JPH04119142U - Contactless passgate system - Google Patents

Abstract

(57) [Summary] [Purpose] To enable data transmission and reception processing to be executed accurately with each medium even when a plurality of mediums invade a communicable area. [Structure] When two commuter passes 11a and 11b are sequentially presented within the communication area configured above the antenna of the automatic ticket gate 1, the automatic ticket gate 1 selects the commuter pass 11 that was presented first.
It receives the recognition data of a and executes data transmission/reception processing with this commuter pass 11a. During this period, the commuter pass 11b presented later detects the communication state between the automatic ticket gate 1 and the commuter pass 11a and does not transmit recognition data. When the communication process for the commuter pass 11a is completed, the commuter pass 11b
The automatic ticket gate 1 that receives the recognition data transmits and receives the main data to and from the commuter pass 11b.

Description

[Detailed explanation of the idea]

0001

[Industrial application field]

This idea is suitable for gates such as ticket gates installed at electric railway stations and media such as commuter passes. With respect to the pass gate system constructed by the This invention relates to a contactless passgate system that wirelessly transmits and receives information.

0002

[Conventional technology]

In consideration of improving user operability when passing through the gate, data is exchanged with the media. A non-compliant device that wirelessly transmits and receives traffic information and determines whether or not it is possible to pass based on the data obtained. A contact passgate system has been proposed. Such a contactless passgate system The system can be used for ticket gate processing at stations, entrance/exit control for buildings, customer management at stores, etc. I can do that.

0003 However, in the contactless pass gate system, there is no connection between the media in the user's possession and the gate. The communication range between 10cm and 3m is set, so multiple Multiple media in the communication area of the gate when people pass through the gate in succession may be presented, and in such cases, data may be mixed at the gate, All wireless transmission and reception with the medium becomes impossible.

0004 Therefore, for example, in the method disclosed in JP-A-63-134978, The controller intermittently sends advance signals to the medium, and the Data can be sent and received for the first time by sending a signal to the gate indicating that the signal has been received. We are trying to make it possible.

[0005]

[Problem that the idea aims to solve]

However, in the conventional non-contact pass gate system mentioned above, the gate If multiple media enter the coverage area during a pause in the pre-transmitted signal, multiple The medium will receive the next preliminary signal sent from the gate at the same time. Response signals are sent from multiple media at the same time, causing interference at the gate and causing data The drawback was that all transmission and reception was impossible.

[0006] The purpose of this invention is for a medium to detect the transmission/reception status between another medium and the gate. In addition, the gate is configured to avoid transmitting communication signals while performing transmission/reception processing with other media. to avoid interference even when multiple media are presented in the communicable area. A contactless path that allows data to be accurately sent and received between different media. The goal is to provide a gate system.

[0007]

[Means to solve the problem]

This contactless passgate system transmits data wirelessly between the media and the gate. In the contactless pass gate system for sending and receiving, The medium has a communication status check that detects whether the gate is communicating with another medium. When the output means and communication status detection means detect the communication status with another medium, communication is detected. The present invention is characterized by providing a transmission restriction means for not transmitting a signal.

[0008]

[Effect]

In this design, a medium that enters within range of a gate's communication will cause the gate to The gate detects whether data is being sent or received to or from a medium, and If the communication is in progress, no communication signal is sent. Therefore, gate communication is possible. When multiple media invade a functional area, the media that invades later will be different from the media that invaded earlier. Detects that communication with the gate is in progress and sends communication signals until this communication ends do not. This allows the gate to detect each of the multiple media that have entered the communicable area. It is possible to perform communication processing for each of these in order.

[0009]

【Example】

Figures 1 and 2 show a non-contact pass gate system that is an embodiment of this invention. FIG. 2 is a side view and a front view of an automatic ticket gate, respectively. There are two automatic ticket gates 1 and 1. They are installed as a pair at the ticket gates of stations, and a passageway is created between the two. automatic ticket gate 1 A plurality of sensors 3 are installed on the side, and these sensors 3 detect the user's traffic status. Detect state. Doors 4 and 5 are attached to the front and rear ends of the automatic ticket gate 1, and The doors 4 and 5 are opened and closed based on the determination result. The top of automatic ticket gate 1 has a antenna 2 is installed and presented in a communicable area configured in a predetermined range above. Data is sent and received between the commuter pass and the commuter pass.

0010 The automatic ticket gate 1 receives an area signal S from the antenna 2 at regular intervals as shown in FIG. 1 is being sent. The commuter pass 11a, which is the medium, receives this area signal S1 normally. The range that can be used is the receivable area.

[0011] FIG. 3 is a block diagram showing the configuration of the transmitter/receiver section of the automatic ticket gate. data sending Modulation circuits 22 and 23 and a demodulation circuit 24 are connected to the reception control section 21. one The modulation circuit 22 and demodulation circuit 24 on the other side are amplifiers via amplifiers 25 and 26, respectively. It is connected to the antenna 2a. The modulation circuit 22 receives a predetermined frequency f from the oscillation circuit 28. 1 high frequency signal is input. The modulation circuit 22 uses this high frequency signal to send and receive data. It is modulated by the data output from the signal control section 21 and sent to the antenna via the amplifier 25. It is transmitted from Na 2a. On the other hand, the electromagnetic waves received by the antenna 2a are transmitted to the amplifier 2. 6 to the demodulation circuit 24, and decodes the data transmitted from a medium such as a commuter pass. The data is input to the data transmitting/receiving section 21.

0012 The other modulation circuit 23 is connected to the antenna 2b via an amplifier 29. strange A high frequency signal of frequency f2 is inputted to the modulation circuit 23 from the oscillation circuit 30. strange The modulation circuit 23 converts this high frequency signal into an area signal output from the data transmission/reception control section 21. signal data and output it as an area signal from the antenna 2b via the amplifier 29. and send. Area signal data is sent from the data transmission/reception control unit 21 at fixed time intervals. The electromagnetic waves are output in the vicinity of the antenna 2b in a range corresponding to the output strength of the electromagnetic waves. Configure the communication area.

[0013] FIG. 4 shows a medium to which a non-contact pass gate system, which is an embodiment of this invention, is applied. FIG. Commuter ticket 1 presented to automatic ticket gate 1 as a medium 1 is constituted by, for example, an IC card. Data of transmitter/receiver section of commuter pass 11 The data transmission/reception control section 31 includes a modulation circuit 32, a demodulation circuit 33, and a communication detection circuit 34. is connected. Modulation circuit 32 is connected to antenna 36a via amplifier 35. It is. Further, the modulation circuit 32 receives a high frequency signal of frequency f1 from the oscillation circuit 37. The modulation circuit 32 receives this high frequency signal from the data transmission/reception control section 31. Modulate the output data and transmit it from the antenna 36a via the amplifier 35 do. The data output from the data transmitter/receiver 31 includes an EEPROM (not shown), etc. recognition data including the ID code stored in the There is data for determining passability, which consists of:

[0014] It is transmitted from the antenna 2a of the automatic ticket gate 1 and received at the antenna 36a. The data is input from the demodulation circuit 33 to the data transmission/reception control section 31 via the amplifier 38. be done. This data includes usage date and time data indicating travel history and usage station name data. and so on. The data transmission/reception function 31 transfers input data to an EEPROM (not shown). The data is stored in a storage section configured by

[0015] The output of the amplifier 38 is also input to the communication detection circuit 34. This communication detection circuit 34 measures the output level of the amplifier 38, and if this level is below a predetermined value, Automatic ticket gate 1 determines that it is performing transmission/reception processing with other media, and sends a communication detection signal. The signal is output to the data transmission/reception control section 31.

[0016] The antenna 36b receives an area signal transmitted from the antenna 2b of the automatic ticket gate 1. believe This area signal also serves as power carrier and is sent to the area signal receiving circuit 39. The power component of the electromagnetic waves received by the Electric power is then supplied to each electronic component making up the commuter pass 11.

[0017] Figure 5 shows the automatic ticket gates and commuter passes that make up the above-mentioned contactless pass gate system. 3 is a flowchart illustrating a processing procedure of a transmitting/receiving unit having a transmitting/receiving unit. Automatic ticket gate 1 is powered on. After entering, an area signal is transmitted from antenna 2b at fixed time intervals (n1), and commuter pass 1 1 waits for transmission of recognition data from 1 (n2). Above antenna 2 of automatic ticket gate 1 The commuter pass 11 is presented within the communicable area configured to When the area signal is received, the transmission/reception control unit 31 starts operating and transmits signals at predetermined time intervals. Transmit recognition data (n11 to n13)). Automatic ticket gate 1 uses this recognition data. After receiving the confirmation signal, a confirmation signal is transmitted (n3), and the commuter pass 11 that received this confirmation signal Send and receive data such as passability determination data and traffic history data between (n4, n14, n15). The automatic ticket gate 1 receives a termination command from an internal higher-level device. The operation is stopped by force, and the recognition is repeated at n1 until this termination command is input. Waits for reception of identification data (n5).

[0018] A single commuter pass within the communication area configured above the antenna 2 of the automatic ticket gate 1 11 is presented, the recognition data sent from the commuter pass 11 will be automatically updated. The confirmation signal is immediately received by the ticket machine 1, and the commuter pass 11 starts transmitting and receiving the data after receiving the confirmation signal. However, as shown in FIG. 6, two commuter passes 11a and 11 are placed in the communication area. If ``b'' are presented sequentially, commuter pass 1a, which entered the communicable area first, will be displayed first. The recognition data is transmitted, and then from the commuter pass 11b that later invaded the communicable area. Recognition data is sent. Therefore, the automatic ticket gate 1 receives the information transmitted from the commuter pass 11a. It receives the received recognition data and transmits a confirmation signal to the commuter pass 11a. automatic ticket gate The confirmation signal sent from 1 includes the ID code that the recognition data has, and this Accordingly, the commuter pass 11a confirms that the confirmation signal sent from the automatic ticket gate 1 is sent to itself. It recognizes that the ticket has been sent and receives it between the commuter pass 11a and the automatic ticket gate 1. will be held.

[0019] During data transmission and reception between the commuter pass 11a and the automatic ticket gate 1, the commuter pass Recognition data is sent from 11b, and this recognition data is the same as the data transmission and reception being executed. The electromagnetic waves of the same frequency are used as carrier waves, but automatic ticket gates and commuter passes 11a If a reception error occurs during data transmission/reception processing (n4, n15), immediately Error recovery is then executed, and data transmission and reception between the two continues.

[0020] On the other hand, the commuter pass 11b transmits data between the automatic ticket gate 1 and the commuter pass 11a. It is detected that the reception is being executed (n10), and during this time, the recognition data is not transmitted. Do not send. Then, data transmission and reception between the automatic ticket gate 1 and the commuter pass 11a ends. and the recognition data is transmitted from the commuter pass 11b, and the automatic ticket gate 1 receives the transmitted recognition data. After receiving the data, data transmission/reception processing is performed between the commuter pass 11b and the commuter pass 11b. This way In this way, the automatic ticket gate 1 exchanges data with the previously presented commuter pass 11a. After completing the transmission and reception, data transmission and reception is executed with the commuter pass 11b that was presented later. Ru.

[0021]

[Effect of the idea]

According to this idea, even when multiple media are presented in the communicable area, the media that is presented first During communication with the indicated medium, communication signals are not sent from the subsequent medium, causing interference in the communication process. The gate receives data from the later medium after the communication process with the earlier medium is completed. The communication signal is received and the communication process with the received communication signal is started. Therefore, communication is possible. Data transmission and reception processing can be executed in order from the medium that has entered the functional area, and multiple It is possible to accurately send and receive data on each of these media.

[Brief explanation of drawings]

FIG. 1 is a side view of an automatic ticket gate applied to a contactless pass gate system that is an embodiment of this invention.

FIG. 2 is a front view of the automatic ticket gate.

FIG. 3 is a block diagram of a transmitting and receiving unit of the automatic ticket gate.

FIG. 4 is a block diagram of a transmission/reception unit of a commuter pass to which the contactless passgate system is applied.

FIG. 5 is a flowchart showing the processing procedure of the automatic ticket gate and the commuter pass transmitting/receiving unit.

FIG. 6 is a diagram showing a presentation state of a commuter pass in a general contactless pass gate system including an embodiment of the present invention.

[Explanation of symbols]

1- Automatic ticket gate (gate) 11- Commuter pass (medium) 34-Communication detection circuit

Claims (1)

[Scope of utility model registration request] 1. A contactless pass gate system that wirelessly transmits and receives data between a medium and a gate, wherein the medium includes:
communication state detection means for detecting whether the gate is in communication with another medium; and transmission restriction means for not transmitting the communication signal when the communication state detection means detects the communication state with the other medium. A non-contact pass gate system characterized by the following.