(Extracted from wipo)
Patent application title: ON-VEHICLE CONTROL DEVICE AND HOME DOOR CONTROL SYSTEM
Technical field
[0001]
　The present invention relates to a technique for opening a vehicle door of a train and a platform door of a station.
Background art
[0002]
　In recent years, installation of platform doors on station platforms has become popular. When the positions of all the vehicle doors and the positions of the platform doors of the train that has entered the platform coincide with each other, the opening / closing operation of the vehicle door and the platform door is performed. In order to match the positions of all vehicle doors and platform doors of a train, it was necessary to stop the train at a defined position on the station platform.
[0003]
　In Patent Literature 1, when a train cannot be stopped at a predetermined position of a station platform, for example, when the train stops beyond a predetermined position of a station platform, the train can be determined by performing back inching. A technique for moving to a different position is disclosed.　
Prior art documents
Patent Literature
[0004]
Patent Document 1: Japanese Patent Application Laid-Open No. 2002-67958
Summary of the Invention
Problems to be solved by the invention
[0005]
　However, in the said patent document 1, it was necessary to move a train to the defined position by back inching, and there existed a problem that it took a long time to open a vehicle door.
[0006]
　The present invention has been made to solve the above-described problems, and it is an object of the present invention to perform the time required to open a vehicle door in a shorter time than before when the vehicle does not stop at a predetermined position of a station platform. It is what.
Means for solving the problem
[0007]
　The on-board control device of the first invention is provided on a train, and a ground element information storage unit that stores information on a ground element arranged on a track on which the train travels, and a train position detection unit that detects the position of the train And the train stop position specifying unit for specifying the train stop position based on the information on the ground element stored in the ground element information storage unit and the train position information detected by the train position detection unit, and the specified train stop position. The vehicle door specifying part which specifies the vehicle door which a train opens and closes originally, and the vehicle door information output part which outputs the vehicle door information by which the train was specified are provided.
[0008]
　The platform door control system according to the second aspect of the present invention is a ground unit information storage unit that stores information on a ground unit disposed on a track on which the train travels, and a train position detection unit that detects the position of the train. And the train stop position specifying unit for specifying the train stop position based on the information on the ground element stored in the ground element information storage unit and the train position information detected by the train position detection unit, and the specified train stop position. A vehicle door control unit having a vehicle door specifying unit for specifying a vehicle door to be opened / closed by a train, a vehicle door information output unit for outputting vehicle door information for the train specified, and a vehicle door information output unit It is provided with a platform door control device that receives the output vehicle door information and controls the platform door installed at the station.
The invention's effect
[0009]
　The on-vehicle control device according to the present invention is provided in a train and stores a ground element information storage unit that stores information of a ground element arranged on a track on which the train travels, and a train position detection unit that detects the position of the train. The train stop position specifying unit for specifying the train stop position and the specified train stop position based on the information on the ground unit stored in the ground unit information storage unit and the train position information detected by the train position detection unit And a vehicle door information output unit for outputting the vehicle door information for the train specified by the vehicle door specifying unit for specifying the vehicle door to be opened and closed by the train. In this case, the time until the vehicle door is opened can be shortened compared to the conventional method.
[0010]
　A platform door control system according to the present invention includes a ground unit information storage unit that is provided in a train and stores ground unit information disposed on a track on which the train travels, and a train position detection unit that detects the position of the train. The train stop position specifying unit for specifying the train stop position and the specified train stop position based on the information on the ground unit stored in the ground unit information storage unit and the train position information detected by the train position detection unit And a vehicle door information output unit for outputting vehicle door information for specifying the train, and an output from the vehicle door information output unit. The vehicle door information is received and the platform door control device for controlling the platform door installed at the station is provided, so that the vehicle is not stopped at a predetermined position on the platform of the station. The time to open the A can be carried out in a shorter time than before.
Brief Description of Drawings
[0011]
FIG. 1 is a diagram showing a configuration of a platform door control system according to a first embodiment.
FIG. 2 is a diagram illustrating a vehicle configuration of the platform door control system according to the first embodiment.
FIG. 3 is a diagram illustrating a configuration of an on-vehicle control device of the platform door control system according to the first embodiment.
FIG. 4 is a diagram illustrating a configuration of a home door control device of the home door control system according to the first embodiment.
FIG. 5 is a diagram showing an example of the configuration of the platform door control system according to the first embodiment.
FIG. 6 is a diagram showing an example of the configuration of the platform door control system according to the first embodiment.
FIG. 7 is a diagram showing an example of a vehicle door opening / closing pattern of the platform door control system according to the first embodiment.
FIG. 8 is a diagram illustrating an example of a home door opening / closing pattern of the platform door control system according to the first embodiment.
FIG. 9 is a diagram illustrating a configuration of a platform door control system according to a second embodiment.
FIG. 10 is a diagram illustrating a configuration of an on-vehicle control device of a platform door control system according to a second embodiment.
FIG. 11 is a diagram illustrating a configuration of a platform door control system according to a third embodiment.
FIG. 12 is a diagram illustrating a configuration of an on-board control device of a platform door control system according to a third embodiment.
FIG. 13 is a diagram illustrating a configuration of a platform door control system according to a fourth embodiment.
FIG. 14 is a diagram illustrating a configuration of an on-vehicle control device of a platform door control system according to a fourth embodiment.
FIG. 15 is a diagram showing another configuration of the platform door control system according to the first embodiment.
FIG. 16 is a diagram illustrating another configuration of the vehicle of the platform door control system according to the first embodiment.
FIG. 17 is a diagram illustrating another configuration of the vehicle of the platform door control system according to the first embodiment.
FIG. 18 is a diagram illustrating a general configuration example of hardware for realizing the platform door control system according to the first to fourth embodiments.
BEST MODE FOR CARRYING OUT THE INVENTION
[0012]
Embodiment 1
　FIG. 1 is a diagram showing a configuration of a platform door control system 1 according to Embodiment 1 of the present invention. A platform door control system 1 shown in FIG. 1 includes a platform door device 51 installed on a platform of a station, a platform door control device 50 for controlling the platform door device 51, and a vehicle (not shown) mounted on the train 11. And an upper control device.
[0013]
　The track 9 is a structure on the roadbed on which the train 11 travels. On the orbit 9, ground elements having IDs (ground element information) are set at intervals. In FIG. 1, the first ground element 5 (ground element P0) is installed at a predetermined train stop position. In addition, a second ground element 6 (ground element P1) is installed in front of the ground element P0 installed at the train stop position with respect to the traveling direction of the train 11 (the direction of arrow 8 in FIG. 1).
[0014]
　The train 11 includes a vehicle upper element 14 capable of communicating with a ground element installed on the track 9 and a vehicle door opening / closing part 12 for passengers to get on and off.
[0015]
　The home door device 51 is installed to prevent a passenger at the station from falling on the track. The home door device 51 includes a home door door pocket portion 52 fixedly installed on a platform of a station and a home door opening / closing portion 53 that can be opened and closed. The platform door device 51 is interlocked with the train door when the train 11 stops at the station. When the train 11 stops at a predetermined position, the platform door opening / closing unit 53 and the vehicle door opening / closing unit 12 of the train 11 are connected. It opens and closes, and it is possible to get on and off the train 11.
[0016]
　The home door control device 50 monitors the state of the home door device 51 and the stop position of the train 11, and performs opening / closing control of the home door opening / closing unit 53 of the home door device 51. The home door control device 50 is connected to the ground unit P0.
[0017]
　The opening / closing operation | movement of the home door apparatus 51 is demonstrated. When the train 11 stops at a predetermined stop position, the positions of the vehicle upper element 14 and the ground element P0 overlap. Here, the positional relationship in which the vehicle upper element 14 is positioned on the ground element and the ground element and the vehicle upper element 14 are communicable is expressed as the position of the vehicle element 14 and the ground element overlap. When the stop of the train 11 is confirmed in a state where the position of the vehicle upper element 14 and the ground element P0 overlap, the vehicle door opening / closing part 12 and the home door opening / closing part 53 can be opened in conjunction with each other. For example, when it is confirmed that the train 11 has stopped at a predetermined stop position, a signal of a platform door opening command is transmitted from the train 11 to the platform door control device 50 via the vehicle upper unit 14 and the ground unit P0, The home door opening / closing part 53 is opened. Thereafter, a reply signal is transmitted from the platform door control device 50 to the train 11 via the ground element P0 and the vehicle upper element 14, and when the train 11 receives the reply signal, the vehicle door opening / closing part 12 is opened and passengers can get on and off. It becomes.
[0018]
　FIG. 2 is a diagram illustrating a configuration of the vehicle of the train 11 of the platform door control system 1 according to the first embodiment. Note that FIG. 2 shows only devices necessary for the description of the home door control system 1 according to the first embodiment, but other devices and functions may be mounted.
[0019]
　The train 11 shown in FIG. 2 is provided on the on-board control device 10 installed in the train 11, the on-board child 14 provided on the outer surface of the bottom of the vehicle and capable of communicating with the approaching ground child, and the axle of the train 11. A speed generator 13 is provided. The on-board control device 10 is connected to the speed generator 13 and the on-board child 14. The on-board control device 10 includes a train control unit 101 connected to the speed generator 13, a ground control information receiving unit 102 connected to the train control unit 101 and the on-board unit 14, and a memory connected to the train control unit 101. Part 103.
[0020]
　The storage unit 103 stores an on-board database (not shown). Information on the track 9 (track information) on which the train 11 travels is stored in the on-board database. The information on the trajectory 9 includes the ground unit installation km information (ground unit position information).
[0021]
　The vehicle upper element 14 detects the ID of the ground element when passing over the ground element (when it overlaps the vehicle element 14 and the ground element). This ID is received by the ground element information receiving unit 102 as ground element information. This ground child information is output from the ground child information receiving unit 102 to the train control unit 101.
[0022]
　The speed generator 13 generates a pulse corresponding to the number of rotations of the wheels, calculates the travel amount and speed of the own train, and outputs it to the train control unit 101.
[0023]
　The train control unit 101 includes a train position detection unit 104 (described later) that detects the position of the own train. Based on the movement amount of the own train output from the speed generator 13 and the ground position information stored in the storage unit 103, the train position detection unit 104 calculates the position of the own train. The position of the own train calculated here is handled as train position information. The train position information includes kilometer information, up / down line information, and number line information in the station. Moreover, the train speed information indicating the speed of the own train is output from the speed generator 13 to the train control unit 101 together with the travel amount of the own train.
[0024]
　The train position detection unit 104 detects the position of the ground unit based on the ground unit information from the ground unit information receiving unit 102, and uses the position of the ground unit as a reference position. And the train control part 101 counts the pulse number produced | generated by the electric power generation of the speed generator 13, and calculates a moving distance using a wheel diameter and the electric power generation pulse number per rotation. The absolute position of the own train on the track 9 is determined by combining the reference position and the calculated movement distance.
[0025]
　Next, a case where the vehicle stops at a predetermined position such as a station will be described. The train control unit 101 continuously detects the position of the own train and the train speed at a constant cycle, and generates a speed check pattern that decelerates so that the own train stops at the train stop position stored in the storage unit 103 in advance. To do. The train control unit 101 detects the current position and the train speed at regular intervals, adjusts the braking force while comparing the detected current position and train speed with the speed check pattern, and decelerates according to the speed check pattern. If the train position is correctly detected and the own train is decelerated with the determined braking force in response to the brake command of the train control unit 101, it is possible to stop at a predetermined position such as a station. .
[0026]
　However, if an idle or slip occurs past the ground element P1 provided just before the ground element P0 provided at a predetermined train stop position with respect to the traveling direction of the train 11, the train is correctly trained. Position detection may not be performed.
[0027]
　In addition, when the brake control command of the train control unit 101 is not correctly responded, the own train may not be decelerated with the determined brake force. In such a case, deceleration is not performed according to the speed check pattern. When the speed check pattern is not followed, the train control unit 101 changes the brake command and controls to follow the speed check pattern. However, if the amount of difference between the brake command of the train control unit 101 and the actual braking force increases, control according to the speed check pattern may not be possible.
[0028]
　If the train position is not correctly detected or if the train controller 101 cannot respond correctly to the brake command, the train cannot be stopped at the set train stop position, and the train set for the traveling direction of the train 11 There is a case where the vehicle stops before the stop position or stops after the train stop position determined with respect to the traveling direction of the train 11. In such a case, since the positions of the vehicle upper member 14 and the ground child P0 do not overlap, the platform door device 51 and the door of the train 11 cannot be opened and closed at the station where the platform door device 51 is installed. Therefore, conventionally, an inching process of whether the train 11 is moved forward from the stop position or moved backward is necessary.
[0029]
　FIG. 3 is a diagram illustrating a configuration of the on-board controller 10 of the train 11 of the platform door control system 1 according to the first embodiment. FIG. 3 shows only the devices required for the description of the home door control system 1 according to the first embodiment, but other devices and functions may be mounted.
[0030]
　The on-board controller 10 shown in FIG. 3 includes a ground unit information receiving unit 102 connected to the vehicle unit 14, a ground unit information storage unit 105 storing ground unit information, a speed generator 13, and a ground unit. The train position detection unit 104 connected to the information receiving unit 102 and the ground unit information storage unit 105, the determination unit 106 connected to the train position detection unit 104 and the ground unit information storage unit 105, and the determination unit 106 Train stop position specifying unit 107, vehicle door specifying unit 108 connected to train stop position specifying unit 107, vehicle door information output unit connected to vehicle door specifying unit 108 and connected to the outside of onboard control device 10 109.
[0031]
　The ground element information receiving unit 102 receives information transmitted from the ground element via the vehicle element 14.
[0032]
　The ground element information storage unit 105 stores information related to the ground element in advance, and the information related to the ground element includes installation distance information (ground element position information) of the ground element. The ground unit information storage unit 105 may be configured by a storage unit different from the storage unit 103 described above, or the storage unit 103 may include the ground unit information storage unit 105.
[0033]
　The train position detection unit 104 constitutes a part of the train control unit 101 as described above. The train position detection unit 104 calculates the position of the own train based on the movement amount of the own train output from the speed generator 13 and the ground child position information stored in the ground child information storage unit 105.
[0034]
　The determination unit 106 detects whether or not the own train has stopped based on the train speed information output from the train control unit 101. For example, if the train speed information is 0.5 km / h or less, the train is stopped. When it is detected that the own train has stopped, it is determined whether or not the predetermined train stop position has been exceeded based on the most recently received ground element information.
[0035]
　The train stop position specifying unit 107 specifies the position where the own train stops based on the train position information calculated by the train position detecting unit 104 and the ground child position information stored in the ground child information storage unit 105. Further, the train stop position specifying unit 107 may have the function of the determination unit 106. The specified train stop position is output to the vehicle door specifying unit 108.
[0036]
　Based on the train stop position specified by the train stop position specifying unit 107, the vehicle door specifying unit 108 specifies the vehicle door open / close unit 12 to be opened / closed among the vehicle door open / close units 12 provided in the own train, It is door information. The identified vehicle door information is output to the vehicle door information output unit 109.
[0037]
　The vehicle door information output unit 109 outputs vehicle door information specifying the door to be opened / closed by the vehicle door specifying unit 108 to the outside of the on-board controller 10, and the vehicle door opening / closing unit 12 corresponding to the output vehicle door information is opened / closed. It becomes possible to do. When the home door device 51 is installed, the specified vehicle door information is output to the home door control device 50 via the vehicle upper member 14 and the ground child P0.
[0038]
　FIG. 4 is a diagram illustrating a configuration of the platform door control device 50 of the platform door control system 1 according to the first embodiment. FIG. 4 shows only the devices required for the description of the home door control system 1 according to the first embodiment, but other devices and functions may be mounted.
[0039]
　The home door control device 50 includes an input / output unit 501, a home door specifying unit 502 connected to the input / output unit 501, a home door information output unit 503 connected to the home door specifying unit 502, and a home door specifying unit 502. And a home door storage unit 504 connected to each other.
[0040]
　The input / output unit 501 is connected to the ground unit P0. The vehicle door information output from the train 11 is input. The input vehicle door information is output to the home door specifying unit 502.
[0041]
　The home door specifying unit 502 specifies the home door opening / closing unit 53 to be opened / closed among the home door opening / closing units 53 provided in the home door device 51 connected to the home door control device 50. The identified home door information is output to the home door information output unit 503.
[0042]
　The home door information output unit 503 outputs the home door information specifying the home door to be opened / closed by the home door specifying unit 502 to the home door device 51, so that the specified home door opening / closing unit 53 can be opened and closed.
[0043]
　When the home door opening / closing unit 53 can be opened and closed, a reply signal is output from the input / output unit 501 to the on-board controller 10.
[0044]
　Next, operation | movement of the platform door control system 1 concerning Embodiment 1 is demonstrated. In the description, the determined train stop position is expressed as a train stop target position, and the train stop target position indicates the position of the ground element P0 unless otherwise specified. In addition, a three-car train 11 having three vehicle door opening / closing parts 12 for each vehicle will be described. However, the number of vehicle door opening / closing parts 12 provided in each vehicle and the number of vehicles constituting the composition are arbitrary. is there. Here, the first car, the second car, and the third car are expressed from the front in the traveling direction of the train 11. Moreover, the vehicle door opening / closing part 12 provided in each vehicle is expressed as the first, second, and third from the front with respect to the traveling direction of the train 11. The number of home door opening / closing sections 53 provided in the home door device 51 is arbitrary. Here, it is assumed that three platform door opening / closing sections 53 from the front with respect to the traveling direction of the train 11 form one group, and that there are nine platform door opening / closing sections 53 from the front with respect to the traveling direction of the train 11. In other words, since three groups are one group, there are three groups. In the same group, it is expressed as first, second and third from the front.
[0045]
　(1) A case where the vehicle stops beyond the train stop target position and (2) a case where the vehicle stops without exceeding the train stop target position will be described.
[0046]
　First, (1) will be described. FIG. 5 is a diagram illustrating an example of the configuration of the platform door control system according to the first embodiment, and is a diagram illustrating that the train 11 has stopped beyond a predetermined stop position. The train position detection unit 104 calculates the position of the own train based on the movement amount of the own train output from the speed generator 13 and the ground child position information of the ground child P0 stored in the ground child information storage unit 105. And it outputs to the train stop position specific | specification part 107 as train position information.
[0047]
　The determination unit 106 detects the stop of the own train, and determines that it has stopped beyond the train stop target position because the most recently received ground element information is a signal from the ground element P0.
[0048]
　Based on the train position information calculated by the train position detection unit 104 and the ground child position information of the ground child P0 stored in the ground child information storage unit 105, the train stop position specifying unit 107 determines that the own train is the ground child P0. Determine how long you have stopped. For example, it is specified that the own train has stopped 3 m above ground level P0. The specified train stop position is output to the vehicle door specifying unit 108.
[0049]
　Based on the specified train stop position, the vehicle door specifying unit 108 specifies the vehicle door opening / closing unit 12 to be opened / closed among the vehicle door opening / closing units 12 provided in the own train. For example, if it is 3 m ahead from the ground element P0, it is specified that the vehicle door opening / closing part 12 other than the first vehicle door opening / closing part 12 of the first car is opened and closed, and is output to the vehicle door information output unit 109 as vehicle door information. .
[0050]
　The vehicle door information output unit 109 outputs the specified vehicle door information to the home door control device 50 via the vehicle upper element 14 and the ground element P0.
[0051]
　The home door control device 50 receives the vehicle door information output from the train 11 and specifies the home door opening / closing unit 53 that opens and closes based on the vehicle door information. For example, it is specified that the platform door opening / closing section 53 other than the 3rd group third platform door opening / closing section 53 is opened / closed. After the specified home door opening / closing part 53 is opened, the specified vehicle door opening / closing part 12 is opened, and passengers can get on and off.
[0052]
　In FIG. 5, the first vehicle door opening / closing part 12 of the No. 2 car and the first vehicle door opening / closing part 12 of the No. 3 car are positioned with respect to the traveling direction of the train 11. Are overlapping. If the positions of the vehicle door opening / closing unit 12 and the platform door opening / closing unit 53 overlap and it is difficult to get on and off the passengers when the vehicle door opening / closing unit 12 is opened / closed, it may not be specified as the vehicle door to be opened / closed.
[0053]
　Next, (2) will be described. FIG. 6 is a diagram illustrating an example of the configuration of the platform door control system according to the first embodiment, and illustrates that the train 11 has stopped without exceeding a predetermined stop position. The train position detection unit 104 calculates the position of the own train based on the movement amount of the own train output from the speed generator 13 and the ground child position information of the ground child stored in the ground child information storage unit 105. The train position information is output to the train stop position specifying unit 107.
[0054]
　The determination unit 106 detects the stop of the own train, and the most recently received ground element information is a signal from the ground element P1 and does not receive the signal from the ground element P0, so the train stop target position is not exceeded. Then, it is determined that the operation has stopped between the ground element P1 and the ground element P0.
[0055]
　Based on the train position information calculated by the train position detection unit 104 and the ground child position information of the ground child P1 stored in the ground child information storage unit 105, the train stop position specifying unit 107 determines that the own train is a ground child P0. Identify how long before you stopped. Specifically, since the ground child position information of the ground child P1, the ground child position information of the ground child P0, and the train position information are known, it is possible to specify how far the own train stopped before the ground child P0. It becomes possible. For example, when the distance between the ground element P0 and the ground element P1 is 10 m, if the own train stops beyond the ground element P1 by 7 m, it is specified that the own train has stopped 3 m before the ground element P0. The specified train stop position is output to the vehicle door specifying unit 108.
[0056]
　Based on the specified train stop position, the vehicle door specifying unit 108 specifies the vehicle door opening / closing unit 12 to be opened / closed among the vehicle door opening / closing units 12 provided in the own train. For example, if it is 3 m before the ground element P0, it is specified that the vehicle door opening / closing part 12 other than the third vehicle door opening / closing part 12 of the third car is opened / closed, and is output to the vehicle door information output unit 109 as vehicle door information. .
[0057]
　The vehicle door information output unit 109 outputs the specified vehicle door information to the home door control device 50 via the vehicle upper element 14 and the ground element P0.
[0058]
　The home door control device 50 receives the vehicle door information output from the train 11 and specifies the home door opening / closing unit 53 that opens and closes based on the vehicle door information. For example, it is specified that the platform door opening / closing section 53 other than the first platform door opening / closing section 53 in the group is opened / closed. After the specified home door opening / closing part 53 is opened, the specified vehicle door opening / closing part 12 is opened, and passengers can get on and off.
[0059]
　As described above, in the home door control system 1 according to the first embodiment, the vehicle door opening and closing unit 12 that opens and closes and the home door opening and closing unit 53 that opens and closes are specified regardless of the stop position of the train 11. In addition, it is possible to perform the time until the platform door is opened in a shorter time than before.
[0060]
　Next, identification of the vehicle door opening / closing part 12 to be opened and closed will be described. When the crew member of the train 11 performs an operation of opening or not opening the specific vehicle door opening / closing part 12, the vehicle door opening / closing part 12 to be opened / closed can be specified. The train stop position specified by the train stop position specifying unit 107 may correspond to the vehicle door opening / closing part 12 that opens and closes.
[0061]
　FIG. 7 is a diagram illustrating an example of an opening / closing pattern of the vehicle door opening / closing unit 12 of the train 11 stored in the storage unit 103. In FIG. 7, the parameter “specified train stop position X” indicates the distance from the ground element P0. The value is positive when the ground element P0 is exceeded, and is negative when the robot stops before the ground element P0. The parameter “vehicle door to be opened / closed” indicates the vehicle door opening / closing part 12 to be opened / closed among the vehicle door opening / closing parts 12 provided in the train 11. The car in front of the hyphen shows the car number, and the back of the hyphen shows the door number. For example, “1-3” is the third vehicle door opening / closing part 12 of the first car. The parameter “vehicle door not to be opened / closed” indicates the vehicle door opening / closing portion 12 that is not opened / closed among the vehicle door opening / closing portions 12 provided in the train 11. “None” indicates that there is no vehicle door opening / closing part 12 that does not open and close. Other notations are the same as those described in the parameter “vehicle door to be opened and closed”.
[0062]
　For example, in the case of (1) described above, X = 3 since the ground unit P0 is stopped by exceeding 3 m. Therefore, pattern 2 is selected, and the first vehicle door opening / closing part 12 of the first car is not opened / closed, but the other vehicle door opening / closing parts 12 are opened / closed. Further, in the case of (2) described above, X = −3 because it stops 3 m before the ground element P0. Therefore, the pattern 4 is selected and the third vehicle door opening / closing part 12 of the third car is not opened / closed, but the other vehicle door opening / closing parts 12 are opened / closed.
[0063]
　The vehicle door specifying unit 108 selects a vehicle door opening / closing pattern selection that selects a pattern corresponding to the train stop position specified by the train stop position specifying unit 107 from the opening / closing pattern of the vehicle door opening / closing unit 12 stored in the storage unit 103. The selected vehicle door opening / closing pattern is output to the vehicle door information output unit 109 as vehicle door information. The opening / closing pattern of the vehicle door opening / closing unit 12 may be stored in a storage unit other than the storage unit 103.
[0064]
　Next, identification of the platform door to be opened and closed will be described. The platform door control device 50 can open and close the specific platform door opening / closing section 53 by outputting platform door information corresponding to the vehicle door information output from the train 11.
[0065]
　FIG. 8 is a diagram illustrating an example of an opening / closing pattern of the home door stored in the home door storage unit 504 illustrated in FIG. In FIG. 8, the parameter “vehicle door information” is vehicle door information output from the train 11. The parameter “home door to be opened / closed” indicates the home door opening / closing section 53 to be opened / closed among the home door opening / closing sections 53 provided in the platform door device 51. The hyphen precedes the group and the hyphen after the hyphen. For example, “1-3” means the third platform door opening / closing part 53 of one group. The parameter “home door not to be opened / closed” indicates the home door opening / closing portion 53 that is not opened / closed among the home door opening / closing portions 53 provided in the platform door device 51. None indicates that there is no home door opening / closing part 53 that does not open and close. Other notations are the same as those described in the parameter “home door to open / close”.
[0066]
　When the vehicle door information output from the train 11 is b, pattern 2 is selected as the pattern of the home door to be opened and closed, and the third home door opening / closing portion 53 of the three groups is not opened / closed, but the other home doors The opening / closing part 53 is opened and closed.
[0067]
　The home door specifying unit 502 reads the opening / closing pattern of the home door from the home door storage unit 504, selects a pattern corresponding to the vehicle door information output from the train 11, and specifies the home door opening / closing unit 53 to be opened / closed. The information is output to the platform door information output unit 503. The opening / closing pattern of the home door may be stored in a place other than the home door storage unit 504.
[0068]
　As described above, the on-board controller 10 according to the first embodiment is provided in the train 11 and has a ground unit information storage unit 105 that stores information on the ground units arranged on the track 9 on which the train 11 travels. Based on the train position detection unit 104 that detects the position of the train 11 and the ground position information stored in the ground position information storage section 105 and the train position information detected by the train position detection section 104, the train stop position is specified. A train stop position specifying unit 107 that performs the operation, a vehicle door specifying unit 108 that specifies a vehicle door opening / closing unit 12 that opens and closes the train 11 based on the specified train stop position, and vehicle door information that specifies the train 11 is output. By providing the vehicle door information output unit 109, when the vehicle does not stop at a predetermined position of the station platform, the vehicle door can be opened in a shorter time than before. That.
[0069]
　Further, the on-board control device 10 according to the first embodiment detects that the train 11 has stopped, and a determination unit 106 that determines whether or not the train stop target position has been exceeded based on the ground element information and the train position information. A train stop detection unit, and in the information of the ground unit, the first ground unit information of the first ground unit 5 provided at the train stop target position and the traveling direction of the train 11 from the first ground unit 5 The second ground element information of the second ground element 6 provided immediately before is included, and when the train stop detection unit detects that the train 11 has stopped, the determination unit 106 determines the train position. When the train 11 is located between the position of the first ground element 5 and the position of the second ground element 6 based on the information, the first ground element information, and the second ground element information, the train stop target position is determined. It is determined that it has not exceeded, and the train stops at the position where the train 11 has stopped. By specifying a location, if not stopped at the position where a defined platform of the station, the time to open the vehicle door can be carried out in a shorter time than before.
[0070]
　Further, the on-board controller 10 according to the first embodiment includes a storage unit 103 in which the opening / closing pattern of the vehicle door of the train 11 is stored, and the vehicle door specifying unit 108 is specified by the train stop position specifying unit 107. A vehicle door opening / closing pattern selection unit that selects a vehicle door opening / closing pattern based on the train stop position from the vehicle door opening / closing pattern stored in the storage unit 103, and a vehicle door opening / closing pattern output unit that outputs the selected vehicle door opening / closing pattern. Thus, when the vehicle does not stop at a predetermined position of the station platform, the time until the vehicle door is opened can be shortened in comparison with the conventional method.
[0071]
　In addition, the platform door control system 1 according to the first embodiment is provided in a train 11 and a ground unit information storage unit 105 that stores information on ground units arranged on a track 9 on which the train 11 travels. Train position detection unit 104 that detects the position of the train, and the train stop that identifies the train stop position based on the information on the ground unit stored in the ground unit information storage unit 105 and the train position information detected by the train position detection unit 104 Position specifying unit 107, vehicle door specifying unit 108 for specifying a vehicle door that opens and closes train 11 based on the specified train stop position, and vehicle door information output unit for outputting specified vehicle door information of train 11 The vehicle door control apparatus 10 which has 109, the vehicle door information output from the vehicle door information output part 109, and the home door control which controls the platform door installed in the station A location 50, by providing the can be done if you do not stop at the position where a defined platform of the station, the time to open the vehicle door in a shorter time than before.
[0072]
　In addition, the platform door control system 1 according to the first embodiment includes a determination unit 106 that determines whether or not the on-board controller 10 has exceeded the train stop target position based on the ground unit information and the train position information, and the train A train stop detection unit that detects that the station 11 has stopped, and the ground unit information includes the first ground unit information of the first ground unit 5 provided at the train stop target position and the train from the first ground unit 5. 11 is the case where the second ground element information of the second ground element 6 provided immediately before the traveling direction of 11 is included, and the train stop detection unit detects that the train 11 has stopped, When the train 11 is positioned between the position of the first ground element 5 and the position of the second ground element 6 based on the train position information, the first ground element information, and the second ground element information, the determination unit 106 The train stop target position is not exceeded and the train By 1 identifies a stopped position as the train stopping position, if it does not stop at a position a defined platform of the station, the time to open the vehicle door can be carried out in a shorter time than before.
[0073]
　In the home door control system 1 according to the first embodiment, the on-board controller 10 includes a storage unit 103 in which the opening / closing pattern of the vehicle door of the train 11 is stored, and the vehicle door specifying unit 108 is a train stop position specifying unit. A vehicle door opening / closing pattern selection unit that selects a vehicle door opening / closing pattern based on the train stop position specified in 107 from the vehicle door opening / closing pattern stored in the storage unit 103, and a vehicle that outputs the selected vehicle door opening / closing pattern By including the door opening / closing pattern output unit, when the vehicle does not stop at a predetermined position of the station platform, it is possible to perform the time until the vehicle door is opened in a shorter time than before.
[0074]
　In the platform door control system 1 according to the first embodiment, the platform door control device 50 includes a platform door identifying unit 502 that identifies a door to be opened and closed, and information on the platform door identified by the platform door identifying unit 502. A platform platform of the station by controlling the opening and closing of the platform door based on the information of the identified platform door output from the platform door information output unit 503. When the vehicle does not stop at the predetermined position, the time until the vehicle door is opened can be shortened compared to the conventional method.
[0075]
　In the home door control system 1 according to the first embodiment, the vehicle door information output unit 109 outputs the vehicle door opening / closing pattern as the vehicle door information, and the home door control device 50 stores the home door opening / closing pattern. The door storage unit 504 has the door storage unit 504, and the platform door identification unit 502 identifies the platform door opening / closing pattern corresponding to the vehicle door opening / closing pattern from the platform door storage unit 504, so that the platform does not stop at a predetermined position on the platform In addition, the time until the vehicle door is opened can be shortened compared to the conventional method.
[0076]
　Second Embodiment
　FIG. 9 is a diagram illustrating a configuration of a platform door control system 2 according to a second embodiment. A feature is that a third ground element 7 (ground element PB) is provided in front of the ground element P0 with respect to the traveling direction of the train 11 (the direction of arrow 8 in FIG. 9). The configuration of each device is the same as that of the first embodiment except for those specifically mentioned.
[0077]
　The ground element PB is installed on the track 9 ahead of the ground element P0 with respect to the traveling direction of the train 11. The distance between the ground element P0 and the ground element PB is the length of one vehicle of the train 11. The ground unit PB is connected to the platform door control device 50 in the same manner as the ground unit P0.
[0078]
　FIG. 10 is a diagram illustrating a configuration of the on-board control device 20 of the train 11 of the platform door control system 2 according to the second embodiment.
[0079]
　Operation | movement of the platform door control system 2 concerning Embodiment 2 is demonstrated. Each expression is the same as that in the first embodiment, except as specifically mentioned.
[0080]
　The train position detection unit 104 calculates the position of the own train based on the movement amount of the own train output from the speed generator 13 and the ground child position information of the ground child P0 stored in the ground child information storage unit 105. And it outputs to the train stop position specific | specification part 207 as train position information.
[0081]
　The determination unit 106 detects whether or not the own train has stopped based on the train speed information output from the train control unit 101. For example, when the train speed information is larger than 0.5 km / h, it is assumed that the own train has not stopped. When it is detected that the own train is not stopped, it is determined whether or not the train stop target position has been exceeded based on the most recently received ground element information. Since it is detected that the own train is not stopped and the ground element information received most recently is a signal from the ground element P0, it is determined that the train stop target position is exceeded.
[0082]
　The train stop position specifying unit 207 detects that the own train has not stopped, and if the train stop position specifying unit 207 determines that the train stop target position is exceeded, the train position detection unit 104 calculates the train position information. Based on the ground child position information of the ground child P0 and the ground child position information of the ground child PB stored in the ground child information storage unit 105, the position where the own train stops is specified as the position of the ground child PB.
[0083]
　When the train stop position specifying unit 207 specifies the position where the own train stops as the position of the ground child PB, the train control unit 101 newly generates a speed check pattern so that the own train can stop at the position of the ground child PB. Then, the vehicle decelerates according to the newly generated speed check pattern and stops the own train at the position of the ground unit PB. At this time, the position of the upper child 14 and the ground child PB of the own train overlap.
[0084]
　The train stop position specified by the train stop position specifying unit 207 is output to the vehicle door specifying unit 108.
[0085]
　Based on the specified train stop position, the vehicle door specifying unit 108 specifies a vehicle door to be opened / closed among the vehicle door opening / closing units 12 provided in the own train. Since the distance between the ground element P0 and the ground element PB is equal to one vehicle of the train 11, the vehicle door opening / closing part 12 of the first car is not opened and closed, and the vehicle door opening / closing part 12 of the second car and the third car is opened and closed. The vehicle door information is output to the vehicle door information output unit 109 as vehicle door information.
[0086]
　The vehicle door information output unit 109 outputs the specified vehicle door information to the home door control device 50 via the vehicle upper element 14 and the ground element P0.
[0087]
　The home door control device 50 receives the vehicle door information output from the train 11 and specifies the home door opening / closing unit 53 that opens and closes based on the vehicle door information. For example, it is specified that the home door opening / closing parts 53 other than the three groups of the door opening / closing parts 53 are opened / closed. After opening the home door of the specified home door opening / closing part 53, the specified vehicle door opening / closing part 12 is opened, and passengers can get on and off.
[0088]
　In the second embodiment, the distance between the ground element P0 and the ground element PB is the length of one vehicle of the train 11, but is not limited thereto. Since the ground child position information of the ground child P0 and the ground child position information of the ground child PB are stored in the ground child information storage unit 105 in advance, the distance between the ground child P0 and the ground child PB can be calculated. The train stop position specifying unit 207 may specify a train stop position corresponding to the calculated distance.
[0089]
　The on-board controller 20 according to the second embodiment includes a determination unit 106 that determines whether or not the train stop target position has been exceeded based on the ground child information and the train position information. The first ground element information of the first ground element 5 provided at the target position and the third ground element information of the third ground element 7 provided one ahead of the traveling direction of the train 11 from the first ground element 5. The determination unit 106 includes the train 11 between the position of the first ground element 5 and the position of the third ground element 7 based on the train position information, the first ground element information, and the third ground element information. Is determined to have exceeded the train stop target position, and by specifying the position of the third ground element 7 as the train stop position, the vehicle is not stopped at the predetermined position of the station platform. Time to open the door is shorter than before Ukoto can.
[0090]
　The platform door control system 2 according to the second embodiment includes a determination unit 106 that determines whether or not the on-board control device 20 has exceeded the train stop target position based on the ground element information and the train position information. The information of the first ground element 5 of the first ground element 5 provided at the train stop target position and the third ground element provided one ahead of the traveling direction of the train 11 from the first ground element 5 7 on the basis of the train position information, the first ground element information, and the third ground element information, the determination unit 106 determines the position of the first ground element 5 and the third ground element 7 When the train 11 is located between the position and the train stop position, it is determined that the train stop target position has been exceeded, and the position of the third ground element 7 is specified as the train stop position. Until the vehicle door is opened. Time can be performed in a shorter time than before.
[0091]
　Third Embodiment
　FIG. 11 is a diagram showing a configuration of a home door control system 3 according to a third embodiment. It is characterized in that a plurality of vehicle uppers of the train 11 are provided. In FIG. 11, the first car and the second car are provided with a car upper, which are expressed as a first car upper and a second car upper, respectively. The distance between the first car upper and the second car upper is the length of one vehicle of the train 11. The configuration of each device is the same as that of the first and second embodiments except for those specifically mentioned.
[0092]
　FIG. 12 is a diagram illustrating a configuration of the on-board control device 30 of the train 11 of the platform door control system 3 according to the third embodiment. The ground child information receiving unit 102 is connected to the first vehicle upper member 15 and the second vehicle upper member 16.
[0093]
　Operation | movement of the platform door control system 3 concerning Embodiment 3 is demonstrated. Each expression is the same as in the first and second embodiments, except as otherwise noted.
[0094]
　The train position detection unit 104 calculates the position of the own train based on the movement amount of the own train output from the speed generator 13 and the ground child position information of the ground child P0 stored in the ground child information storage unit 105. And it outputs to the train stop position specific | specification part 307 as train position information.
[0095]
　The determination unit 106 detects whether or not the own train has stopped based on the train speed information output from the train control unit 101. For example, when the train speed information is larger than 0.5 km / h, it is assumed that the own train has not stopped. When it is detected that the own train is not stopped, it is determined whether or not the train stop target position has been exceeded based on the most recently received ground element information. Since it is detected that the own train is not stopped and the ground element information received most recently is a signal from the ground element P0, it is determined that the train stop target position is exceeded.
[0096]
　The train stop position specifying unit 307 detects the train position information calculated by the train position detection unit 104 when the determination unit 106 detects that the own train has not stopped and determines that the train stop position has exceeded the target train stop position. Based on the ground element position information of the ground element P0 stored in the ground element information storage unit 105, the position where the own train stops is specified as the position where the second vehicle upper element 16 overlaps the ground element P0.
[0097]
　When the train stop position specifying unit 307 specifies the position where the train stops as the position where the second car upper 16 overlaps the ground child P0, the train control unit 101 overlaps the ground child P0. A new speed check pattern is generated so that the own train can be stopped at the position, the vehicle is decelerated according to the newly generated speed check pattern, and the own train is stopped so that the position of the second vehicle upper arm 16 becomes the position of the ground child P0. .
[0098]
　The train stop position specified by the train stop position specifying unit 307 is output to the vehicle door specifying unit 108.
[0099]
　Based on the specified train stop position, the vehicle door specifying unit 108 specifies the vehicle door opening / closing unit 12 to be opened / closed among the vehicle door opening / closing units 12 provided in the own train. Since the distance between the first car upper 15 and the second car upper 16 is equal to one vehicle of the train 11, the vehicle door opening / closing part 12 of the first car is not opened and closed, and the vehicle doors of the second car and the third car are opened and closed. When the part 12 is opened and closed, it is specified and output to the vehicle door information output part 109 as vehicle door information.
[0100]
　The vehicle door information output unit 109 outputs the specified vehicle door information to the home door control device 50 via the vehicle upper element and the ground element P0.
[0101]
　The home door control device 50 receives the vehicle door information output from the train 11 and specifies the home door opening / closing unit 53 that opens and closes based on the vehicle door information. For example, it is specified that platform doors other than the three groups of platform door opening / closing sections 53 are opened and closed. After opening the home door of the specified home door opening / closing part 53, the specified vehicle door opening / closing part 12 is opened, and passengers can get on and off.
[0102]
　In the third embodiment, the distance between the first car upper 15 and the second car upper 16 is equal to one vehicle of the train 11, but is not limited thereto. The distance between the first vehicle upper 15 and the second vehicle upper 16 may be stored in the storage unit 103 in advance. The train stop position specifying unit 307 may specify a train stop position corresponding to the distance stored in the storage unit 103 in advance.
[0103]
　The on-board control device 30 according to the third embodiment includes a determination unit 106 that determines whether or not the train stop target position has been exceeded based on the ground element information and the train position information, and the train 11 is the traveling direction of the train 11. The first vehicle upper 15 and the second vehicle upper 16 have a plurality of vehicle uppers in this order (in the direction of arrow 8 in FIG. 11), and the determination unit 106 receives the ground received by the first vehicle upper 15. When it is determined that the train stop target position has been exceeded based on the child P0 information and the train position information, the train stop position specifying unit 307 causes the train stop position so that the position of the second car upper 16 becomes the position of the ground child P0. By specifying the above, when the vehicle does not stop at a predetermined position of the station platform, the time until the vehicle door is opened can be shortened.
[0104]
　The platform door control system 3 according to the third embodiment includes a determination unit 106 that determines whether or not the on-board control device 30 has exceeded the train stop target position based on the ground unit information and the train position information. Has a plurality of vehicle uppers in the order of the first vehicle upper 15 and the second vehicle upper 16 with respect to the traveling direction of the train 11, and the determination unit 106 receives the ground child received by the first vehicle upper 15. When it is determined that the train stop target position has been exceeded based on the P0 information and the train position information, the train stop position specifying unit 307 determines the train stop position so that the position of the second car upper 16 is the position of the ground child P0. By specifying, when it does not stop at the predetermined position of the platform of the station, the time until the vehicle door is opened can be performed in a shorter time than before.
[0105]
　Fourth Embodiment
　FIG. 13 is a diagram showing a configuration of a home door control system 4 according to a fourth embodiment. It is characterized in that the number of home door opening / closing parts 53 of the platform door device 51 is larger than in the first to third embodiments. The platform door opening / closing section 53 of the platform door device 51 installed at the station is installed in consideration of the number of trains 11 that stop at the station. For example, at a station where a four-car train 11 stops, a number of home door opening / closing sections 53 corresponding to the four-car train 11 are installed. In FIG. 13, the number of home door opening / closing parts 53 of the platform door device 51 installed at the station is the number corresponding to the train 11 of the four-car train. A platform door opening / closing part 53 of the platform door device 51 is also installed in front of the train stop target position with respect to the traveling direction of the train 11 (direction of arrow 8 in FIG. 13). The configuration of each device is the same as that of the first to third embodiments except for those specifically mentioned. Here, it is assumed that the three platform door opening / closing parts 53 from the front with respect to the traveling direction of the train 11 form one group, and that there are 12 platform door opening / closing parts 53 from the front with respect to the traveling direction of the train 11. In other words, since 3 groups each constitute one group, there are 4 groups. In the same group, it is expressed as first, second and third from the front.
[0106]
　FIG. 14 is a diagram illustrating a configuration of the on-board controller 40 of the train 11 of the platform door control system 4 according to the fourth embodiment. It is characterized by having a station location information storage unit 410.
[0107]
　The station position information storage unit 410 stores position information (station position information) of stations provided on the route on which the train 11 operates. As the stored station position information, for example, kilometer information of one end and the other end of the station platform is stored. Since the kilometer information at one end of the station platform and the kilometer information at the other end are stored, the length of the station platform can be calculated. The stored station position information may store, for example, kilometer information of one end and the other end of the platform door device 51 installed in the station. If the kilometer information of one end and the other end of the platform door device 51 is stored, the entire length of the platform door device 51 installed on the platform can be calculated. The station position information storage unit 410 may be configured by a storage unit different from the storage unit 103 described above, or the storage unit 103 may include the station position information storage unit 410.
[0108]
　Next, the operation of the platform door control system 4 according to the fourth embodiment will be described. Each expression is the same as those in the first to third embodiments, except as otherwise noted. In the following description, as an example, a case where the train 11 stops beyond the train stop target position will be described.
[0109]
　The train position detection unit 104 calculates the position of the own train based on the movement amount of the own train output from the speed generator 13 and the ground child position information of the ground child P0 stored in the ground child information storage unit 105. And it outputs to the train stop position specific | specification part 407 as train position information.
[0110]
　The determination unit 106 detects the stop of the own train, and determines that it has stopped beyond the train stop target position because the most recently received ground element information is a signal from the ground element P0.
[0111]
　Based on the train position information calculated by the train position detection unit 104 and the ground child position information of the ground child P0 stored in the ground child information storage unit 105, the train stop position specifying unit 407 determines that the own train is a ground child P0. Determine how long you have stopped. The specified train stop position is output to the vehicle door specifying unit 108.
[0112]
　Based on the identified train stop position and the station position information stored in the storage unit 103, the vehicle door identification unit 108 opens and closes the vehicle door opening / closing unit 12 of the vehicle door opening / closing unit 12 included in the own train. To identify. For example, in FIG. 13, the train 11 has stopped beyond the train stop target position, but since the platform door device 51 is installed in front of the train stop target position in the traveling direction of the train 11, It is possible to open and close the vehicle door opening / closing part 12 of the third car. In such a case, the vehicle door identification unit 108 refers to the station position information, and based on the length of the platform of the station or the entire length of the platform door device 51, the vehicle door opening / closing unit included in the own train. The vehicle door opening / closing unit 12 to be opened / closed is specified among the 12 and output to the vehicle door information output unit 109 as vehicle door information.
[0113]
　The vehicle door information output unit 109 outputs the specified vehicle door information to the home door control device 50 via the vehicle upper element 14 and the ground element P0.
[0114]
　The home door control device 50 receives the vehicle door information output from the train 11 and specifies the home door opening / closing unit 53 that opens and closes based on the vehicle door information. After the specified home door opening / closing part 53 is opened, the specified vehicle door opening / closing part 12 is opened, and passengers can get on and off.
[0115]
　The on-board control device 40 according to the fourth embodiment includes a station position information storage unit 410 that stores station position information that is information on the location of the station, and the vehicle door specifying unit 108 includes a station position information storage unit. Based on the station position information and train stop position stored in 410, the time until the vehicle door is opened when the vehicle door that the train 11 opens and closes is specified and the train does not stop at a predetermined position of the station platform. Can be performed in a shorter time than in the past.
[0116]
　In the platform door control system 4 according to the fourth embodiment, the on-board control device 40 includes a station position information storage unit 410 that stores station position information, which is information on the location of the station, and the vehicle door specifying unit 108. Is based on the station position information stored in the station position information storage unit 410 and the train stop position, and by specifying the vehicle door that the train 11 opens and closes, when the train does not stop at a predetermined position on the platform of the station, The time until the vehicle door is opened can be shorter than before.
[0117]
　Embodiments 1 to 4 are preferably applied to a radio train control system. Here, the first embodiment will be described as an example. FIG. 15 is a diagram illustrating a configuration in which the platform door control system 1 according to the first embodiment is applied to a wireless train control system. The configuration of each device is the same as described above, except as specifically mentioned.
[0118]
　The home door control system 1 shown in FIG. 15 includes an operation management device 60, a ground transmission path 70 connected to the operation management device 60, a ground control device 80 installed on the ground and connected to the ground transmission path 70, A platform door device 51 installed at a station, a platform door control device 50 connected to the ground control device 80, a ground radio device 90 installed on the ground and transmitting / receiving data to / from the train 11, and the train 11 And an on-vehicle wireless device (described later) mounted on the vehicle 11 and an on-vehicle control device 10 mounted on the train 11.
[0119]
　The operation management device 60 is installed on the ground. The operation management device 60 receives information from the plurality of ground control devices 80, manages the positions of all the trains 11, and transmits a departure command to each train 11 via the ground wireless device 90.
[0120]
　The ground transmission path 70 exchanges information with a plurality of ground control devices 80, and is used for interval control with the train 11 traveling outside the jurisdiction.
[0121]
　The ground control device 80 receives data transmitted from the train 11 via the ground radio device 90. For example, train position information is received from the train 11, and the position of the train 11 is grasped from the received train position information. The received train position information is transmitted to the operation management device 60 via the ground transmission path 70, so that the operation management device 60 can perform on-line management of the train 11.
[0122]
　In addition, the ground control device 80 receives vehicle door information from the train 11 via the ground wireless device 90, and transmits the received vehicle door information to the home door control device 50, so that the home corresponding to the vehicle door information is received. The door information is output to the platform door device 51, and the opening / closing control of the identified platform door opening / closing unit 53 is performed.
[0123]
　The ground radio apparatus 90 communicates with the on-board radio apparatus included in the train 11.
[0124]
　FIG. 16 is a diagram illustrating a configuration of the on-board controller 10 for the train 11 when the platform door control system 1 according to the first embodiment is applied to a wireless train control system. The configuration of each device is the same as described above, except as specifically mentioned.
[0125]
　The train 11 shown in FIG. 16 includes an on-board antenna 18 that transmits and receives data to and from the terrestrial radio device 90, an on-board radio device 17 connected to the on-board antenna 18, an on-board radio device 17, the speed generator 13, and An on-vehicle control device 10 connected to the on-vehicle element 14 is provided. Vehicle door information is output from the onboard control device 10 to the onboard radio device 17. The on-vehicle wireless device 17 outputs the vehicle door information output from the on-vehicle control device 10 to the terrestrial wireless device 90 via the on-vehicle antenna 18.
[0126]
　When the first to fourth embodiments are applied to a wireless train control system, even when the train 11 stops at a position where the vehicle upper member 14 and the ground child P0 do not overlap, the specified vehicle door information is transmitted via radio. Can be sent to the home door control device 50. Further, the platform door control device 50 can output platform door information corresponding to the vehicle door information to the platform door device 51. After the specified home door opening / closing part 53 is opened, the specified vehicle door opening / closing part 12 is opened, and passengers can get on and off. Thereby, when it does not stop at the position where the platform of the station is determined, the time until the vehicle door is opened can be performed in a shorter time than before.
[0127]
　In the first to fourth embodiments, it is preferable to use a speed sensor instead of the speed generator 13 or in combination with the speed generator 13.
[0128]
　FIG. 17 is a diagram illustrating a configuration in which the train 11 of the platform door control system 1 according to the first embodiment includes a speed sensor. The configuration of each device is the same as described above, except as specifically mentioned.
[0129]
　The speed sensor 19 is a device that detects the amount of movement of the own train and the speed of the own train by reflection of electromagnetic waves. Electromagnetic waves include radio waves and light. The speed sensor 19 includes an output unit that irradiates electromagnetic waves on the road surface and a detection unit that detects electromagnetic waves reflected from the road surface, and can detect the amount of movement of the own train without contact. The speed sensor 19 can calculate the speed of the own train from the detected movement amount of the own train. The speed sensor 19 can be exemplified by a Doppler sensor. The speed sensor 19 is not limited to a specific sensor as long as the sensor can detect the movement amount of the own train and the speed of the own train using the reflection of electromagnetic waves without using the rotation of the wheels.
[0130]
　The amount of movement of the own train and the speed of the own train detected by the detection unit of the speed sensor 19 are input to the train control unit 101. The train control unit 101 calculates the position of the own train based on the movement amount of the own train detected by the speed sensor 19 and the ground element information, and the calculated position of the own train is treated as train position information. Moreover, the speed of the own train detected by the speed sensor 19 is handled as train speed information.
[0131]
　Since the speed sensor 19 is a sensor that does not use the rotation of the wheel, the speed sensor 19 is not easily affected by the idling or sliding of the wheel. Moreover, by providing a laying sheet on the road surface on which the train 11 passes, the road surface reflection surface is homogenized and the detection accuracy is improved. In particular, it is possible to obtain more accurate train position information and train speed information by providing a laying sheet at a predetermined train stop position.
[0132]
　By using not only the train position information and train speed information obtained based on the detection result of the speed sensor 19, but also the train position information and train speed information obtained based on the detection result of the speed generator 13, the train The accuracy of position and train speed will be higher. The train control unit 101 uses the detection result of the speed sensor 19 that uses the reflection of the electromagnetic wave that is not easily affected by idling and sliding in a place where the accuracy of the sensor that uses the reflection of the electromagnetic wave is obtained, and the speed that uses the reflection of the electromagnetic wave. For places where the accuracy of the sensor 19 is difficult to obtain, the detection result of the speed generator 13 can be used.
[0133]
　In the first to fourth embodiments, when the speed sensor 19 is used, it is possible to obtain highly accurate train position information and train speed information. For this reason, the accuracy of the train position detection by the train position detection unit 104 and the stop detection of the train 11 by the determination unit 106 is increased, and the time until the vehicle door is opened when the train does not stop at a predetermined position of the station platform. Can be performed in a shorter time than in the past.
[0134]
　In Embodiments 1 to 4 described above, the configuration included in the on-board controller and the home door controller 50 includes at least a processor, a memory, a receiver, and a transmitter. Can be realized by software. FIG. 18 is a diagram illustrating a general configuration example of hardware for realizing the on-vehicle control device and the home door control device 50 of the home door control system according to the first to fourth embodiments. The apparatus illustrated in FIG. 18 includes a processor 1001, a memory 1002, a receiver 1003, and a transmitter 1004. The processor 1001 performs calculation and control by software using received data. The memory 1002 stores received data or data necessary for the processor 1001 to perform calculation and control, and also stores software. The receiver 1003 is an interface that receives signals or information input to the on-vehicle controller and the platform door controller 50. The transmitter 1004 is an interface that transmits signals or information output from the on-vehicle controller and the platform door controller 50. Note that a plurality of processors 1001, memories 1002, receivers 1003, and transmitters 1004 may be provided.
[0135]
　Note that the present invention can be freely combined with each other within the scope of the invention, and the embodiments can be appropriately modified or omitted.
Explanation of symbols
[0136]
1, 2, 3, 4 Home door control system
5 Ground element P0
6 Ground element P1
7 Ground element PB
8 Arrow
9 Track
10, 20, 30, 40 On-board controller
11 Train
12 Vehicle door opening / closing part
13 Speed generator
14 board coil
15 first on-board coil
16 second car upper child
17 vehicle radio device
18 onboard antenna
19 speed sensor
50 Home door control device
51 home door device
52 home door door pocket
53 home door portion
60 running management apparatus
70 Ground transmission path
80 Ground control device
90 Ground radio device
101 Train control unit
102 ground unit information receiving unit
103 storage unit
104 train position detection unit
105 ground unit information storage unit
106 determination unit
107, 207, 307, 407 train stop position specifying unit
108 vehicle door specifying unit
109 vehicle door information output unit
410 station position information Storage unit
501 Input / output unit
502 Home door identification unit
503 Home door information output unit
504 Home door storage unit
1001 Processor
1002 Memory
1003 Receiver
1004 Transmitter
The scope of the claims
[Claim 1]
　Provided the train,
　the ground coil information storage unit for storing information of ground coil disposed on the track where the train is traveling,
　the train position detection unit for detecting the position of the train,
　the ground coil information storage unit based on train position information detected by the information of the ground coil stored and the train position detection unit, and the train stop position specifying unit for specifying a train stop position,
　the train on the basis of the identified said train stop position A vehicle on-board control device
　comprising: a vehicle door specifying unit that specifies a vehicle door to be opened and closed; and a vehicle door information output unit that outputs the specified vehicle door information of the train
.
[Claim 2]
　Said ground element of information and the train position based on information train determination section for determining whether or not beyond the target stop position,
　and a train stop detection unit for detecting that the train has stopped
with a
　the ground coil The information includes the first ground element information of the first ground element provided at the train stop target position and the second ground element of the second ground element provided immediately before the first ground element with respect to the train traveling direction. Child information is included, and when the
　train stop detection unit detects that the train has stopped, the
　determination unit includes the train position information, the first ground piece information, and the second ground piece information. Based on the position of the first ground element and the position of the second ground element, it is determined that the train stop target position is not exceeded, and the position where the train stopped is It is identified as the stop position,
　the vehicle according to claim 1 Control device.
[Claim 3]
　A determination unit that determines whether or not a train stop target position has been exceeded based on the ground element information and the train position information, and the ground element information includes a
　first ground element provided at the train stop target position; The first ground element information and the third ground element information of the third ground element provided one forward from the first ground element in the train traveling direction are included, and the
　determination unit includes the train position information. Based on the first ground element information and the third ground element information, when the train is located between the first ground element position and the third ground element position, the train stop target position is exceeded. The
　on-vehicle control device according to claim 1 , wherein the on-board control device determines and determines the position of the third ground element as a train stop position .
[Claim 4]
　It includes a determination unit that determines whether exceeds a train stop target position on the basis of information and the train position information of the ground unit,
　the train, the first on-board coil relative to the train travel direction, the second car upper child When it is
　determined that the determination unit has exceeded the train stop target position based on the information on the ground element received by the first vehicle upper element and the train position information,
　The on-board
　control device according to claim 1, wherein the train stop position specifying unit specifies the train stop position so that the position of the second vehicle upper element becomes the position of the ground element .
[Claim 5]
　It has a station position information storage unit that stores station position information that is information on where the station is located, and the
　vehicle door specifying unit stores the station position information and the train stop stored in the station position information storage unit. The
　on-board control device according to any one of claims 1 to 4 , wherein a vehicle door that the train opens and closes is specified based on a position .
[Claim 6]
　A storage unit storing an opening / closing pattern of the vehicle door of the train,
　wherein the vehicle door specifying unit
　stores the opening / closing pattern of the vehicle door based on the train stop position specified by the train stop position specifying unit; The vehicle door opening / closing pattern selection part which selects from the opening / closing pattern of the said vehicle door memorize | stored in the part, and
　the vehicle door opening / closing pattern output part which outputs the opening / closing pattern of the selected said vehicle door are included
in any one of Claim 1 to 5 The on-vehicle control device according to claim 1.
[Claim 7]
　Provided the train,
　the ground coil information storage unit for storing information of ground coil disposed on the track where the train is traveling,
　the train position detection unit for detecting the position of the train,
　the ground coil information storage unit based on train position information detected by the information of the ground coil stored and the train position detection unit, and the train stop position specifying unit for specifying a train stop position,
　the train on the basis of the identified said train stop position and the vehicle door specifying unit for specifying a vehicle door for opening and closing of
　the vehicle door information output unit that outputs a vehicle door information specified in the train,
the train control device having the
　output from the vehicle door information output unit And a home door control device that receives the vehicle door information and controls a home door installed at a station
　.
[Claim 8]
　The on-
　board controller is configured to determine whether or not a train stop target position has been exceeded based on the information on the ground and the train position information,
　a train stop detection unit that detects that the train has stopped,
comprising a,
　the information of the ground unit is first provided on one front with respect to the first ground unit information and the train traveling direction than the first ground unit of the first ground element provided on the train stop target position The second ground element information of the two ground
　elements is included, and when the train stop detection unit detects that the train has stopped, the
　determination unit includes the train position information and the first ground element information. And when the train is located between the position of the first ground element and the position of the second ground element based on the second ground element information, it is determined that the train stop target position is not exceeded, identifying the train has stopped position as the train stopping position,
　Home door control system according to Motomeko 7.
[Claim 9]
　The on-
　board controller includes a determination unit that determines whether a train stop target position has been exceeded based on the information on the ground unit and the train position information, and
　the information on the ground unit includes the train stop target position. third ground coil information of the third ground coil provided on one front of the first ground unit information and the first balise first ground coil provided for a train traveling direction are included,
　the determination When the train is located between the position of the first ground element and the position of the third ground element based on the train position information, the first ground element information and the third ground element information, The platform
　door control system according to claim 7 , wherein it is determined that a train stop target position has been exceeded, and the position of the third ground element is specified as a train stop position .
[Claim 10]
　The on-
　board control device includes a determination unit that determines whether a train stop target position is exceeded based on the information on the ground and the train position information, and the
　train is on the first vehicle on the train traveling direction. A plurality of vehicle uppers in the order of a child and a second vehicle
　upper, and the determination unit determines the train stop target position based on the information on the ground child received by the first vehicle upper and the train position information. The
　platform stop
　control system according to claim 7 , wherein , when it is determined that the train stop position has been exceeded, the train stop position specifying unit specifies the train stop position so that the position of the second vehicle upper element becomes the position of the ground element. .
[Claim 11]
　The on-board control device has
　a station position information storage unit that stores station position information, which is information where a station is located, and the
　vehicle door specifying unit is stored in the station position information storage unit.
　The home door control system according to any one of claims 7 to 10 , wherein a vehicle door to be opened and closed by the train is specified based on station position information and the train stop position .
[Claim 12]
　The on-board controller
　includes a storage unit in which an opening / closing pattern of a vehicle door of the train is stored, and the
　vehicle door specifying unit is
　based on the train stop position specified by the train stop position specifying unit. of the opening and closing pattern, and the vehicle door pattern selector for selecting from the switching pattern of the vehicle door which is stored in the storage unit,
　and the vehicle door pattern output unit for outputting opening and closing pattern of the vehicle door selected,
having ,
　platform screen door control system according to any one of claims 7 11.
[Claim 13]
　The platform door control device includes
　a platform door identifying unit that identifies a door that the platform door opens and closes, and a platform door information output unit that outputs information on the platform door identified by the platform door identifying unit,
　The platform door control system according to any one of claims 7 to 12 , which controls opening and closing of the platform door based on information on the identified platform door output from the platform door information output unit .
[Claim 14]
　The vehicle door information output unit outputs an opening / closing pattern of the vehicle door as the vehicle door information, and the
　home door control device includes a
　home door storage unit in which a home door opening / closing pattern is stored,
　The home door control system according to claim 13 , wherein the specifying unit specifies a home door opening / closing pattern corresponding to the opening / closing pattern of the vehicle door from the home door storage unit .