタイヤにのみ踏まれるように、前記第１抵抗接点とは異なる車線幅方向の範囲に渡って伸びて配されて、踏まれた際の電気抵抗の変化に応じて当該踏まれた位置及びタイヤ幅を検出可能な第２抵抗接点と、前記第１抵抗接点または前記第２抵抗接点の少なくとも一方と車線方向に異なる位置に、車線幅方向に重なる範囲を設けて配されて、踏まれたか否かを検出可能な一つ以上の平接点と、前記四輪車の進入を検知する検知器と、を備える踏板の異常監視装置のコンピュータを、前記第１抵抗接点、前記第２抵抗接点、前記平接点の各々から出力される検出信号を取得すると共に、前記検知器からの出力される検出信号を取得する検出信号取得手段、前記取得した各検出信号に基づいて、踏み付けが検出された前記第１抵抗接点、前記第２抵抗接点、及び前記平接点の何れか一つと車線幅方向の範囲が重なる他の前記第１抵抗接点、前記第２抵抗接点、及び前記平接点の何れか一つにおいて踏み付けが検出されたか否かを判定し、検出されていない場合には、当該他の接点を異常と判定判定し、前記検知器により前記四輪車の進入が検知されているにもかかわらず、前記第１抵抗接点及び前記第２抵抗接点のいずれもが踏み付けを検知しない場合には、前記第１抵抗接点と前記第２抵抗接点とのうち少なくとも一方を異常と判定する異常判定手段、として機能させるプログラムである。 In addition, according to one aspect of the present invention, the electric resistance when the vehicle is stepped on is extended and arranged over a predetermined range in the lane width direction so as to be stepped only on the left and right tires of the four-wheeled vehicle traveling in the lane. The first resistance contact that can detect the stepped position and the tire width according to the change of the vehicle, and the lane width that is different from the first resistance contact so that only the left and right tires of the four-wheel vehicle are stepped on A second resistance contact that extends over a range of directions and can detect the stepped position and the tire width according to a change in electrical resistance when stepped on, and the first resistance contact or the first One or more flat contacts that are arranged at a position different from at least one of the two resistance contacts in the lane direction so as to overlap in the lane width direction and can detect whether or not the vehicle has been stepped on, and the entry of the four-wheeled vehicle Computing the abnormality monitoring device of the step board; and a detector for detecting the A first resistor contact, the second resistor contact, the acquires the detection signal output from each of the flat contact detection signal obtaining means for obtaining a detection signal outputted from the detector, the acquisition Based on each detected signal, any one of the first resistance contact, the second resistance contact, and the flat contact in which stepping is detected, and the other first resistance contact that overlaps the range in the lane width direction, It is determined whether or not stepping is detected at any one of the second resistance contact and the flat contact. If not, the other contact is determined to be abnormal and determined by the detector. If none of the first resistance contact and the second resistance contact detects the stepping even though the entry of the four-wheeled vehicle is detected, the first resistance contact and the second resistance contact At least one of Which is the abnormality determining means, a program to function as determined to be abnormal.

上述の異常監視装置、異常監視方法及びプログラムによれば、踏圧検知センサにおける異常の発生及び異常箇所の特定を精度よく行うことができる。   According to the above-described abnormality monitoring device, abnormality monitoring method, and program, it is possible to accurately generate an abnormality in the tread pressure detection sensor and specify an abnormal location.

第１の実施形態に係る車種判別装置を有する料金収受施設の概要を示す図である。It is a figure which shows the outline | summary of the toll collection facility which has the vehicle type identification apparatus which concerns on 1st Embodiment. 第１の実施形態に係る車種判別装置の構成を示す図である。It is a figure which shows the structure of the vehicle type discrimination | determination apparatus which concerns on 1st Embodiment. 第１の実施形態に係る踏板の機能構成を説明する図である。It is a figure explaining the functional composition of the foot board concerning a 1st embodiment. 第１の実施形態に係る車種判別装置に四輪車が通行する例を説明する図である。It is a figure explaining the example in which a four-wheeled vehicle passes the vehicle type identification apparatus which concerns on 1st Embodiment. 第１の実施形態に係る車種判別装置に二輪車が通行する例を説明する第１の図である。It is a 1st figure explaining the example in which a two-wheeled vehicle passes the vehicle type discrimination | determination apparatus which concerns on 1st Embodiment. 第１の実施形態に係る車種判別装置に二輪車が通行する例を説明する第２の図である。It is a 2nd figure explaining the example in which a two-wheeled vehicle passes the vehicle type discrimination | determination apparatus which concerns on 1st Embodiment. 第１の実施形態に係る車種判別装置に二輪車が通行する例を説明する第３の図である。It is a 3rd figure explaining the example in which a two-wheeled vehicle passes the vehicle type identification apparatus which concerns on 1st Embodiment. 第１の実施形態に係る異常判定部の処理フローを示すフローチャート図である。It is a flowchart figure which shows the processing flow of the abnormality determination part which concerns on 1st Embodiment. 第２の実施形態に係る異常判定部の処理フローを示すフローチャート図である。It is a flowchart figure which shows the processing flow of the abnormality determination part which concerns on 2nd Embodiment. 第３の実施形態に係る踏板の構成を示す図である。It is a figure which shows the structure of the tread concerning 3rd Embodiment. 第４の実施形態に係る踏板の構成を示す図である。It is a figure which shows the structure of the tread concerning 4th Embodiment.

＜第１の実施形態＞
以下、第１の実施形態に係る異常監視装置を、図面を参照して説明する。
図１は、第１の実施形態に係る異常監視装置を有する料金収受施設の概要を示す図である。
本実施形態に係る料金収受施設１０１は、有料道路の入口又は出口に設置され、通行する車両（後述する四輪車６０、二輪車６１）から料金を収受する施設である。
図１に示すように、料金収受施設１０１は、車線４（走行レーン）に車種判別装置１００、無線通信装置７、発進制御機５ａ、発進検知装置６を備えている。
車種判別装置１００は、車両の通過に伴って種々の検知センサ群から出力される検知信号に基づいて車線４を走行する車両の車種を特定する。
無線通信装置７は、車種判別装置１００により特定された車種情報に基づいて、走行する車両に搭載された車載器と料金収受のための情報通信を行う。
発進制御機５ａは、無線通信装置７による情報通信の結果または発進検知装置６からの検知信号等に基づいて開閉バーを開閉し、通行する車両の発進（料金収受施設１０１からの退出）を制御する。
発進検知装置６は、車両分離器や踏板等の検知センサから出力される検知信号に基づいて車両の発進を検知する。 <First Embodiment>
Hereinafter, an abnormality monitoring apparatus according to the first embodiment will be described with reference to the drawings.
FIG. 1 is a diagram showing an outline of a toll collection facility having an abnormality monitoring apparatus according to the first embodiment.
The toll collection facility 101 according to the present embodiment is a facility that is installed at the entrance or exit of a toll road and collects tolls from passing vehicles (four-wheeled vehicle 60 and two-wheeled vehicle 61 described later).
As shown in FIG. 1, the toll collection facility 101 includes a vehicle type discriminating device 100, a wireless communication device 7, a start controller 5a, and a start detection device 6 in a lane 4 (travel lane).
The vehicle type identification device 100 specifies the vehicle type of a vehicle traveling on the lane 4 based on detection signals output from various detection sensor groups as the vehicle passes.
Based on the vehicle type information specified by the vehicle type discriminating apparatus 100, the wireless communication device 7 performs information communication for toll collection with an on-vehicle device mounted on a traveling vehicle.
The start controller 5a opens and closes an open / close bar based on the result of information communication by the wireless communication device 7 or a detection signal from the start detection device 6 and controls the start of the vehicle to pass (exit from the toll collection facility 101). To do.
The start detection device 6 detects the start of the vehicle based on a detection signal output from a detection sensor such as a vehicle separator or a tread board.

ここで、本実施形態に係る車種判別装置１００は、主に、踏板２、車両分離器３、車高検知器３ａ、ナンバープレート認識装置３ｂ、車長検知装置３ｃ等から出力される検知信号に基づいて車両の車種を特定する。また、後述するように、本実施形態に係る車種判別装置１００は、異常監視装置１（図２参照）を有している。   Here, the vehicle type discriminating apparatus 100 according to the present embodiment mainly uses detection signals output from the step board 2, the vehicle separator 3, the vehicle height detector 3a, the license plate recognition device 3b, the vehicle length detection device 3c, and the like. Based on this, the vehicle type is specified. Further, as will be described later, the vehicle type identification device 100 according to the present embodiment includes an abnormality monitoring device 1 (see FIG. 2).

なお、図１において、料金収受施設１０１は、無線通信装置７を備え、電子料金収受システムに対応した料金収受施設として示しているが、本実施形態に係る異常監視装置１は、後述するように、図１に示した場合の他、無線通信装置７の代わり、または、無線通信装置７と共に通行券自動発行機や自動料金収受機が備えられた料金収受システム等にも適用可能である。   In FIG. 1, the fee collection facility 101 includes the wireless communication device 7 and is shown as a fee collection facility corresponding to the electronic fee collection system. However, the abnormality monitoring device 1 according to the present embodiment will be described later. In addition to the case shown in FIG. 1, the present invention can be applied to a toll collection system or the like provided with an automatic toll issuing machine or an automatic toll collector together with the radio communication device 7 or together with the radio communication device 7.

図２は、第１の実施形態に係る車種判別装置の構成を示す図である。
図２に示すように、本実施形態に係る車種判別装置１００は、車線４の車線方向に通行する車両に対して車種判別処理を行う。図２に示すように、車種判別装置１００は、異常監視装置１、踏板２、車両分離器３を備えている。また、図２には図示していないが、車種判別装置１００は、さらに、例えば車長を検知する車長検知部やナンバープレートから情報を読み取るナンバープレート認識装置等が備えられていてもよい。 FIG. 2 is a diagram illustrating a configuration of the vehicle type identification device according to the first embodiment.
As shown in FIG. 2, the vehicle type identification device 100 according to the present embodiment performs a vehicle type identification process on a vehicle that passes in the lane direction of the lane 4. As shown in FIG. 2, the vehicle type identification device 100 includes an abnormality monitoring device 1, a tread 2, and a vehicle separator 3. Although not shown in FIG. 2, the vehicle type identification device 100 may further include, for example, a vehicle length detection unit that detects the vehicle length, a license plate recognition device that reads information from a license plate, and the like.

異常監視装置１は、車種判別装置１００に備えられる踏板２（後述）を監視して、踏板２の動作に異常があった際に当該異常を検出して通知する。本実施形態において、異常監視装置１は、例えば、車種判別装置１００全体の動作を司る主制御部に組み込まれる態様であってもよい。
踏板２は、車種判別装置１００に備えられる車種判別用踏板であって、通行する車両の踏み付けに応じた検出信号を出力する。図２に示すように、踏板２は、車線４の路面上に、車線幅方向に伸びるように設置される。詳細は後述するが、踏板２は、内部に複数の踏圧検知センサ（第１抵抗接点２０１、第２抵抗接点２０２、第１平接点２１１、第２平接点２１２等）を有しており、この各種センサを介して車両の踏み付けに応じた検出信号を出力する。踏板２のより具体的な機能構成については後述する。
車両分離器３は、通行する車両を一台ごとに分離しながら、その通過を検知する。例えば、車両分離器３は、光センサを備えて、進入した車両の筐体が当該光センサを遮ることで車両の進入を検知する。 The abnormality monitoring device 1 monitors a step board 2 (described later) provided in the vehicle type identification device 100, and detects and notifies the abnormality when the operation of the step board 2 is abnormal. In the present embodiment, the abnormality monitoring device 1 may be incorporated in, for example, a main control unit that controls the operation of the entire vehicle type identification device 100.
The tread plate 2 is a vehicle type discrimination tread provided in the vehicle type discrimination device 100, and outputs a detection signal corresponding to the stepping of the vehicle that passes. As shown in FIG. 2, the tread board 2 is installed on the road surface of the lane 4 so as to extend in the lane width direction. Although the details will be described later, the tread plate 2 has a plurality of tread pressure detection sensors (first resistance contact 201, second resistance contact 202, first flat contact 211, second flat contact 212, etc.) inside, A detection signal corresponding to the stepping of the vehicle is output via various sensors. A more specific functional configuration of the tread board 2 will be described later.
The vehicle separator 3 detects the passage of vehicles passing there while separating them. For example, the vehicle separator 3 includes an optical sensor, and detects the entrance of the vehicle by the housing of the entering vehicle blocking the optical sensor.

図２に示すように、異常監視装置１は、検出信号取得部１０と、異常判定部１１と、を備えている。
検出信号取得部１０は、踏板２が有する複数の踏圧検知センサ（第１抵抗接点２０１、第２抵抗接点２０２等）の各々が出力する検出信号を取得する。具体的には、検出信号取得部１０は、車両の進入を検知する車両分離器３からの進入検知信号を入力する。そして、検出信号取得部１０は、当該進入検知信号をトリガとして、当該進入検知信号が入力されている間に踏板２の各踏圧検知センサから入力される踏圧の検出信号を取得する。 As shown in FIG. 2, the abnormality monitoring device 1 includes a detection signal acquisition unit 10 and an abnormality determination unit 11.
The detection signal acquisition unit 10 acquires a detection signal output from each of a plurality of step pressure detection sensors (first resistance contact 201, second resistance contact 202, etc.) included in the tread board 2. Specifically, the detection signal acquisition unit 10 inputs an entry detection signal from the vehicle separator 3 that detects entry of the vehicle. And the detection signal acquisition part 10 acquires the detection signal of the treading pressure input from each treading pressure detection sensor of the tread 2 while the said approach detection signal is input by using the said approach detection signal as a trigger.

異常判定部１１は、検出信号取得部１０が取得した各検出信号に基づいて、踏板２の動作の異常の有無を検出する。具体的には、異常判定部１１は、踏み付けが検出された各踏圧検知センサ（第１抵抗接点２０１、第２抵抗接点２０２、第１平接点２１１等）の何れか一つと車線幅方向の範囲が重なる他の踏圧検知センサの何れか一つにおいて踏み付けが検出されたか否かを判定し、検出されていない場合には、当該他の踏圧検知センサを異常と判定する。例えば、異常判定部１１は、第１抵抗接点２０１にて踏み付けが検出された場合には、この第１抵抗接点２０１を除いた他の踏圧検知センサ（第２抵抗接点２０２又は第２平接点２１２等）の何れか一つにおいて踏み付けが検出されたか否かを判定する。
異常判定部１１の具体的な処理手順については後述する。 The abnormality determination unit 11 detects the presence or absence of an abnormality in the operation of the tread board 2 based on each detection signal acquired by the detection signal acquisition unit 10. Specifically, the abnormality determination unit 11 may detect any one of the treading pressure detection sensors (first resistance contact 201, second resistance contact 202, first flat contact 211, etc.) in which the stepping is detected and the range in the lane width direction. It is determined whether or not stepping is detected in any one of the other pedal pressure detection sensors that overlap each other. If not, the other pedal pressure detection sensor is determined to be abnormal. For example, when the stepping is detected at the first resistance contact 201, the abnormality determination unit 11 detects another stepping pressure detection sensor (the second resistance contact 202 or the second flat contact 212) excluding the first resistance contact 201. Etc.), it is determined whether or not stepping is detected.
A specific processing procedure of the abnormality determination unit 11 will be described later.

次に、踏板２の具体的な構成について図２を参照しながら説明する。
図２に示すように、踏板２は、第１抵抗接点２０１、第２抵抗接点２０２、第１平接点２１１、第２平接点２１２、第３平接点２１３及び第４平接点２１４を備えている。
第１抵抗接点２０１は、車線４における車線幅方向の所定範囲、具体的には、車線４の車線方向左端付近から車線方向右側へ車線幅２／３程度伸びるように配される。このように配されることで、第１抵抗接点２０１は、車線４を走行する四輪車の進行方向左側のタイヤにのみ踏まれる。
第２抵抗接点２０２は、第１抵抗接点２０１とは異なる車線幅方向の範囲、具体的には、車線４の車線方向右端付近から車線方向左側へ車線幅２／３程度の地点まで伸びるように配される。このように配されることで、第２抵抗接点２０２は、車線４を走行する四輪車の進行方向右側のタイヤにのみ踏まれる。
ここで、第１抵抗接点２０１及び第２抵抗接点２０２は、後述の図３（ａ）に示す仕組みに基づいて車両のタイヤ幅を特定可能とする検出信号を出力する。しかし、第１抵抗接点２０１及び第２抵抗接点２０２が出力する検出信号に基づいてタイヤ幅を特定するためには、第１抵抗接点２０１及び第２抵抗接点２０２が、四輪車の左右何れか一方にのみ踏まれている必要がある。したがって、第１抵抗接点２０１及び第２抵抗接点２０２は、車線の幅員及び通行する四輪車の車幅を考慮して、各々が、四輪車の左右のタイヤ一方にのみ踏まれるように、互いに異なる範囲に配されている。したがって、四輪車が通行する場合は、１抵抗接点２０１、第２抵抗接点２０２のうち、車線幅方向において互いに重複する範囲（後述する中央範囲Ｃ）が踏まれることはない。
なお、図２に示すように、第１抵抗接点２０１と第２抵抗接点２０２とは、車線方向に異なる位置に配されており、車線４の中央における車線幅１／３程度の範囲（後述する中央範囲Ｃ）において車線幅方向に重なる（中央範囲Ｃにおいて、車線方向について隣り合う）ように配されている。
第１抵抗接点２０１及び第２平接点２１２は、内部に抵抗素子を含む電気回路を有し、踏まれた際の電気抵抗の変化に応じて当該踏まれた車線幅方向の位置及び範囲を検出可能とする。 Next, a specific configuration of the tread board 2 will be described with reference to FIG.
As shown in FIG. 2, the tread board 2 includes a first resistance contact 201, a second resistance contact 202, a first flat contact 211, a second flat contact 212, a third flat contact 213, and a fourth flat contact 214. .
The first resistance contact 201 is arranged to extend from the predetermined range in the lane width direction in the lane 4, specifically, from the vicinity of the left end of the lane 4 to the right side in the lane direction by about 2/3. By being arranged in this way, the first resistance contact 201 is stepped only on the tire on the left side in the traveling direction of the four-wheeled vehicle traveling on the lane 4.
The second resistance contact 202 extends from a range in the lane width direction different from the first resistance contact 201, specifically, from the vicinity of the right end of the lane 4 in the lane direction to the left side in the lane to a point having a lane width of about 2/3. Arranged. By being arranged in this way, the second resistance contact 202 is stepped only on the tire on the right side in the traveling direction of the four-wheeled vehicle traveling on the lane 4.
Here, the 1st resistance contact 201 and the 2nd resistance contact 202 output the detection signal which can specify the tire width of a vehicle based on the mechanism shown in below-mentioned Fig.3 (a). However, in order to specify the tire width based on the detection signal output from the first resistance contact 201 and the second resistance contact 202, the first resistance contact 201 and the second resistance contact 202 are either left or right of the four-wheeled vehicle. It needs to be stepped only on one side. Accordingly, in consideration of the width of the lane and the width of the passing four-wheeled vehicle, each of the first resistance contact 201 and the second resistance contact 202 is stepped on only one of the left and right tires of the four-wheeled vehicle. They are arranged in different ranges. Therefore, when a four-wheeled vehicle passes, a range that overlaps each other in the lane width direction (a center range C to be described later) is not stepped on among the first resistance contact 201 and the second resistance contact 202.
As shown in FIG. 2, the first resistance contact 201 and the second resistance contact 202 are arranged at different positions in the lane direction, and a range of about １ ／ width at the center of the lane 4 (described later). In the central range C), they are arranged so as to overlap in the lane width direction (adjacent in the lane direction in the central range C).
The first resistance contact 201 and the second flat contact 212 have an electric circuit including a resistance element inside, and detect the position and range of the stepped lane width direction according to the change in the electric resistance when stepped on. Make it possible.

図２に示すように、第１平接点２１１は、第１抵抗接点２０１と車線方向に同じ位置で、車線幅方向の第１抵抗接点２０１が設けられていない範囲に渡って伸びて配される。具体的には、車線４の車線方向左端付近から車線方向右側へ車線幅１／３程度伸びるように配される。
また、第２平接点２１２は、第２抵抗接点２０２と車線方向に同じ位置で、車線幅方向の第２抵抗接点２０２が設けられていない範囲に渡って伸びて配される。具体的には、車線４の車線方向右端付近から車線方向左側へ車線幅１／３程度伸びるように配される。
第１平接点２１１及び第２平接点２１２は、車両のタイヤによる踏み付けの有無を検知可能とする。
なお、上述の説明において、第１平接点２１１及び第２平接点２１２は、それぞれ第１抵抗接点２０１、第２抵抗接点２０２と車線方向に「同じ」位置に配されるものと記載したが、これは、各々が車線方向において正確に「同じ」位置に配されるべきことを意味するものではない。すなわち、第１平接点２１１及び第２平接点２１２が排される位置は、踏板の構成に応じて、それぞれ第１抵抗接点２０１、第２抵抗接点２０２の車線方向の位置に対して幾分のずれが許容され得るものである。 As shown in FIG. 2, the first flat contact 211 is arranged at the same position in the lane direction as the first resistance contact 201 and extends over a range where the first resistance contact 201 in the lane width direction is not provided. . Specifically, the lane 4 is arranged so as to extend from the vicinity of the left end in the lane direction to the right side in the lane direction by about 1/3 of the lane width.
Further, the second flat contact 212 is arranged at the same position in the lane direction as the second resistance contact 202 and extends over a range where the second resistance contact 202 in the lane width direction is not provided. Specifically, the lane 4 is arranged so as to extend about 1/3 of the lane width from the vicinity of the right end of the lane 4 to the left side of the lane.
The first flat contact 211 and the second flat contact 212 can detect whether or not the vehicle has been stepped on by a tire.
In the above description, the first flat contact 211 and the second flat contact 212 are described as being arranged at the “same” position in the lane direction as the first resistance contact 201 and the second resistance contact 202, respectively. This does not mean that each should be placed at exactly the same “position” in the lane direction. That is, the positions where the first flat contact 211 and the second flat contact 212 are removed are somewhat different from the positions of the first resistance contact 201 and the second resistance contact 202 in the lane direction, depending on the configuration of the tread. Deviation can be tolerated.

図２に示すように、第３平接点２１３及び第４平接点２１４は、第１抵抗接点２０１及び第２抵抗接点２０２と車線方向に異なる位置で、第１抵抗接点２０１及び第２抵抗接点２０２の車線幅方向の全範囲に重なるように伸びて配される。具体的には、車線４の車線方向左端付近から右端付近まで車線幅方向全域に渡って配される。   As shown in FIG. 2, the third flat contact 213 and the fourth flat contact 214 are different from the first resistance contact 201 and the second resistance contact 202 in the lane direction, and the first resistance contact 201 and the second resistance contact 202. It extends so as to overlap the entire range in the lane width direction. Specifically, the lane 4 is arranged over the entire lane width direction from the vicinity of the left end in the lane direction to the vicinity of the right end.

図３は、第１の実施形態に係る踏板の機能構成を説明する図である。
踏板２が備える第１抵抗接点２０１及び第２抵抗接点２０２の構成の概略を図３（ａ）に示す。図３（ａ）に示すように、第１抵抗接点２０１は、車線幅方向に伸びるように配された抵抗素子Ｒ０１と、その路面下方向に配された電極ｐ０１と、を有する。この第１抵抗接点２０１（第２抵抗接点２０２）が通行する車両のタイヤにより踏まれたとき、抵抗素子Ｒ０１の踏まれた部分と、その下方の電極ｐ０１とが接触する。これにより、第１抵抗接点２０１（第２抵抗接点２０２）は、端子ｔ０１と端子ｔ０３との間の電気抵抗値、並びに、端子ｔ０２と端子ｔ０３との間の電気抵抗値を計測することで、踏まれた位置及びその範囲を検出することができる。 FIG. 3 is a diagram illustrating a functional configuration of the tread according to the first embodiment.
FIG. 3A schematically shows the configuration of the first resistance contact 201 and the second resistance contact 202 provided in the tread board 2. As shown in FIG. 3A, the first resistance contact 201 has a resistance element R01 arranged to extend in the lane width direction and an electrode p01 arranged in the road surface downward direction. When the first resistance contact 201 (second resistance contact 202) is stepped on by a vehicle tire that passes through, the stepped portion of the resistance element R01 comes into contact with the electrode p01 therebelow. Thereby, the first resistance contact 201 (second resistance contact 202) measures the electrical resistance value between the terminal t01 and the terminal t03 and the electrical resistance value between the terminal t02 and the terminal t03. The stepped position and its range can be detected.

また、図３（ｂ）に示すように、第１平接点２１１〜第４平接点２１４は、車線幅方向に伸びるように配された電極ｐ１１と、路面下方向に配された電極ｐ１２と、を有する。第１平接点２１１等が通行する車両のタイヤにより踏まれたとき、電極ｐ１１と電極ｐ１２とが接触する。これにより、第１平接点２１１等は、端子ｔ１１と端子ｔ１２との間における通電の有無を検出することで、踏み付けの有無を検出することができる。   As shown in FIG. 3B, the first flat contact 211 to the fourth flat contact 214 include an electrode p11 that is arranged to extend in the lane width direction, an electrode p12 that is arranged below the road surface, Have When the first flat contact 211 or the like is stepped on by a vehicle tire that passes through, the electrode p11 and the electrode p12 come into contact with each other. Thereby, the 1st flat contact 211 grade | etc., Can detect the presence or absence of stepping by detecting the presence or absence of electricity supply between the terminal t11 and the terminal t12.

本実施形態に係る踏板２は、図２に示したように、車線方向に複数の踏圧検知センサ（各接点）を並べて配置される。車種判別装置１００は、車線方向に並べて配置された各踏圧検知センサにおける踏み付け検出時刻の時間差に基づいて、通行する車両の前進・後退を判別することができる。また、踏板２は、第１抵抗接点２０１を介して四輪車の右側のタイヤの踏み付け位置及びその幅を検出可能とし、第２抵抗接点２０２を介して左側のタイヤの踏み付け位置及びその幅を検出可能とする。これにより、車種判別装置１００は、通行する車両の車種判別に必要な情報（タイヤ幅、トレッド幅等）を取得することができる。   As shown in FIG. 2, the tread plate 2 according to the present embodiment is arranged with a plurality of tread pressure detection sensors (contacts) arranged in the lane direction. The vehicle type discriminating apparatus 100 can discriminate forward / backward movement of a passing vehicle based on the time difference between the tread detection times of the respective tread pressure detection sensors arranged side by side in the lane direction. Further, the tread plate 2 can detect the stepping position and the width of the right tire of the four-wheeled vehicle through the first resistance contact 201, and can detect the stepping position and the width of the left tire through the second resistance contact 202. Detectable. Thereby, the vehicle type discrimination device 100 can acquire information (tire width, tread width, etc.) necessary for discrimination of the vehicle type of the passing vehicle.

図４は、第１の実施形態に係る車種判別装置に四輪車が通行する例を説明する図である。
図２に示したように、踏板２は、第１抵抗接点２０１と第２抵抗接点２０２とが、車線４の中央における車線幅１／３程度の範囲（中央範囲Ｃ）において重なるように配されている。本実施形態に係る異常判定部１１は、第１抵抗接点２０１における中央範囲Ｃと、第２平接点２１２と重なる範囲である右平接点範囲Ｒとの境界を示す閾値Ｘ１を予め記憶している。同様に、異常判定部１１は、第２抵抗接点２０２における中央範囲Ｃと、第１平接点２１１と重なる範囲である左平接点範囲Ｌとの境界を示す閾値Ｘ２を予め記憶している。異常判定部１１は、この閾値Ｘ１、Ｘ２をもって、車線４の車線幅方向中央に中央範囲Ｃを設定する。
なお、本実施形態において上述の「中央範囲Ｃ」は、車線４の車線幅方向中央を対称に、左右に均等に伸びて設定されているが、他の実施形態においては、必ずしも車線幅方向中央から左右に均等に伸びて設定される必要はない。例えば、中央範囲Ｃは、車線幅方向中央から左右方向にそれぞれ異なった長さに伸びて設定されていてもよい。なお、この場合であっても、第１抵抗接点２０１は、四輪車の右側のタイヤの踏み付け位置及びその幅を検出可能なように配され、第２抵抗接点２０２は、左側のタイヤの踏み付け位置及びその幅を検出可能となるように配されるものとする。 FIG. 4 is a diagram illustrating an example in which a four-wheeled vehicle passes through the vehicle type identification device according to the first embodiment.
As shown in FIG. 2, the tread board 2 is arranged such that the first resistance contact 201 and the second resistance contact 202 overlap in a range of about 1/3 of the lane width at the center of the lane 4 (center range C). ing. The abnormality determination unit 11 according to this embodiment stores in advance a threshold value X1 indicating a boundary between the center range C of the first resistance contact 201 and the right flat contact range R that is a range overlapping the second flat contact 212. . Similarly, the abnormality determination unit 11 stores in advance a threshold value X2 indicating a boundary between the central range C of the second resistance contact 202 and the left flat contact range L that is a range overlapping the first flat contact 211. The abnormality determination unit 11 sets the central range C at the center in the lane width direction of the lane 4 with the threshold values X1 and X2.
In the present embodiment, the above-mentioned “center range C” is set so as to be symmetrically extended left and right symmetrically with respect to the center of the lane 4 in the lane width direction. It does not need to be set evenly extending from side to side. For example, the center range C may be set to extend from the center in the lane width direction to different lengths in the left-right direction. Even in this case, the first resistance contact 201 is arranged so as to detect the stepping position and the width of the right tire of the four-wheeled vehicle, and the second resistance contact 202 is the stepping of the left tire. It is assumed that the position and the width thereof can be detected.

ここで、車線４を通行する車両が四輪車６０であった場合を説明する。
図４に示すように、四輪車６０は、料金所を通過する際、タイヤＴ１、Ｔ２をもって踏板２を踏み付ける。このとき、第１抵抗接点２０１は、四輪車６０の進行方向右側のタイヤＴ１にのみ踏まれる。同様に、第２抵抗接点２０２は、四輪車６０の進行方向左側のタイヤＴ２にのみ踏まれる。つまり、通過する車両が四輪車である場合、四輪車６０のタイヤＴ１は、常に右平接点範囲Ｒを通過し、これと同時に、タイヤＴ２は、常に左接点範囲Ｌを通過する。 Here, a case where the vehicle passing through the lane 4 is the four-wheeled vehicle 60 will be described.
As shown in FIG. 4, the four-wheeled vehicle 60 steps on the tread 2 with tires T <b> 1 and T <b> 2 when passing through the toll gate. At this time, the first resistance contact 201 is stepped only on the tire T1 on the right side in the traveling direction of the four-wheel vehicle 60. Similarly, the second resistance contact 202 is stepped only on the tire T <b> 2 on the left side in the traveling direction of the four-wheeled vehicle 60. That is, when the passing vehicle is a four-wheeled vehicle, the tire T1 of the four-wheeled vehicle 60 always passes the right flat contact range R, and at the same time, the tire T2 always passes the left contact range L.

図５〜図７は、第１の実施形態に係る車種判別装置に二輪車が通行する例を説明する第１〜第３の図である。
次に、車線４を通行する車両が二輪車６１（図６、図７）であった場合を説明する。
走行する車両が四輪車であった場合、踏板２の踏まれ方のパターンは一通りとなる（図４参照）。しかしながら、車線４を通行する車両が二輪車の場合、踏板２の踏まれる位置は、二輪車ごとに異なることが想定される。特に、車線４に適用される料金収受の態様によって、踏板２の踏まれる位置の傾向が相違する。
例えば、図５（ａ）に示すように、踏板２が、電子料金収受システムに対応した走行レーンに設置される場合、二輪車６１の運転者は、発進制御機５ａの開閉バーとの接触を避けようとして、車線４の中央付近を走行する。
一方、図５（ｂ）に示すように、通行券自動発行機５ｂが設置された車線４に設置された踏板２の場合、二輪車６１の運転者は、通行券自動発行機５ｂが発行する通行券を取得しようとして、車線４の右側（通行券自動発行機５ｂが設置される側）に寄って走行する。 5 to 7 are first to third diagrams illustrating an example in which a motorcycle passes through the vehicle type identification device according to the first embodiment.
Next, the case where the vehicle passing through the lane 4 is the two-wheeled vehicle 61 (FIGS. 6 and 7) will be described.
When the traveling vehicle is a four-wheeled vehicle, the pattern of how the tread board 2 is stepped becomes one (see FIG. 4). However, when the vehicle passing through the lane 4 is a two-wheeled vehicle, it is assumed that the stepping position of the tread plate 2 is different for each two-wheeled vehicle. In particular, the tendency of the stepping plate 2 to be stepped on differs depending on the manner of toll collection applied to the lane 4.
For example, as shown in FIG. 5A, when the tread board 2 is installed in a travel lane corresponding to the electronic toll collection system, the driver of the two-wheeled vehicle 61 avoids contact with the open / close bar of the start controller 5a. As a result, the vehicle travels around the center of the lane 4.
On the other hand, as shown in FIG. 5 (b), in the case of the step board 2 installed in the lane 4 where the automatic ticket issuing machine 5b is installed, the driver of the two-wheeled vehicle 61 passes the traffic issued by the automatic ticket issuing machine 5b. In order to acquire a ticket, the vehicle travels to the right side of the lane 4 (the side where the automatic ticket issuing machine 5b is installed).

図６は、二輪車６１が車線４の中央付近を通行する場合（図５（ａ））において、踏板２が二輪車６１のタイヤＴ３に踏まれる様子を示している。この場合、図６に示すように、二輪車６１のタイヤＴ３は、踏板２の中央範囲Ｃを通過するため、当該中央範囲Ｃに属する第１抵抗接点２０１、第３平接点２１３、第４平接点２１４、第２抵抗接点２０２を踏み付ける。またこの場合は、第１平接点２１１及び第２平接点２１２は踏まれない。   FIG. 6 shows a state where the tread 2 is stepped on the tire T3 of the two-wheeled vehicle 61 when the two-wheeled vehicle 61 passes near the center of the lane 4 (FIG. 5A). In this case, as shown in FIG. 6, since the tire T3 of the two-wheeled vehicle 61 passes through the central range C of the tread 2, the first resistance contact 201, the third flat contact 213, and the fourth flat contact belonging to the central range C are included. 214, the second resistance contact 202 is stepped on. In this case, the first flat contact 211 and the second flat contact 212 are not stepped on.

また、図７は、二輪車６１が車線４の右側寄りを通行する場合（図５（ｂ））において、踏板２が二輪車６１のタイヤＴ３に踏まれる様子を示している。この場合、図７に示すように、二輪車６１のタイヤＴ３は、踏板２の右平接点範囲Ｒを通過するため、第１抵抗接点２０１、第３平接点２１３、第４平接点２１４、第２平接点を踏み付ける。また、この場合は、第２抵抗接点２０２及び第１平接点２１１は踏まれない。   FIG. 7 shows a state where the tread plate 2 is stepped on the tire T3 of the two-wheeled vehicle 61 when the two-wheeled vehicle 61 passes closer to the right side of the lane 4 (FIG. 5B). In this case, as shown in FIG. 7, since the tire T3 of the two-wheeled vehicle 61 passes through the right flat contact range R of the tread plate 2, the first resistance contact 201, the third flat contact 213, the fourth flat contact 214, the second Step on the flat contact. In this case, the second resistance contact 202 and the first flat contact 211 are not stepped on.

また、二輪車６１によっては、車線４の左側寄りを通行する場合も想定される。図示を省略するが、この場合は、二輪車６１のタイヤＴ３は、踏板２の左平接点範囲Ｌを通過して、第１平接点２１１、第３平接点２１３、第４平接点２１４、第２抵抗接点２０２を踏み付ける。また、この場合は、第１抵抗接点２０１及び第２平接点２１２は踏まれない。   Further, depending on the two-wheeled vehicle 61, it may be assumed that the vehicle passes on the left side of the lane 4. Although illustration is omitted, in this case, the tire T3 of the two-wheeled vehicle 61 passes through the left flat contact range L of the tread 2 and passes through the first flat contact 211, the third flat contact 213, the fourth flat contact 214, and the second flat contact 214. The resistance contact 202 is stepped on. In this case, the first resistance contact 201 and the second flat contact 212 are not stepped on.

本実施形態に係る異常判定部１１は、上述したような種々の踏み付けのパターンに応じた処理フローに基づき、踏板２の動作の異常の有無を検出する。   The abnormality determination unit 11 according to the present embodiment detects the presence / absence of an abnormality in the operation of the tread board 2 based on the processing flow according to the various stepping patterns as described above.

図８は、第１の実施形態に係る異常判定部の処理フローを示すフローチャート図である。
図８に示す異常判定部１１の処理フローは、車両分離器３（図２）から検出信号取得部１０に進入検知信号が入力され、検出信号取得部１０が検出信号の取得を実施する時点から開始される。 FIG. 8 is a flowchart illustrating a processing flow of the abnormality determination unit according to the first embodiment.
The processing flow of the abnormality determination unit 11 shown in FIG. 8 starts from the time when the approach detection signal is input from the vehicle separator 3 (FIG. 2) to the detection signal acquisition unit 10 and the detection signal acquisition unit 10 acquires the detection signal. Be started.

まず、異常判定部１１は、検出信号取得部１０を介して、踏板２の各踏圧検知センサ（第１抵抗接点２０１等）が出力する検出信号を取得する（ステップＳ０１）。
次に、異常判定部１１は、取得した検出信号のうち、第１抵抗接点２０１の検出信号を参照し、第１抵抗接点２０１のどの位置及び範囲を踏まれたかを判別する。そして、異常判定部１１は、予め記憶していた閾値Ｘ１に基づいて、第１抵抗接点２０１の踏まれた範囲に、第２平接点２１２と重なる範囲である右平接点範囲Ｒが含まれているか否かを判定する（ステップＳ０２）。
第１抵抗接点２０１の踏まれた範囲に、右平接点範囲Ｒが含まれていると判定した場合（ステップＳ０２：ＹＥＳ）、異常判定部１１は、第２抵抗接点２０２が出力する検出信号を参照し、第２抵抗接点２０２のどの位置及び範囲を踏まれたかを判別する。そして、異常判定部１１は、予め記憶していた閾値Ｘ２に基づいて、第２抵抗接点２０２の踏まれた範囲に、第１平接点２１１と重なる範囲である左平接点範囲Ｌが含まれているか否かを判定する（ステップＳ０３ａ）。
ここで、第２抵抗接点２０２の踏まれた範囲に左平接点範囲Ｌが含まれていると判定した場合（ステップＳ０３ａ：ＹＥＳ）、異常判定部１１は、第１平接点２１１及び第２平接点２１２両方の異常判定を実施する（ステップＳ０４ａ）。 First, the abnormality determination unit 11 acquires a detection signal output by each step pressure detection sensor (first resistance contact 201 or the like) of the tread board 2 via the detection signal acquisition unit 10 (step S01).
Next, the abnormality determination unit 11 refers to the detection signal of the first resistance contact 201 among the acquired detection signals, and determines which position and range of the first resistance contact 201 has been stepped on. Then, the abnormality determination unit 11 includes a right flat contact range R that overlaps the second flat contact 212 in the range in which the first resistance contact 201 is stepped on based on the threshold value X1 stored in advance. It is determined whether or not there is (step S02).
When it is determined that the right flat contact range R is included in the stepped range of the first resistance contact 201 (step S02: YES), the abnormality determination unit 11 outputs a detection signal output from the second resistance contact 202. With reference to this, it is determined which position and range of the second resistance contact 202 has been stepped on. Then, the abnormality determination unit 11 includes a left flat contact range L, which is a range overlapping the first flat contact 211, in a range where the second resistance contact 202 is stepped on based on a threshold value X2 stored in advance. It is determined whether or not there is (step S03a).
Here, when it is determined that the left flat contact range L is included in the stepped range of the second resistance contact 202 (step S03a: YES), the abnormality determination unit 11 determines the first flat contact 211 and the second flat contact range L. The abnormality determination of both the contacts 212 is performed (step S04a).

この場合、第１抵抗接点２０１の右平接点範囲Ｒと、第２抵抗接点２０２の左平接点範囲Ｌと、の両方が踏まれていることから、通行する車両が四輪車であると特定される（図４参照）。したがって、異常判定部１１は、第１平接点２１１及び第２平接点２１２のそれぞれで踏み付けが検出されたか否かを判定し、検出されていない場合には、踏み付けを検出しなかった第１平接点２１１、第２平接点２１２を異常と判定する。
なお、第３平接点２１３及び第４平接点２１４も常に踏まれるはずなので、異常判定部１１は、第３平接点２１３及び第４平接点２１４についても踏み付けが検出されたか否かを判定し、検出されていない場合には、踏み付けを検出しなかった第３平接点２１３、第４平接点２１４を異常と判定する。 In this case, since both the right flat contact range R of the first resistance contact 201 and the left flat contact range L of the second resistance contact 202 are stepped on, it is determined that the passing vehicle is a four-wheeled vehicle. (See FIG. 4). Therefore, the abnormality determination unit 11 determines whether or not the stepping is detected at each of the first flat contact 211 and the second flat contact 212. If the stepping is not detected, the first flat contact that has not detected the stepping is determined. The contact 211 and the second flat contact 212 are determined to be abnormal.
Since the third flat contact 213 and the fourth flat contact 214 should always be stepped on, the abnormality determination unit 11 determines whether or not the stepping is detected also for the third flat contact 213 and the fourth flat contact 214, If not detected, it is determined that the third flat contact 213 and the fourth flat contact 214 that did not detect the stepping are abnormal.

一方、第１抵抗接点２０１の踏まされた範囲に右平接点範囲Ｒが含まれている場合（ステップＳ０２：ＹＥＳ）であって、かつ、第２抵抗接点２０２の踏まれた範囲に左平接点範囲Ｌが含まれていないと判定した場合（ステップＳ０３ａ：ＮＯ）、異常判定部１１は、第２平接点２１２のみについて異常判定を実施する（ステップＳ０４ｂ）。   On the other hand, when the right flat contact range R is included in the stepped area of the first resistance contact 201 (step S02: YES), the left flat contact is included in the range where the second resistance contact 202 is stepped on. When it determines with the range L not being included (step S03a: NO), the abnormality determination part 11 implements abnormality determination only about the 2nd flat contact 212 (step S04b).

この場合、第１抵抗接点２０１の右平接点範囲Ｒは踏まれているにもかかわらず第２抵抗接点２０２の左平接点範囲Ｌは踏まれていないことから、通行する車両は二輪車で、かつ、車線４の右寄りを走行していると特定される（図７参照）。したがって、異常判定部１１は、第２平接点２１２で踏み付けが検出されたか否かを判定し、検出されていない場合には、その第２平接点２１２を異常と判定する一方、第１平接点２１１で踏み付けが検出されなかったことについては異常と判定しない。
なお、この場合も、ステップＳ０４ａと同様に、異常判定部１１は、第３平接点２１３及び第４平接点２１４についての異常判定を実施する。 In this case, since the right flat contact range R of the first resistance contact 201 is stepped on, the left flat contact range L of the second resistance contact 202 is not stepped on. It is specified that the vehicle is running to the right of the lane 4 (see FIG. 7). Accordingly, the abnormality determination unit 11 determines whether or not the stepping is detected at the second flat contact 212. If not, the abnormality determination unit 11 determines that the second flat contact 212 is abnormal, while the first flat contact 212 If stepping is not detected in 211, it is not determined as abnormal.
In this case as well, as in step S04a, the abnormality determination unit 11 performs abnormality determination on the third flat contact 213 and the fourth flat contact 214.

一方、ステップＳ０２の段階で、第１抵抗接点２０１の踏まれた範囲に、右平接点範囲Ｒが含まれていないと判定した場合（ステップＳ０２：ＮＯ）、異常判定部１１は、第２抵抗接点２０２が出力する検出信号を参照し、第２抵抗接点２０２のどの位置及び範囲を踏まれたかを判別する。そして、異常判定部１１は、閾値Ｘ２に基づいて、第２抵抗接点２０２の踏まれた範囲に、左平接点範囲Ｌが含まれているか否かを判定する（ステップＳ０３ｂ）。
ここで、第２抵抗接点２０２の踏まれた範囲に左平接点範囲Ｌが含まれていると判定した場合（ステップＳ０３ｂ：ＹＥＳ）、異常判定部１１は、第１平接点２１１のみについて異常判定を実施する（ステップＳ０４ｃ）。 On the other hand, when it is determined in step S02 that the right flat contact range R is not included in the range where the first resistance contact 201 is stepped on (step S02: NO), the abnormality determination unit 11 determines that the second resistance contact 201 With reference to the detection signal output from the contact 202, it is determined which position and range of the second resistance contact 202 has been stepped on. And the abnormality determination part 11 determines whether the left flat contact range L is included in the range where the 2nd resistance contact 202 was stepped on based on the threshold value X2 (step S03b).
Here, when it is determined that the left flat contact range L is included in the range in which the second resistance contact 202 is stepped (step S03b: YES), the abnormality determination unit 11 determines abnormality only for the first flat contact 211. (Step S04c).

この場合、第２抵抗接点２０２の左平接点範囲Ｌは踏まれているにもかかわらず第１抵抗接点２０１の右平接点範囲Ｒは踏まれていないことから、通行する車両は二輪車で、かつ、車線４の左寄りを走行していると特定される。したがって、異常判定部１１は、第１平接点２１１で踏み付けが検出されたか否かを判定し、検出されていない場合にはその第１平接点２１１を異常と判定する一方、第２平接点２１２で踏み付けが検出されなかったことについては異常と判定しない。
なお、この場合も、ステップＳ０４ａ、Ｓ０４ｂと同様に、異常判定部１１は、第３平接点２１３及び第４平接点２１４についての異常判定を実施する。 In this case, since the right flat contact range R of the first resistance contact 201 is not stepped even though the left flat contact range L of the second resistance contact 202 is stepped on, the passing vehicle is a two-wheeled vehicle, and It is specified that the vehicle is running to the left of the lane 4. Therefore, the abnormality determination unit 11 determines whether or not the first flat contact 211 has detected the stepping, and if not, determines that the first flat contact 211 is abnormal, while the second flat contact 212. If no trampling is detected, it is not judged abnormal.
Also in this case, the abnormality determination unit 11 performs the abnormality determination on the third flat contact 213 and the fourth flat contact 214 as in steps S04a and S04b.

さらに、第１抵抗接点２０１の踏まれた範囲に右平接点範囲Ｒが含まれていない場合（ステップＳ０２：ＮＯ）であって、かつ、第２抵抗接点２０２の踏まれた範囲に左平接点範囲Ｌが含まれていないと判定した場合（ステップＳ０３ｂ：ＮＯ）、異常判定部１１は、第１平接点２１１及び第２平接点２１２のいずれに対しても異常判定を実施しない（ステップＳ０４ｄ）。   Further, the right flat contact range R is not included in the range where the first resistance contact 201 is stepped (step S02: NO), and the left flat contact is included in the range where the second resistance contact 202 is stepped. When it is determined that the range L is not included (step S03b: NO), the abnormality determination unit 11 does not perform abnormality determination on either the first flat contact 211 or the second flat contact 212 (step S04d). .

この場合、第１抵抗接点２０１の右平接点範囲Ｒ、及び、第２抵抗接点２０２の左平接点範囲Ｌのいずれも踏まれていないことから、通行する車両は二輪車で、かつ、車線４の中央付近（中央範囲Ｃ）を走行していると特定される（図６参照）。したがって、異常判定部１１は、第１平接点２１１及び第２平接点２１２のいずれについても踏み付けが検出されなかったことについて異常と判定しない。
したがって、この場合は、異常判定部１１は、第３平接点２１３及び第４平接点２１４についてのみ、異常判定を実施する。 In this case, since neither the right flat contact range R of the first resistance contact 201 nor the left flat contact range L of the second resistance contact 202 is stepped on, the passing vehicle is a two-wheeled vehicle and the lane 4 It is specified that the vehicle is traveling near the center (central range C) (see FIG. 6). Therefore, the abnormality determination unit 11 does not determine that the stepping is not detected for both the first flat contact 211 and the second flat contact 212 as abnormal.
Therefore, in this case, the abnormality determination unit 11 performs the abnormality determination only for the third flat contact 213 and the fourth flat contact 214.

上述した異常監視装置１の処理によれば、通行する車両が四輪車か、二輪車か、を判別するとともに、二輪車である場合には、更に、その走行ルートを特定することで、その走行ルートに応じて、踏み付けが検出されるべき踏圧検知センサと、踏み付けが検出されなくともよい踏圧検知センサと、の切り分けを行うことができる。例えば、異常監視装置１は、二輪車が踏板２の進行方向左側を通過したと判定した場合には、当該踏板２の右側に設置された踏圧検知センサにおいては、踏圧が検出されなくともよい（異常ではない）、と判断することができる。
そして、異常監視装置１は、踏み付けが検出されるべき踏圧検知センサについてのみ異常の有無の判定処理を行う。このようにすることで、通行する車両の車種またはその走行ルートによらず、踏まれたにもかかわらずその踏み付けを検出しない異常な踏圧検知センサを精度よく特定することができる。 According to the process of the abnormality monitoring device 1 described above, it is determined whether the vehicle to be passed is a four-wheeled vehicle or a two-wheeled vehicle. Accordingly, it is possible to distinguish between a tread pressure detection sensor that should detect treading and a tread pressure detection sensor that does not require detection of treading. For example, when the abnormality monitoring device 1 determines that the motorcycle has passed the left side in the direction of travel of the tread 2, the tread pressure detection sensor installed on the right side of the tread 2 may not detect the tread pressure (abnormal Not)).
And the abnormality monitoring apparatus 1 performs the determination process of the presence or absence of abnormality only about the treading pressure detection sensor which should detect treading. By doing in this way, it is possible to accurately identify an abnormal treading pressure detection sensor that does not detect the stepping despite being stepped on regardless of the vehicle type of the vehicle or its travel route.

以上、本実施形態に係る異常監視装置１によれば、車種判別用踏板が有する踏圧検知センサにおける異常の発生及び異常箇所の特定を精度よく行うことができる。   As described above, according to the abnormality monitoring device 1 according to the present embodiment, it is possible to accurately generate an abnormality and specify an abnormal location in the step pressure detection sensor included in the vehicle type determination tread.

＜第２の実施形態＞
次に、第２の実施形態に係る異常監視装置について説明する。
第２の実施形態に係る踏板２及び異常監視装置１の機能構成は、第１の実施形態と同一であるため、図示を省略する。
第２の実施形態に係る異常監視装置１の異常判定部１１は、踏板２の異常判定を行う処理フローが第１の実施形態と異なる。 <Second Embodiment>
Next, an abnormality monitoring apparatus according to the second embodiment will be described.
Since the functional configurations of the tread board 2 and the abnormality monitoring device 1 according to the second embodiment are the same as those of the first embodiment, illustration is omitted.
The abnormality determination unit 11 of the abnormality monitoring device 1 according to the second embodiment is different from the first embodiment in the processing flow for determining abnormality of the tread board 2.

図９は、第２の実施形態に係る異常判定部の処理フローを示すフローチャート図である。
第１の実施形態と同様に、まず、異常判定部１１は、検出信号取得部１０を介して、踏板２の各踏圧検知センサ（第１抵抗接点２０１等）が出力する検出信号を取得する（ステップＳ１１）。
次に、異常判定部１１は、取得した検出信号のうち、第１抵抗接点２０１の検出信号を参照し、第１抵抗接点２０１のいずれかの範囲において踏まれたか否かを判定する（ステップＳ１２）。
第１抵抗接点２０１が踏まれたと判定した場合（ステップＳ１２：ＹＥＳ）、次に、異常判定部１１は、第２抵抗接点２０２のいずれかの範囲において踏まれたか否かを判定する（ステップＳ１３ａ）。
ここで、第２抵抗接点２０２が踏まれたと判定した場合（ステップＳ１３ａ：ＹＥＳ）、異常判定部１１は、さらに、第１抵抗接点２０１及び第２抵抗接点２０２の踏まれた範囲が中央範囲Ｃであるか否かを判定する（ステップＳ１４）。
第１抵抗接点２０１及び第２抵抗接点２０２の踏まれた範囲が中央範囲Ｃであると判定した場合（ステップＳ１４：ＹＥＳ）、異常判定部１１は、第１平接点２１１及び第２平接点２１２のいずれに対しても異常判定を実施しない（ステップＳ１５ａ）。 FIG. 9 is a flowchart illustrating a processing flow of the abnormality determination unit according to the second embodiment.
As in the first embodiment, first, the abnormality determination unit 11 acquires a detection signal output from each step pressure detection sensor (first resistance contact 201 or the like) of the tread plate 2 via the detection signal acquisition unit 10 ( Step S11).
Next, the abnormality determination unit 11 refers to the detection signal of the first resistance contact 201 among the acquired detection signals, and determines whether or not it has been stepped on in any range of the first resistance contact 201 (step S12). ).
If it is determined that the first resistance contact 201 has been stepped on (step S12: YES), then the abnormality determination unit 11 determines whether or not the first resistance contact 201 has been stepped on in any range of the second resistance contact 202 (step S13a). ).
Here, when it is determined that the second resistance contact 202 has been stepped (step S13a: YES), the abnormality determination unit 11 further determines that the stepped range of the first resistance contact 201 and the second resistance contact 202 is the central range C. It is determined whether or not (step S14).
When it is determined that the stepped range of the first resistance contact 201 and the second resistance contact 202 is the central range C (step S14: YES), the abnormality determination unit 11 determines the first flat contact 211 and the second flat contact 212. No abnormality determination is performed for any of the above (step S15a).

この場合、第１抵抗接点２０１及び第２抵抗接点２０２の両方が踏まれており、かつ、その踏まれた位置が中央範囲Ｃであることから、通行する車両は二輪車で、かつ、車線４の中央付近（中央範囲Ｃ）を走行していると特定される（図６参照）。したがって、異常判定部１１は、したがって、異常判定部１１は、第１平接点２１１及び第２平接点２１２のいずれについても踏み付けが検出されなかったことについて異常と判定しない。
このように、本実施形態に係る異常判定部１１は、第１抵抗接点２０１及び第２抵抗接点２０２のそれぞれにおいて、互いの重なる範囲（中央範囲Ｃ）で踏み付けが検出された場合には、踏み付けが検知されなかった第１平接点２１１及び第２平接点２１２を異常と判定しないようにする。 In this case, since both the first resistance contact 201 and the second resistance contact 202 are stepped on and the stepped position is the central range C, the passing vehicle is a two-wheeled vehicle and the lane 4 It is specified that the vehicle is traveling near the center (central range C) (see FIG. 6). Therefore, the abnormality determination unit 11 does not determine that the stepping is not detected for either the first flat contact 211 or the second flat contact 212 as abnormal.
As described above, the abnormality determination unit 11 according to the present embodiment performs the stepping when the stepping is detected in the overlapping range (center range C) in each of the first resistance contact 201 and the second resistance contact 202. The first flat contact 211 and the second flat contact 212 that are not detected are not determined to be abnormal.

一方、ステップＳ１４において、第１抵抗接点２０１及び第２抵抗接点２０２の踏まれた範囲が中央範囲Ｃでないと判定した場合（ステップＳ１４：ＮＯ）、異常判定部１１は、第１平接点２１１及び第２平接点２１２両方の異常判定を実施する（ステップＳ１５ｂ）。   On the other hand, when it is determined in step S14 that the range in which the first resistance contact 201 and the second resistance contact 202 are stepped is not the central range C (step S14: NO), the abnormality determination unit 11 determines that the first flat contact 211 and The abnormality determination of both the second flat contacts 212 is performed (step S15b).

この場合、第１抵抗接点２０１及び第２抵抗接点２０２の両方が踏まれており、かつ、その踏まれた位置がそれぞれ中央範囲Ｃではないことから、通行する車両が四輪車であると特定される（図４参照）。したがって、異常判定部１１は、第１平接点２１１及び第２平接点２１２のそれぞれの異常判定処理を行う。   In this case, since both the first resistance contact 201 and the second resistance contact 202 are stepped on, and the stepped positions are not in the central range C, it is specified that the passing vehicle is a four-wheeled vehicle. (See FIG. 4). Therefore, the abnormality determination unit 11 performs an abnormality determination process for each of the first flat contact 211 and the second flat contact 212.

一方、ステップＳ１３ａで、第２抵抗接点２０２が踏まれていないと判定した場合（ステップＳ１３ａ：ＮＯ）、異常判定部１１は、第２平接点２１２のみについて異常判定を実施する（ステップＳ１５ｃ）。   On the other hand, when it determines with the 2nd resistance contact 202 not being stepped on by step S13a (step S13a: NO), the abnormality determination part 11 implements abnormality determination only about the 2nd flat contact 212 (step S15c).

この場合、第１抵抗接点２０１は踏まれており、かつ、第２抵抗接点２０２は踏まれていないことから、通行する車両は二輪車で、かつ、車線４の右寄り（右平接点範囲Ｒ）を走行していると特定される（図７参照）。したがって、異常判定部１１は、第２平接点２１２で踏み付けが検出されていない場合には異常と判定し、また、第１平接点２１１で踏み付けが検出されなかったことについては異常と判定しない。   In this case, since the first resistance contact 201 has been stepped on and the second resistance contact 202 has not been stepped on, the passing vehicle is a two-wheeled vehicle, and is located to the right of the lane 4 (right flat contact range R). It is specified that the vehicle is traveling (see FIG. 7). Therefore, the abnormality determination unit 11 determines that the stepping is not detected at the second flat contact 212, and determines that the stepping is not detected at the first flat contact 211 is not abnormal.

一方、ステップＳ１２で、第１抵抗接点２０１が踏まれていないと判定した場合（ステップＳ１２：ＮＯ）、異常判定部１１は、第２抵抗接点２０２のいずれかの範囲において踏まれたか否かを判定する（ステップＳ１３ｂ）。
ここで、第２抵抗接点２０２が踏まれたと判定した場合（ステップＳ１３ｂ：ＹＥＳ）、異常判定部１１は、第１平接点２１１のみについて異常判定を実施する（ステップＳ１５ｄ）。 On the other hand, when it is determined in step S12 that the first resistance contact 201 has not been stepped on (step S12: NO), the abnormality determination unit 11 determines whether or not it has been stepped on in any range of the second resistance contact 202. Determination is made (step S13b).
Here, when it is determined that the second resistance contact 202 has been stepped on (step S13b: YES), the abnormality determination unit 11 performs an abnormality determination on only the first flat contact 211 (step S15d).

この場合、第１抵抗接点２０１は踏まれておらず、かつ、第２抵抗接点２０２は踏まれていることから、通行する車両は二輪車で、かつ、車線４の左寄り（左平接点範囲Ｌ）を走行していると特定される。したがって、異常判定部１１は、第１平接点２１１で踏み付けが検出されていない場合には異常と判定し、また、第２平接点２１２で踏み付けが検出されなかったことについては異常と判定しない。   In this case, since the first resistance contact 201 is not stepped on and the second resistance contact 202 is stepped on, the passing vehicle is a two-wheeled vehicle and is located to the left of the lane 4 (left flat contact range L). Is identified as driving. Therefore, the abnormality determination unit 11 determines that the stepping is not detected at the first flat contact 211, and determines that the stepping is not detected at the second flat contact 212, and does not determine that the stepping is not detected.

また、ステップＳ１３ｂで、第２抵抗接点２０２が踏まれていないと判定した場合（ステップＳ１３ｂ：ＮＯ）、第１抵抗接点２０１及び第２抵抗接点２０２の何れも踏み付けを検出していないと判断される。ここで、車両分離器３が車両の進入を検知しているにもかかわらず第１抵抗接点２０１及び第２抵抗接点２０２のいずれもが踏み付けを検出しない場合、第１抵抗接点２０１、第２抵抗接点２０２の少なくとも何れか一方で異常が発生していると判断される。したがって、この場合、異常判定部１１は、第１抵抗接点２０１または第２抵抗接点２０２のいずれかで異常が発生していると判定し、その旨を通知する（ステップＳ１５ｅ）。   If it is determined in step S13b that the second resistance contact 202 has not been stepped on (step S13b: NO), it is determined that none of the first resistance contact 201 and the second resistance contact 202 has been detected. The Here, when neither the first resistance contact 201 nor the second resistance contact 202 detects the stepping even though the vehicle separator 3 detects the entry of the vehicle, the first resistance contact 201, the second resistance It is determined that an abnormality has occurred in at least one of the contacts 202. Therefore, in this case, the abnormality determination unit 11 determines that an abnormality has occurred in either the first resistance contact 201 or the second resistance contact 202, and notifies that fact (step S15e).

なお、ステップＳ１５ａ〜Ｓ１５ｅのいずれの場合であっても、異常判定部１１は、第３平接点２１３及び第４平接点２１４について踏み付けが検出されたか否かを判定し、検出されていない場合には、踏み付けを検出しなかった第３平接点２１３、第４平接点２１４を異常と判定する。   In any case of steps S15a to S15e, the abnormality determination unit 11 determines whether or not the stepping is detected for the third flat contact 213 and the fourth flat contact 214, and if not detected. Determines that the third flat contact 213 and the fourth flat contact 214 which have not detected the stepping are abnormal.

上述した異常監視装置１の処理によっても、四輪車または二輪車、また二輪車である場合にはその走行ルートごとに、踏み付けが検出されるべき踏圧検知センサと、踏み付けが検出されなくともよい踏圧検知センサと、の切り分けを行うことができる。また、本実施形態の場合、第１抵抗接点２０１と第２抵抗接点２０２との両方が踏まれた場合にのみ、閾値Ｘ１（または閾値Ｘ２）に基づく踏み付け位置の特定処理を行うので、判定処理を簡素化することができる。また、本実施形態の場合、第１抵抗接点２０１及び第２抵抗接点２０２のいずれも踏み付けを検出していない場合は、第１抵抗接点２０１または第２抵抗接点２０２についての異常も検出することができる。   Even with the processing of the abnormality monitoring device 1 described above, in the case of a four-wheeled vehicle, a two-wheeled vehicle, or a two-wheeled vehicle, a treading pressure detection sensor that should detect treading and treading pressure detection that does not require treading detection for each traveling route. The sensor can be separated. In the present embodiment, the stepping position specifying process based on the threshold value X1 (or threshold value X2) is performed only when both the first resistance contact 201 and the second resistance contact 202 are stepped on. Can be simplified. In the case of the present embodiment, when neither the first resistance contact 201 nor the second resistance contact 202 has detected the stepping, an abnormality in the first resistance contact 201 or the second resistance contact 202 can be detected. it can.

なお、上述した第１、第２の実施形態に係る異常判定部１１の処理フロー（図８、図９）は一例であり、同等の目的が達成できる範囲内で、処理ステップの順番や判定基準を変更可能である。例えば、第１抵抗接点２０１と第２抵抗接点２０２に関する判定ステップ（ステップＳ０２とステップＳ０３ａ、Ｓ０３ｂ等）は、相互に入れ替え可能である。   Note that the processing flow (FIGS. 8 and 9) of the abnormality determination unit 11 according to the first and second embodiments described above is an example, and the order of the processing steps and the determination criteria are within a range in which an equivalent purpose can be achieved. Can be changed. For example, the determination steps relating to the first resistance contact 201 and the second resistance contact 202 (step S02 and steps S03a, S03b, etc.) can be interchanged.

また、上述した第１、第２の実施形態に係る異常判定部１１は、さらに、第１平接点２１１または第２平接点２１２の異常をより詳細に把握するための処理ステップを有していてもよい。例えば、異常判定部１１は、通行する車両が四輪車と特定した場合（ステップＳ０２：ＹＥＳ、ステップＳ０３ａ：ＹＥＳ（図８））、第１平接点２１１が踏まれた時刻と第１抵抗接点２０１が踏まれた時刻とが一致するか否かを判定して、第１平接点２１１の異常の有無を判定してもよい。すなわち、通行する車両が四輪車である場合、第１平接点２１１と第１抵抗接点２０１は、四輪車の左右のタイヤによりほぼ同時に踏み付けられる。したがって、異常判定部１１は、通行する車両が四輪車と特定した場合は、第１抵抗接点２０１の検出信号との対比によって第１平接点２１１の異常の有無を判定する。
このようにすることで、第１平接点２１１が踏み付けを検出したか否かの判定のみならず、踏み付けを検出したタイミングが正しいか否かも判定することができる。 The abnormality determination unit 11 according to the first and second embodiments described above further includes a processing step for grasping the abnormality of the first flat contact 211 or the second flat contact 212 in more detail. Also good. For example, when the passing vehicle is identified as a four-wheeled vehicle (step S02: YES, step S03a: YES (FIG. 8)), the abnormality determination unit 11 and the time when the first flat contact 211 is stepped on and the first resistance contact Whether or not the first flat contact 211 is abnormal may be determined by determining whether or not the time when the step 201 is stepped on. That is, when the passing vehicle is a four-wheeled vehicle, the first flat contact 211 and the first resistance contact 201 are stepped on almost simultaneously by the left and right tires of the four-wheeled vehicle. Therefore, the abnormality determination unit 11 determines whether there is an abnormality in the first flat contact 211 by comparing with the detection signal of the first resistance contact 201 when the passing vehicle is specified as a four-wheeled vehicle.
By doing in this way, it can be determined not only whether the first flat contact 211 has detected the stepping, but also whether the timing at which the stepping is detected is correct.

また、上述の第１、第２の実施形態に係る異常判定部１１の処理フローでは、異常判定部１１は、主に、第１抵抗接点２０１または第２抵抗接点２０２の検出信号に基づいて、第１平接点２１１または第２平接点２１２の異常判定を行うものとして説明した。しかし、他の実施形態に係る異常判定部１１は、これとは逆に、第１平接点２１１または第２平接点２１２による検出信号に基づいて、第１抵抗接点２０１または第２抵抗接点２０２の異常判定を行う処理を有していてもよい。
例えば、当該他の実施形態に係る異常判定部１１は、第２平接点２１２で踏み付けが検出されているにもかかわらず、第１抵抗接点２０１の右平接点範囲Ｒ内で踏み付けが検出されていない場合は、この第１抵抗接点２０１に異常があると判定してもよい。同様に、異常判定部１１は、第１平接点２１１で踏み付けが検出されているにもかかわらず、第２抵抗接点２０２の左平接点範囲Ｌ内で踏み付けが検出されていない場合は、この第２抵抗接点２０２に異常があると判定してもよい。
このようにすることで、平接点についての異常のみならず、抵抗接点についての異常の有無を判定することができ、踏板２の異常をより詳細に把握することができる。 In the processing flow of the abnormality determination unit 11 according to the first and second embodiments described above, the abnormality determination unit 11 is mainly based on the detection signal of the first resistance contact 201 or the second resistance contact 202. It has been described that the abnormality determination of the first flat contact 211 or the second flat contact 212 is performed. However, on the contrary, the abnormality determination unit 11 according to another embodiment, on the basis of the detection signal from the first flat contact 211 or the second flat contact 212, the first resistance contact 201 or the second resistance contact 202. You may have the process which performs abnormality determination.
For example, in the abnormality determination unit 11 according to the other embodiment, although the stepping is detected at the second flat contact 212, the stepping is detected within the right flat contact range R of the first resistance contact 201. If not, it may be determined that the first resistance contact 201 is abnormal. Similarly, when the stepping is detected in the left flat contact range L of the second resistance contact 202 even though the stepping is detected in the first flat contact 211, the abnormality determining unit 11 It may be determined that the two-resistance contact 202 is abnormal.
By doing so, it is possible to determine whether there is an abnormality regarding the resistance contact as well as an abnormality regarding the flat contact, and it is possible to grasp the abnormality of the tread 2 more in detail.

また、踏板２の構成も図２等に示したものに限定されない。他の実施形態に係る異常監視装置１は、例えば、以下のような構成の踏板に対しても異常の監視を実施することができる。   Further, the configuration of the tread board 2 is not limited to that shown in FIG. For example, the abnormality monitoring apparatus 1 according to another embodiment can also monitor abnormality for a tread having the following configuration.

図１０は、第３の実施形態に係る踏板の構成を示す図である。
第３の実施形態に係る踏板２Ａは、図１０に示すように、第１抵抗接点２０１、第２抵抗接点２０２、第１平接点２１１、第２平接点２１２のみを備える。すなわち、第１、第２の実施形態に係る踏板２から第３平接点２１３及び第４平接点２１４が排された構成である。この踏板２Ａを備える車種判別装置１００は、第１抵抗接点２０１または第１平接点２１１と、第２抵抗接点２０２または第２平接点２１２と、による踏み付け検出時刻の時間差に基づいて車両の前進・後進を判別可能とする。
本実施形態に係る異常監視装置１は、踏板２Ａに対し、第１、第２の実施形態と同等の処理フロー（ただし、第３平接点２１３及び第４平接点２１４についての判定処理を除く）により、第１抵抗接点２０１、第２抵抗接点２０２、第１平接点２１１、第２平接点２１２それぞれの異常の有無を適切に判定することができる。 FIG. 10 is a diagram illustrating a configuration of the tread according to the third embodiment.
As shown in FIG. 10, the tread 2A according to the third embodiment includes only a first resistance contact 201, a second resistance contact 202, a first flat contact 211, and a second flat contact 212. That is, the third flat contact 213 and the fourth flat contact 214 are removed from the tread 2 according to the first and second embodiments. The vehicle type discriminating apparatus 100 including the step board 2A is configured to advance the vehicle based on the time difference in the tread detection time between the first resistance contact 201 or the first flat contact 211 and the second resistance contact 202 or the second flat contact 212. It is possible to determine reverse.
The abnormality monitoring device 1 according to the present embodiment has a processing flow equivalent to that of the first and second embodiments for the tread 2A (except for the determination process for the third flat contact 213 and the fourth flat contact 214). Accordingly, it is possible to appropriately determine whether each of the first resistance contact 201, the second resistance contact 202, the first flat contact 211, and the second flat contact 212 is abnormal.

図１１は、第４の実施形態に係る踏板の構成を示す図である。
第４の実施形態に係る踏板２Ｂは、図１１に示すように、第１抵抗接点２０１、第２抵抗接点２０２及び第１平接点２１１の３つの踏圧検知センサのみを備える。第１抵抗接点２０１及び第２抵抗接点２０２は、車線方向に同じ位置に配されており、さらに、各々が車線幅の右側１／２と左側１／２に伸びて配されている。また、第１平接点２１１は、第１抵抗接点２０１及び第２抵抗接点２０２の車線方向前方側の位置で、第１抵抗接点２０１及び第２抵抗接点２０２の両方の全範囲と車線幅方向に重なるように伸びて配されている。
この踏板２Ｂでは、第１抵抗接点２０１が、通行する四輪車の右側のタイヤにより踏まれた車線幅方向の位置及び範囲に応じた検出信号を出力するとともに、第２抵抗接点２０２が、当該四輪車の左側のタイヤに踏まれた車線幅方向の位置及び範囲に応じた検出信号を出力する。また、この踏板２Ｂを備える車種判別装置１００は、第１抵抗接点２０１（第２抵抗接点２０２）と第１平接点２１１との踏み付け検出時刻の時間差に基づいて車両の前進・後進を判別可能とする。 FIG. 11 is a diagram illustrating the configuration of the tread according to the fourth embodiment.
As shown in FIG. 11, the tread board 2 </ b> B according to the fourth embodiment includes only three treading pressure detection sensors including a first resistance contact 201, a second resistance contact 202, and a first flat contact 211. The first resistance contact 201 and the second resistance contact 202 are arranged at the same position in the lane direction, and are further extended to the right half and the left half of the lane width. Further, the first flat contact 211 is a position on the front side in the lane direction of the first resistance contact 201 and the second resistance contact 202, in the entire range of both the first resistance contact 201 and the second resistance contact 202 and in the lane width direction. It is stretched so as to overlap.
In this tread 2B, the first resistance contact 201 outputs a detection signal corresponding to the position and range in the lane width direction stepped on by the right tire of the passing four-wheeled vehicle, and the second resistance contact 202 A detection signal corresponding to the position and range in the lane width direction that is stepped on the left tire of the four-wheeled vehicle is output. In addition, the vehicle type determination device 100 including the tread 2B can determine whether the vehicle is moving forward or backward based on the time difference between the tread detection times of the first resistance contact 201 (second resistance contact 202) and the first flat contact 211. To do.

本実施形態に係る異常監視装置１の異常判定部１１は、踏板２Ｂの第１抵抗接点２０１、第２抵抗接点２０２の何れかで踏み付けが検出された場合には、常に、第１平接点２１１において踏み付けが検出されたか否かを判定し、検出されていない場合には、第１平接点２１１を異常と判定する。   The abnormality determination unit 11 of the abnormality monitoring device 1 according to the present embodiment always detects the first flat contact 211 when the stepping is detected at either the first resistance contact 201 or the second resistance contact 202 of the tread 2B. It is determined whether or not stepping has been detected in step S1, and if not, the first flat contact 211 is determined to be abnormal.

なお、上述の異常監視装置１は、内部にコンピュータシステムを有している。そして、上述した異常監視装置１の各処理の過程は、プログラムの形式でコンピュータ読み取り可能な記録媒体に記憶されており、このプログラムをコンピュータが読み出して実行することによって、上記処理が行われる。ここで、コンピュータ読み取り可能な記録媒体とは、磁気ディスク、光磁気ディスク、ＣＤ−ＲＯＭ（Compact Disk Read Only Memory）または半導体メモリ等をいう。また、このコンピュータプログラムを通信回線によってコンピュータに配信し、この配信を受けたコンピュータが当該プログラムを実行するようにしても良い。   The abnormality monitoring apparatus 1 described above has a computer system inside. Each process of the abnormality monitoring apparatus 1 described above is stored in a computer-readable recording medium in the form of a program, and the above process is performed by the computer reading and executing the program. Here, the computer-readable recording medium refers to a magnetic disk, a magneto-optical disk, a CD-ROM (Compact Disk Read Only Memory), a semiconductor memory, or the like. Alternatively, the computer program may be distributed to the computer via a communication line, and the computer that has received the distribution may execute the program.

以上、本発明のいくつかの実施形態を説明したが、これらの実施形態は、例として提示したものであり、発明の範囲を限定することは意図していない。これら実施形態は、その他の様々な形態で実施されることが可能であり、発明の要旨を逸脱しない範囲で種々の省略、置き換え、変更を行うことができる。これら実施形態やその変形は、発明の範囲や要旨に含まれると同様に、特許請求の範囲に記載された発明とその均等の範囲に含まれるものとする。   As mentioned above, although some embodiment of this invention was described, these embodiment is shown as an example and is not intending limiting the range of invention. These embodiments can be implemented in various other forms, and various omissions, replacements, and changes can be made without departing from the scope of the invention. These embodiments and modifications thereof are included in the invention described in the claims and equivalents thereof, as long as they are included in the scope and gist of the invention.

１・・・異常監視装置
１０・・・検出信号取得部
１１・・・異常判定部
２・・・踏板
２０１・・・第１抵抗接点
２０２・・・第２抵抗接点
２１１・・・第１平接点
２１２・・・第２平接点
２１３・・・第３平接点
２１４・・・第４平接点
１００・・・車種判別装置
１０１・・・料金収受施設
３・・・車両分離器
４・・・車線
５ａ・・・発進制御機
５ｂ・・・通行券自動発行機
６０・・・四輪車
６１・・・二輪車 DESCRIPTION OF SYMBOLS 1 ... Abnormality monitoring apparatus 10 ... Detection signal acquisition part 11 ... Abnormality determination part 2 ... Footboard 201 ... 1st resistance contact 202 ... 2nd resistance contact 211 ... 1st plane Contact 212 ... 2nd flat contact 213 ... 3rd flat contact 214 ... 4th flat contact 100 ... Vehicle type discrimination device 101 ... Toll collection facility 3 ... Vehicle separator 4 ... Lane 5a ... Start controller 5b ... Automatic ticket issuing machine 60 ... Four-wheeled vehicle 61 ... Two-wheeled vehicle

Claims (6)

車線を走行する四輪車の左右一方側のタイヤにのみ踏まれるように車線幅方向の所定範囲に渡って伸びて配されて、踏まれた際の電気抵抗の変化に応じて当該踏まれた位置及びタイヤ幅を検出可能な第１抵抗接点と、
前記四輪車の左右他方側のタイヤにのみ踏まれるように、前記第１抵抗接点とは異なる車線幅方向の範囲に渡って伸びて配されて、踏まれた際の電気抵抗の変化に応じて当該踏まれた位置及びタイヤ幅を検出可能な第２抵抗接点と、
前記第１抵抗接点または前記第２抵抗接点の少なくとも一方と車線方向に異なる位置に、車線幅方向に重なる範囲を設けて配されて、踏まれたか否かを検出可能な一つ以上の平接点と、
前記四輪車の進入を検知する検知器と、
を備える踏板の異常監視装置であって、
前記第１抵抗接点、前記第２抵抗接点、前記平接点の各々から出力される検出信号を取得すると共に、前記検知器からの出力される検出信号を取得する検出信号取得部と、
前記取得した各検出信号に基づいて、踏み付けが検出された前記第１抵抗接点、前記第２抵抗接点、及び前記平接点の何れか一つと車線幅方向の範囲が重なる他の前記第１抵抗接点、前記第２抵抗接点、前記平接点の何れか一つにおいて踏み付けが検出されたか否かを判定し、検出されていない場合には、当該他の前記第１抵抗接点、前記第２抵抗接点、及び前記平接点の何れか一つを異常と判定し、前記検知器により前記四輪車の進入が検知されているにもかかわらず、前記第１抵抗接点及び前記第２抵抗接点のいずれもが踏み付けを検知しない場合には、前記第１抵抗接点と前記第２抵抗接点とのうち少なくとも一方を異常と判定する異常判定部と、
を備える異常監視装置。 The vehicle is stretched over a predetermined range in the lane width direction so that it can be stepped only on the left and right tires of a four-wheeled vehicle traveling in the lane, and is stepped on according to the change in electrical resistance when stepped on A first resistance contact capable of detecting position and tire width ;
It extends over a range in the lane width direction different from the first resistance contact so that it can be stepped only on the left and right tires of the four-wheeled vehicle, and responds to changes in electrical resistance when stepped on. A second resistance contact capable of detecting the stepped position and the tire width ;
One or more flat contacts arranged at a position different from at least one of the first resistance contact or the second resistance contact in the lane direction so as to be overlapped in the lane width direction and capable of detecting whether or not the pedal is stepped on When,
A detector for detecting the entry of the four-wheeled vehicle;
A treadboard abnormality monitoring device comprising:
A detection signal acquisition unit for acquiring a detection signal output from each of the first resistance contact, the second resistance contact, and the flat contact, and acquiring a detection signal output from the detector ;
Another first resistance contact in which a range in the lane width direction overlaps any one of the first resistance contact, the second resistance contact, and the flat contact in which the stepping is detected based on each of the acquired detection signals. , It is determined whether or not stepping is detected in any one of the second resistance contact and the flat contact, and if not, the other first resistance contact, the second resistance contact, And any one of the flat contacts is determined to be abnormal, and both the first resistance contact and the second resistance contact are detected despite the detection of the entry of the four-wheeled vehicle by the detector. In the case where no treading is detected, an abnormality determination unit that determines that at least one of the first resistance contact and the second resistance contact is abnormal ,
An abnormality monitoring device comprising: 前記踏板は、
前記第１抵抗接点と前記第２抵抗接点とが車線方向に異なる位置に配されており、
前記平接点として、
前記第１抵抗接点と車線方向に同じ位置で、車線幅方向の前記第１抵抗接点が設けられていない範囲に渡って伸びて配される第１平接点と、
前記第２抵抗接点と車線方向に同じ位置で、車線幅方向の前記第２抵抗接点が設けられていない範囲に渡って伸びて配される第２平接点と、
を備え、
前記異常判定部は、
前記第１抵抗接点のうち前記第２平接点と車線幅方向に重なる範囲内において踏み付けが検出された場合に、前記第２平接点の異常の有無を判定し、
前記第２抵抗接点のうち前記第１平接点と車線幅方向に重なる範囲内において踏み付けが検出された場合に、前記第１平接点の異常の有無を判定する
ことを特徴とする請求項１に記載の異常監視装置。 The tread is
The first resistance contact and the second resistance contact are arranged at different positions in the lane direction,
As the flat contact,
A first flat contact arranged at the same position in the lane direction as the first resistance contact and extending over a range in which the first resistance contact in the lane width direction is not provided;
A second flat contact arranged at the same position in the lane direction as the second resistance contact and extending over a range where the second resistance contact in the lane width direction is not provided;
With
The abnormality determination unit
When stepping is detected within the first resistance contact within a range overlapping the second flat contact in the lane width direction, the presence or absence of an abnormality of the second flat contact is determined,
The presence or absence of an abnormality of the first flat contact is determined when a stepping is detected within a range of the second resistance contact that overlaps the first flat contact in a lane width direction. The abnormality monitoring device described. 前記第１抵抗接点と前記第２抵抗接点とは、前記車線の車線幅方向中央に設定される中央範囲において車線幅方向に重なるように配されており、
前記異常判定部は、
前記第１抵抗接点及び前記第２抵抗接点の両方において、互いの前記重なる範囲で踏み付けが検出された場合に、前記第１平接点及び前記第２平接点を異常と判定しない
ことを特徴とする請求項２に記載の異常監視装置。 The first resistance contact and the second resistance contact are arranged so as to overlap in the lane width direction in a center range set at the lane width direction center of the lane,
The abnormality determination unit
The first flat contact and the second flat contact are not determined to be abnormal when both the first resistance contact and the second resistance contact are detected to be stepped in the overlapping range. The abnormality monitoring device according to claim 2. 前記踏板は、
前記平接点として、さらに、
前記第１抵抗接点及び前記第２抵抗接点と車線方向に異なる位置で、当該第１抵抗接点及び第２抵抗接点の車線幅方向の全範囲に重なるように伸びて配される第３平接点と、
を備え、
前記異常判定部は、
前記第１抵抗接点または前記第２抵抗接点の少なくとも何れか一つで踏み付けが検出された場合に、前記第３平接点の異常の有無を検出する
ことを特徴とする請求項２または請求項３に記載の異常監視装置。 The tread is
As the flat contact,
A third flat contact extending at a position different from the first resistance contact and the second resistance contact in the lane direction so as to overlap the entire range of the first resistance contact and the second resistance contact in the lane width direction; ,
With
The abnormality determination unit
The presence or absence of an abnormality of the third flat contact is detected when stepping is detected at at least one of the first resistance contact or the second resistance contact. The abnormality monitoring device described in 1. 車線を走行する四輪車の左右一方側のタイヤにのみ踏まれるように車線幅方向の所定範囲に渡って伸びて配されて、踏まれた際の電気抵抗の変化に応じて当該踏まれた位置及びタイヤ幅を検出可能な第１抵抗接点と、
前記四輪車の左右他方側のタイヤにのみ踏まれるように、前記第１抵抗接点とは異なる車線幅方向の範囲に渡って伸びて配されて、踏まれた際の電気抵抗の変化に応じて当該踏まれた位置及びタイヤ幅を検出可能な第２抵抗接点と、
前記第１抵抗接点または前記第２抵抗接点の少なくとも一方と車線方向に異なる位置に、車線幅方向に重なる範囲を設けて配されて、踏まれたか否かを検出可能な一つ以上の平接点と、
前記四輪車の進入を検知する検知器と、
を備える踏板の異常監視方法であって、
検出信号取得部が、前記第１抵抗接点、前記第２抵抗接点、前記平接点の各々から出力される検出信号を取得と共に、前記検知器からの出力される検出信号を取得し、
異常判定部が、前記取得した各検出信号に基づいて、踏み付けが検出された前記第１抵抗接点、前記第２抵抗接点、及び前記平接点の何れか一つと車線幅方向の範囲が重なる他の前記第１抵抗接点、前記第２抵抗接点、前記平接点の何れか一つにおいて踏み付けが検出されたか否かを判定し、検出されていない場合には、当該他の前記第１抵抗接点、前記第２抵抗接点、及び前記平接点の何れか一つを異常と判定判定し、前記検知器により前記四輪車の進入が検知されているにもかかわらず、前記第１抵抗接点及び前記第２抵抗接点のいずれもが踏み付けを検知しない場合には、前記第１抵抗接点と前記第２抵抗接点とのうち少なくとも一方を異常と判定する
ことを特徴とする異常監視方法。 The vehicle is stretched over a predetermined range in the lane width direction so that it can be stepped only on the left and right tires of a four-wheeled vehicle traveling in the lane, and is stepped on according to the change in electrical resistance when stepped on A first resistance contact capable of detecting position and tire width ;
It extends over a range in the lane width direction different from the first resistance contact so that it can be stepped only on the left and right tires of the four-wheeled vehicle, and responds to changes in electrical resistance when stepped on. A second resistance contact capable of detecting the stepped position and the tire width ;
One or more flat contacts arranged at a position different from at least one of the first resistance contact or the second resistance contact in the lane direction so as to be overlapped in the lane width direction and capable of detecting whether or not the pedal is stepped on When,
A detector for detecting the entry of the four-wheeled vehicle;
A treadboard abnormality monitoring method comprising:
The detection signal acquisition unit acquires the detection signal output from each of the first resistance contact, the second resistance contact, and the flat contact, and acquires the detection signal output from the detector,
The abnormality determination unit, based on each of the acquired detection signals, has another range in which the range in the lane width direction overlaps any one of the first resistance contact, the second resistance contact, and the flat contact where the stepping is detected. It is determined whether or not stepping is detected in any one of the first resistance contact, the second resistance contact, and the flat contact. If not, the other first resistance contact, Either one of the second resistance contact and the flat contact is determined to be abnormal, and the first resistance contact and the second contact are detected even though the detector detects the entry of the four-wheeled vehicle. An abnormality monitoring method comprising: determining that at least one of the first resistance contact and the second resistance contact is abnormal when none of the resistance contacts detects the stepping . 車線を走行する四輪車の左右一方側のタイヤにのみ踏まれるように車線幅方向の所定範囲に渡って伸びて配されて、踏まれた際の電気抵抗の変化に応じて当該踏まれた位置及びタイヤ幅を検出可能な第１抵抗接点と、
前記四輪車の左右他方側のタイヤにのみ踏まれるように、前記第１抵抗接点とは異なる車線幅方向の範囲に渡って伸びて配されて、踏まれた際の電気抵抗の変化に応じて当該踏まれた位置及びタイヤ幅を検出可能な第２抵抗接点と、
前記第１抵抗接点または前記第２抵抗接点の少なくとも一方と車線方向に異なる位置に、車線幅方向に重なる範囲を設けて配されて、踏まれたか否かを検出可能な一つ以上の平接点と、
前記四輪車の進入を検知する検知器と、
を備える踏板の異常監視装置のコンピュータを、
前記第１抵抗接点、前記第２抵抗接点、前記平接点の各々から出力される検出信号を取得すると共に、前記検知器からの出力される検出信号を取得する検出信号取得手段、
前記取得した各検出信号に基づいて、踏み付けが検出された前記第１抵抗接点、前記第２抵抗接点、及び前記平接点の何れか一つと車線幅方向の範囲が重なる他の前記第１抵抗接点、前記第２抵抗接点、及び前記平接点の何れか一つにおいて踏み付けが検出されたか否かを判定し、検出されていない場合には、当該他の接点を異常と判定判定し、前記検知器により前記四輪車の進入が検知されているにもかかわらず、前記第１抵抗接点及び前記第２抵抗接点のいずれもが踏み付けを検知しない場合には、前記第１抵抗接点と前記第２抵抗接点とのうち少なくとも一方を異常と判定する異常判定手段、
として機能させるプログラム。 The vehicle is stretched over a predetermined range in the lane width direction so that it can be stepped only on the left and right tires of a four-wheeled vehicle traveling in the lane, and is stepped on according to the change in electrical resistance when stepped on A first resistance contact capable of detecting position and tire width ;
It extends over a range in the lane width direction different from the first resistance contact so that it can be stepped only on the left and right tires of the four-wheeled vehicle, and responds to changes in electrical resistance when stepped on. A second resistance contact capable of detecting the stepped position and the tire width ;
One or more flat contacts arranged at a position different from at least one of the first resistance contact or the second resistance contact in the lane direction so as to be overlapped in the lane width direction and capable of detecting whether or not the pedal is stepped on When,
A detector for detecting the entry of the four-wheeled vehicle;
A treadboard abnormality monitoring device computer comprising:
A detection signal acquisition means for acquiring a detection signal output from each of the first resistance contact, the second resistance contact, and the flat contact, and acquiring a detection signal output from the detector ;
Another first resistance contact in which a range in the lane width direction overlaps any one of the first resistance contact, the second resistance contact, and the flat contact in which the stepping is detected based on each of the acquired detection signals. Determining whether or not stepping has been detected at any one of the second resistance contact and the flat contact, and if not, determining that the other contact is abnormal, and determining the detector When the entry of the four-wheeled vehicle is detected by the above-mentioned, if neither the first resistance contact nor the second resistance contact detects the stepping, the first resistance contact and the second resistance An abnormality determining means for determining at least one of the contacts as abnormal ,
Program to function as.

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