JP2008305027A - Information processor, communication system, information processing method and program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To notify the presence of a two-wheel vehicle to a four-wheel vehicle by determining a moving direction of the two-wheel vehicle by one reader device. <P>SOLUTION: RFID tags 6 and 7 are stuck to both side surface of the two-wheel vehicle. An RFID reader device 11 of an RFID tag detection/RFID tag data transmitting device 1 set on a roadside reads the tags, detects an running direction of the two-wheel vehicle by comparing receiving sensitivities of the tags, and transmits information for two-wheel vehicle to an antenna 4 disposed at an intersection, when the two-wheel vehicle approaches the intersection, to transmit the information to a four-wheel vehicle near the intersection. An RFID tag data receiving/receiving data display alarm device 2 mounted on the four-wheel vehicle receives the information for two-wheel vehicle, a receiving data selection part 23 determines the probability of a collision accident between the four-wheel vehicle and the two-wheel vehicle, and a receiving data display/alarm part 24 warns of the presence of the two-wheel vehicle to a driver when the four-wheel vehicle is in danger of an accident. According to this, the two-wheel vehicle unrecognized by the driver can be recognized to prevent an accident. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a technique for preventing a contact / collision accident between vehicles or between a vehicle and a person, and in particular, using an IC (Integrated Circuit) tag such as an RFID (Radio Frequency Identification) tag (hereinafter also referred to as an RF tag). -It relates to technology to prevent collision accidents.

In recent years, RFID (Radio Frequency Identification), which is a non-contact recognition technology using radio waves, has been used in various fields.
On the other hand, the development of a safe driving support system aimed at preventing traffic accidents under the initiative of the government is to detect two-wheeled vehicles in advance for motorcycle accidents that could not be recognized by four-wheeled vehicle drivers so far. I'm trying to prevent it.
For pre-detection of two-wheeled vehicles, it is possible to use on-board equipment that utilizes infrastructure such as DSRC (Dedicated Short Range Communication) and optical beacons, but mounting on-board equipment on two-wheeled vehicles from the viewpoint of weight and size It is difficult to use RFID that is small and lightweight.
However, a system using two RFID reader devices has been proposed because the direction and speed are not known only by detecting a motorcycle with RFID.
However, this method has a problem that two RFID reader devices are required, and the number of installed devices increases, resulting in an increase in cost.

In JP 2003-346297 A, a plurality of RFID readers with a communication area of 1.5 m are installed on the road side, and RF tags are attached to pedestrians, wheelchairs, etc. It is disclosed that a collision can be avoided by notifying a car or a motorcycle via a roadside wireless device of the position, moving speed, and moving direction of a wheelchair.
However, in this technology, a plurality of RFID readers are necessary for detecting the moving speed and moving direction of pedestrians and wheelchairs, and the moving speed and moving direction of pedestrians and wheelchairs can be detected with one RFID reader device. Is not disclosed.

In Japanese Patent Application Laid-Open No. 2006-315448, RF tag detection means are provided at four locations on the front, rear, left and right sides of a vehicle, and when a pedestrian, bicycle or motorcycle having an RF tag is detected, an alarm is issued to the driver to turn right or left. It is disclosed that accidents can be prevented.
However, it is not disclosed that a single RFID reader device can detect the speed and direction of a pedestrian, bicycle, or motorcycle.

In Japanese Patent Application Laid-Open No. 2006-285552, the direction of a bicycle to which an RF tag is attached is detected by two RFID reader devices installed on the road side. It is disclosed that traffic accidents can be prevented by displaying.
However, this technology requires two RFID readers for detecting the direction of the bicycle, and it is not disclosed that the direction of the bicycle can be detected by one RFID reader device.

In Japanese Patent Laid-Open No. 2001-23098, traffic such as a direction of travel is requested from a vehicle that has entered a DSRC communication area, and the received information is notified to vehicles existing in the same DSRC communication area. It is disclosed that accidents can be prevented.
However, it is not disclosed that the direction and speed can be detected by one RFID reader device.

Japanese Patent Laid-Open No. 2003-346297 discloses that the traffic volume for each lane can be measured by mounting a plurality of RF tags having antennas with different communication distances corresponding to the number of lanes.
However, it is not disclosed that the direction and the speed can be detected by mounting the RF tag having the antenna having the same communication distance.

Japanese Patent Application Laid-Open No. 2006-195798 discloses that an RF tag is set on a rotating body, and the speed of the rotating body can be calculated from the period of the magnitude of the received signal.
However, there is no disclosure that the RF tag set on the rotating body can calculate the speed based on the number of accesses every half rotation.
JP 2003-346297 A JP 2006-315448 A JP 2006-285552 A JP 2001-23098 A JP 2006-195798 A

In the conventional methods disclosed in Japanese Patent Laid-Open No. 2003-346297, Japanese Patent Laid-Open No. 2006-315448, Japanese Patent Laid-Open No. 2006-285552, and Japanese Patent Laid-Open No. 2001-23098, reading of the RF tag is performed in the direction and speed. It is assumed that a plurality of RFID reader devices are used in order to know the information, and a method of knowing the direction and speed with one RFID reader device is not disclosed.
If you want to know the direction and speed of a moving object with an RF tag attached, install two RFID reader devices, and the time it takes for the moving object to pass between the two RFID reader devices and the distance between the two RFID reader devices. Although it can be calculated, since two RFID reader devices must be installed, there is a problem that the number of RFID reader devices to be installed increases and the cost increases.

  The main object of the present embodiment is to solve the above-mentioned problems, and the moving direction of the moving body is determined by a single reader device, and the moving body is applied to a vehicle or the like existing in the moving direction of the moving body. The main purpose is to notify the progress of

An information processing apparatus according to the present invention includes:
A tag data receiving unit for receiving tag data from each of a right IC tag arranged on the right side of the first mobile body having a right side and a left side and a left IC tag arranged on the left side; ,
Compare the receiving sensitivity of the tag data from the right IC tag and the receiving sensitivity of the tag data from the left IC tag, analyze the traveling direction of the first moving body, and identify the first moving body A traveling direction determination unit that determines whether the vehicle is traveling toward the point of
When the traveling direction determination unit determines that the first moving body is traveling toward the specific point, the second moving body traveling toward the specific point A notification generating unit that generates a first moving body progress notification for notifying that one moving body is moving toward the specific point;
Notification of transmitting the first mobile body progress notification to an antenna device arranged in the vicinity of the specific point and wirelessly distributing the first mobile body progress notification from the antenna device toward the periphery of the specific point And a transmission unit.

  According to the present invention, the tag data is received from the IC tags arranged on the right side surface and the left side surface of the first moving body, and the reception sensitivity of the tag data is compared. The traveling direction of the moving body can be determined, and the progress of the first moving body is notified to the second moving body that is traveling toward a specific point in the same manner as the first moving body. By doing so, the driver of the second moving body can be made aware of the presence of the first moving body, and thereby a traffic accident can be effectively prevented.

Embodiment 1 FIG.
As an embodiment of the present invention, with reference to the drawings, the operation until the driver of the four-wheeled vehicle has prevented the accident that has occurred until the driver of the four-wheeled vehicle cannot recognize the two-wheeled vehicle or the moving person as an embodiment of the present invention will be described. explain.
FIG. 1 shows components of an electronic intersection system 100 (communication system) using one RFID reader device.

The basic components of the electronic intersection system 100 will be described in FIG.
The electronic intersection system 100 includes an RFID tag detection / RFID tag data transmission device 1, an RFID tag data reception / reception data display warning device 2, an antenna (for detection) 3, an antenna (for transmission) 4, and an antenna (for reception). 5), an RFID tag (right) 6, and an RFID tag (left) 7 are main components.

The RFID tag (right) 6 is an RFID tag arranged on the right side of a moving body (first moving body) such as a two-wheeled vehicle, and the RFID tag (left) 7 is arranged on the left side of the moving body. RFID tag.
The RFID tag detection / RFID tag data transmission device 1 is arranged on the road side of a moving path on which a moving body moves. An RFID tag (right) 6 and an RFID tag (left) 7 are connected via an antenna (for detection) 3. Communication data is communicated, and notification data (first mobile object progress notification) for notifying the progress of a moving body such as a motorcycle is output to the antenna (for transmission) 4, and the notification data is transmitted from the antenna (for transmission) 4 to the RFID tag data. The data is transmitted to the reception / reception data display warning device 2.
The antenna (for detection) 3 is an antenna for the RFID tag detection / RFID tag data transmission apparatus 1 to read information of the RFID tag (right) 6 and the RFID tag (left) 7.
The antenna (for transmission) 4 is an antenna for transmitting notification data from the RFID tag detection / RFID tag data transmission apparatus 1. As will be described later, the antenna (for transmission) 4 is arranged in the vicinity of the intersection (specific point), and the notification data from the RFID tag detection / RFID tag data transmission device 1 is transmitted around the intersection (specific point). To be distributed wirelessly.
The RFID tag data reception / reception data display warning device 2 is mounted on a mobile body (second mobile body) such as a four-wheeled vehicle, and when the mobile body is traveling toward an intersection, an antenna ( Notification message for receiving notification data distributed from (for transmission) 4 via antenna (for reception) 5 and notifying that a moving body such as a two-wheeled vehicle is moving toward the intersection based on the received notification data Is output.
The antenna (for reception) 5 is an antenna arranged in the RFID tag data reception / reception data display warning device 2, and receives notification data distributed from the antenna (for transmission) 4.

The RFID tag detection / RFID tag data transmission device 1 is an example of an information processing device, and the RFID tag data reception / reception data display warning device 2 is an example of a communication device.
The antenna (for transmission) 4 is an example of an antenna device.
The RFID tag (right) 6 is an example of a right IC tag, and the RFID tag (left) 7 is an example of a left IC tag.

Next, an internal configuration example of the RFID tag detection / RFID tag data transmission apparatus 1 will be described.
In the RFID tag detection / RFID tag data transmission device 1, the RFID reader device 11 reads an RF tag. The RFID reader device 11 is an example of a tag data receiving unit.
The tag data storage unit 12 stores RFID tag information read by the RFID reader device 11 and reception sensitivity.
The traveling direction determination unit 13 determines the traveling direction of the moving body based on the reception sensitivity stored in the tag data storage unit 12.
When the traveling direction determination unit 13 determines that the moving body is moving toward the intersection, the notification generation unit 14 generates notification data for notifying the progress of the moving body.
The information transmission unit 15 outputs the notification data generated by the notification generation unit 14 to the antenna (for transmission) 4 and causes the vehicle in the transmission area of the antenna (for transmission) 4 to transmit the notification data. The information transmission unit 15 is an example of a notification transmission unit.
The RFID detection / transmission control unit 16 controls the RFID reader device 11, the tag data storage unit 12, the traveling direction determination unit 13, the notification generation unit 14, and the information transmission unit 15.

The RFID reader device 11 receives tag data from each of an RFID tag (right) 6 disposed on the right side surface of a moving body such as a motorcycle and an RFID tag (left) 7 disposed on the left side surface. At least one of the tag data from the RFID tag (right) 6 and the tag data from the RFID tag (left) 7 has mobile body type information indicating the mobile body type (bicycle, motorcycle, person, wheelchair, etc.). It is included. As will be described later, since the notification data is transmitted when the reception sensitivity from the RFID tag (left) 7 is good, it is desirable that the tag data from the RFID tag (left) 7 includes moving body type information. . The tag data includes, in addition to the moving body type information, for example, if the moving body is a bicycle or a motorcycle, the color of the vehicle body, and if the moving body is a motorcycle, the moving body can be specified. May be included.
The traveling direction determination unit 13 compares the reception sensitivity of the tag data from the RFID tag (right) 6 with the reception sensitivity of the tag data from the RFID tag (left) 7, and as a result of comparison, from the RFID tag (left) 7 If the tag data reception sensitivity is better than the tag data reception sensitivity from the RFID tag (right) 6, the moving body moves from the right side to the left side of the RFID tag detection / RFID tag data transmission device 1. From this, it is determined that the moving body is moving toward the intersection existing on the left side (traveling direction of the moving body) of the RFID tag detection / RFID tag data transmitting apparatus 1.
When the traveling direction determination unit 13 determines that the moving body is traveling toward the intersection, the notification generation unit 14 determines that a moving body such as a two-wheeled vehicle is present in the four-wheeled vehicle traveling toward the intersection. A notification message for notifying that the vehicle is moving toward the intersection is generated. The notification message indicates the type of mobile body (bicycle, motorcycle, person, wheelchair, etc.) indicated in the mobile body type information included in the tag data. Further, other information, the color of the motorcycle body, the displacement of the motorcycle, and the like may be included.
The information transmission unit 15 transmits the notification data generated by the notification generation unit 14 to the antenna (for transmission) 4 disposed in the vicinity of the intersection, and sends a notification message from the antenna (for transmission) 4 toward the periphery of the intersection. Is distributed wirelessly.

Next, an internal configuration example of the RFID tag data reception / reception data display warning device 2 will be described.
The information receiving unit 21 receives notification data transmitted from the information transmitting unit 15 of the RFID tag detection / RFID tag data transmitting apparatus 1 via the antenna (for transmission) 4 via the antenna (for reception) 5. The information receiving unit 21 is an example of a notification receiving unit.
The reception data storage unit 22 stores the notification data received by the information reception unit 21.
The reception data sorting / selection unit 23 reads the notification data from the reception data storage unit 22 and determines whether it is necessary data. The reception data sorting / selection unit 23 is an example of a contact possibility determination unit.
The reception data display / warning unit 24 notifies that the moving body is moving toward the intersection based on the notification data when the reception data sorting / selection unit 23 determines that the notification data is necessary. Display a message and give a warning. The received data display / warning unit 24 is an example of a notification output unit.
The RFID reception / display warning unit 25 controls the information reception unit 21, the reception data storage unit 22, the reception data sorting / selection unit 23, and the reception data display / warning unit 24.

Here, the reception data sorting selection unit 23 is a motorcycle or the like that is determined to be proceeding toward the intersection by the RFID tag detection / RFID tag data transmission device 1 when the notification data is received by the information reception unit 21. It is determined whether or not there is a possibility that the mobile object such as a four-wheeled vehicle on which the RFID tag data reception / reception data display warning device 2 is mounted is in contact with the mobile object.
More specifically, the reception data sorting / selection unit 23 determines whether or not a moving body such as a four-wheeled vehicle on which the RFID tag data reception / reception data display warning device 2 is mounted turns left at the intersection. It is determined that there is a possibility that the two moving bodies come into contact at the intersection when it is determined that the vehicle will turn left. Then, the reception data sorting / selection unit 23 sets the notification data as necessary data when it is determined that there is a possibility that the two moving objects come into contact with each other at the intersection.
The determination of the possibility of a left turn at an intersection of a moving body such as a four-wheeled vehicle is, for example, the possibility of a left turn when a route is set in the car navigation device and a left turn is to be made at the intersection on the set route. Can be determined to be high.
In addition, for example, an intersection where a left turn is routinely performed (for example, an intersection where a left turn is routinely performed as a commuting route) is stored in a storage device mounted on the vehicle, thereby making a left turn. Can be determined.
Further, the reception data sorting and selection unit 23 monitors the operating state of the winker of the vehicle, and when the left turn winker is actuated by the driver, it can be determined that the possibility of making a left turn is high.

In addition, the reception data sorting unit 23 determines whether the four-wheeled vehicle on which the RFID tag data reception / reception data display warning device 2 is mounted turns right at the intersection when the notification data is received by the information reception unit 21. If it is determined whether or not it is determined to turn right at the intersection, it may be determined that there is a possibility that the two moving bodies contact at the intersection.
That is, when a four-wheeled vehicle or the like is traveling in a lane opposite to a traveling lane of a two-wheeled vehicle or the like, it is determined that there is a possibility of contacting the two-wheeled vehicle or the like at an intersection due to a right turn of the four-wheeled vehicle or the like.
Then, the reception data sorting selection unit 23 sets the notification data as necessary data when it is determined that there is a possibility that the four-wheeled vehicle or the like and the two-wheeled vehicle or the like come into contact at the intersection due to the right turn of the four-wheeled vehicle or the like.
The determination of the possibility of a right turn at an intersection such as a four-wheeled vehicle is the same as described above. For example, if a route is set in the car navigation device and a right turn is to be made at the intersection on the set route, the right turn It can be determined that the possibility is high.
In addition, for example, an intersection that makes a right turn on a daily basis (for example, an intersection that makes a right turn on a daily basis as a commuting route) is stored in a storage device mounted on the vehicle, thereby making a right turn. Can be determined.
Further, the reception data sorting and selection unit 23 monitors the operating state of the winker of the vehicle, and when the right turn winker is activated by the driver, it can be determined that the possibility of making a right turn is high.

In addition, in the received data selection part 23, it is determined that there is a possibility of contact with a two-wheeled vehicle when there is a possibility of a left turn, or there is a possibility of contact with a two-wheeled vehicle when there is a possibility of a right turn. For example, a flag value (hereinafter referred to as a left turn flag value) instructing that notification data from the RFID tag detection / RFID tag data transmitting apparatus 1 should determine the possibility of a left turn is determined. By setting a flag value (hereinafter referred to as a right turn flag value) instructing that the possibility of a right turn should be determined, and referring to the left turn flag value or the right turn flag value in the received data selection unit 23, It is possible to identify whether a left turn or a right turn should be determined.
This point will be described with reference to FIG.

  Next, when the four-wheeled vehicle and the two-wheeled vehicle equipped with the RF tag are running side by side, one RFID reader device, that is, one RFID included in the RFID tag detection / RFID tag data transmission device 1 is used. The reader device 11 detects the RF tag attached to the two-wheeled vehicle, notifies the four-wheeled vehicle that the two-wheeled vehicle is moving toward the intersection via the information transmission unit 15, and the driver has the two-wheeled vehicle on the left rear. The basic operation until recognizing this will be described with reference to FIG.

FIG. 2 shows a state where the two-wheeled vehicle 8 (first moving body) and the four-wheeled vehicle A9 (second moving body) are traveling toward the intersection.
The two-wheeled vehicle 8 is provided with an RFID tag (right) 6 and an RFID tag (left) 7, but only the RFID tag (left) 7 is shown in FIG.
Although not shown, the four-wheeled vehicle A9 is equipped with an RFID tag data reception / reception data display warning device 2.
The RFID tag detection / RFID tag data transmission device 1 is disposed on the road side of the road on which the two-wheeled vehicle 8 and the four-wheeled vehicle A9 travel.
The antenna A (for transmission) 4 is installed in the vicinity of the intersection, and is connected to the RFID tag detection / RFID tag data transmission apparatus 1. Further, as shown in FIG. 2, the antenna A (for transmission) 4 is a vehicle that is traveling toward the intersection so that the notification data is distributed only to the vehicle (four-wheeled vehicle A) that is traveling toward the intersection. It arrange | positions so that it may oppose. Alternatively, the directivity of the antenna A (for transmission) 4 is adjusted so that the notification data is distributed only to the vehicle that is traveling toward the intersection.

When the motorcycle 8 with the RFID tag attached crosses in front of the RFID tag detection / RFID tag data transmission device 1 installed on the roadside, the RFID reader device 11 in the RFID tag detection / RFID tag data transmission device 1 The RFID tag data is read by communicating with the RFID tag attached to the two-wheeled vehicle 8 via the antenna (for detection) 3.
Since the RFID tag data read by the RFID reader device 11 includes the moving body type information, the RFID reader device 11 can detect the two-wheeled vehicle and notifies that the two-wheeled vehicle is moving toward the intersection. The notification data is transmitted from the information transmitting unit 15 to the four-wheeled vehicle A9 (second moving body) in the communication area of the antenna A (for transmission) 4 via the antenna A (for transmission) 4. This notification data includes a left turn flag value that indicates that the possibility of a left turn should be determined in the received data sorting selection unit 23 of the RFID tag data reception / reception data display warning device 2.
The notification data transmitted from the information transmission unit 15 is received by the RFID tag data reception / reception data display warning device 2 mounted on the four-wheeled vehicle A9 running in parallel with the two-wheeled vehicle 8, and is included in the notification data. Referring to the left turn flag value, when the four-wheeled vehicle A9 turns left at the intersection, there is a risk of involving the two-wheeled vehicle 8 to which the RFID tag is attached, so the content of the notification data is displayed in the RFID tag data reception / reception data display warning device 2 It is determined that it is necessary to inform the driver, the driver can be displayed or warned that the two-wheeled vehicle 8 is proceeding toward the intersection, and the driver can recognize the two-wheeled vehicle from the left rear that has not been recognized. .

In FIG. 2, the four-wheeled vehicle B <b> 9 (second moving body) is directed to the intersection in the opposite lane of the traveling lane of the two-wheeled vehicle 8.
The RFID tag data reception / reception data display warning device 2 is also mounted on the four-wheeled vehicle B9.
Also in the oncoming lane, an antenna B (for transmission) 4 is disposed in the vicinity of the intersection, and the RFID tag detection / RFID tag data transmission device 1 and the antenna B (for transmission) 4 are connected (on the drawing). For this reason, the connection line between the RFID tag detection / RFID tag data transmitter 1 and the antenna B (for transmission) 4 is not shown).
As shown in FIG. 2, the antenna B (for transmission) 4 is similar to the antenna A (for transmission) 4 so that the notification data is distributed only to the vehicle (four-wheeled vehicle B) that is traveling toward the intersection. The vehicle is arranged so as to face the vehicle in progress toward the intersection. Alternatively, the directivity of the antenna (for transmission) 4 is adjusted so that the notification data is distributed only to the vehicle that is traveling toward the intersection.

When the motorcycle 8 with the RFID tag attached crosses in front of the RFID tag detection / RFID tag data transmission device 1 installed on the roadside, the RFID reader device 11 in the RFID tag detection / RFID tag data transmission device 1 The RFID tag data is read by communicating with the RFID tag attached to the two-wheeled vehicle 8 via the antenna (for detection) 3.
Since the RFID tag data read by the RFID reader device 11 includes the moving body type information, the RFID reader device 11 can detect the two-wheeled vehicle and notifies that the two-wheeled vehicle is moving toward the intersection. The notification data is transmitted from the information transmission unit 15 to the four-wheeled vehicle B9 (second moving body) in the communication area of the antenna B (for transmission) 4 via the antenna B (for transmission) 4. The notification data includes a right turn flag value that instructs the reception data sorting / selection unit 23 of the RFID tag data reception / reception data display warning device 2 to determine the possibility of a right turn.
The notification data transmitted from the information transmission unit 15 is received by the RFID tag data reception / reception data display warning device 2 mounted on the four-wheeled vehicle B9 that faces the two-wheeled vehicle 8 and is included in the notification data. When the four-wheeled vehicle B9 turns right at the intersection with reference to the right turn flag value, there is a risk of colliding with the two-wheeled vehicle 8 to which the RFID tag is attached, so the notification data in the RFID tag data reception / reception data display warning device 2 It is determined that it is necessary to inform the driver of the contents of the vehicle, and the driver is displayed or warned that the two-wheeled vehicle 8 is proceeding toward the intersection, and the driver recognizes the two-wheeled vehicle from the front that has not been recognized. Can do.

Next, the operation of detecting the RFID tag attached to the two-wheeled vehicle and detecting the direction with one RFID reader device 11 will be described with reference to FIG.
FIG. 3 is a diagram showing the attaching position of the RFID tag attached to the two-wheeled vehicle 8 shown in FIG.
The RFID tag (right) 6 affixed on the right side in the direction of travel of the two-wheeled vehicle has the right attribute in advance (a flag for notifying the RFID tag data that the data is from the right RFID tag is added). ) Directivity of the radio wave is also directed to the right side, and the RFID tag (left) 7 attached on the left side has the left attribute (notifies that the RFID tag data is data from the left RFID tag) The directivity of radio waves is also directed to the left side.
In this way, the RFID reader device 11 reads the tag data of the two RFID tags attached to the motorcycle, and the RFID tag (right) 6 attached to the right side and the RFID tag attached to the left side (left) ) Compare the reception sensitivity of 7 and if the RFID tag (right) 6 attached on the right side is larger than the reception sensitivity of the RFID tag (left) 7 attached on the left side, the motorcycle with the RFID tag attached is , The RFID tag detection / RFID tag data transmission device 1 is moving from the left to the right. Conversely, the reception sensitivity of the RFID tag (left) 7 affixed to the left side is the RFID tag ( (Right) When the receiving sensitivity is greater than 6, it can be seen that the two-wheeled vehicle with the RFID tag attached proceeds from the right to the left of the RFID tag detection / RFID tag data transmitting apparatus 1.

As described above, in the present embodiment, the RFID tag attached to the right side using the unidirectional RFID tag is attached to the RFID tag attached one by one to the left and right in the traveling direction of the motorcycle or the like to be detected. The RFID tag set so that the directivity is directed to the right side and the RFID tag attached to the left side is set to face the left side, so that the RFID reader device installed on the roadside is attached to the detection target When the tag is read, the difference between the reception sensitivity of the two RFID tags is increased so that the traveling direction of the two-wheeled vehicle is pasted from the right to the left due to the variation in reception sensitivity. An error that determines that the reception sensitivity of the tag is larger than the RFID tag attached to the left side is eliminated.
Further, the RFID tag attached to the right side of the RFID tag attached to the right and left one side in the traveling direction of the detection target motorcycle or the like holds a flag indicating the right attribute inside the RFID tag, By attaching a flag indicating the attribute of left to the inside of the RFID tag, the RFID reader device installed on the roadside is attached to the right side of the detection target motorcycle or the like. It is possible to easily determine whether the RFID tag is affixed.

FIG. 5 is a flowchart showing the operation until the four-wheeled vehicle can recognize the two-wheeled vehicle not recognized in the present embodiment based on FIG.
Hereinafter, a processing flow until the motorcycle is recognized using FIG. 5 will be described.

In step S101, the antenna (for detection) 3 connected to the RFID reader device 11 of the RFID tag detection / RFID tag data transmission device 1 communicates with the RFID tag (right) 6 and the RFID tag (left) 7, The tag data of the RFID tag (right) 6 and the RFID tag (left) 7 is read, and the process proceeds to step S102.
In step S102, when the reception sensitivity of the RFID tag (left) 7 is better than the reception sensitivity of the RFID tag (right) 6, notification data based on the RFID tag data read in step S101 is sent from the information transmission unit 15 to the antenna ( The data is transmitted to the vehicle in the communication area of the antenna (for transmission) 4 via (for transmission) 4, and the process proceeds to step S103. As described above, this notification data includes a left turn flag value or a right turn flag value.
In step S103, the information reception unit 21 of the RFID tag data reception / reception data display warning device 2 receives the notification data transmitted from the information transmission unit 15 of the RFID tag detection / RFID tag data transmission device 1, and the process proceeds to step S104. move on.
In step S104, the received data storage unit 22 stores the notification data received by the information receiving unit 21, and the process proceeds to step S105.
In step S105, the received data sorting selection unit 23 reads the notification data stored in the received data storage unit 22, refers to the left turn flag value or the right turn flag value, and the two-wheeled vehicle 8 and the four-wheeled vehicle 9 to which the RFID tag is attached collide. The process proceeds to step S106.
In step S106, if the received data sorting / selection unit 23 determines that there is a risk of collision between the two-wheeled vehicle 8 and the four-wheeled vehicle 9, and that a warning display is necessary, the process proceeds to step S107.
If it is determined in step S106 that there is no danger of a collision and it is not necessary to display a warning, the process is terminated without notifying the driver.
In step S107, the notification data notifies the driver that the vehicle type (two-wheeled vehicle) and the vehicle (two-wheeled vehicle) are traveling in the same direction (or the opposite direction) and warns the driver. Recognize that there is a motorcycle.

Next, the operation flow shown in FIG. 5 will be described as the operation of the RFID tag detection / RFID tag data transmission device 1 and the operation of the RFID tag data reception / reception data display warning device 2.
FIG. 6 is a flowchart showing an operation example of the RFID tag detection / RFID tag data transmission device 1, and FIG. 7 is a flowchart showing an operation example of the RFID tag data reception / reception data display warning device 2.

  In FIG. 6, in step S201, the RFID reader device 11 communicates with two RFID tags, an RFID tag (right) 6 and an RFID tag (left) 7, via an antenna (for detection) 3, and the RFID tag ( Read the RFID tag data of (right) 6 and RFID tag (left) 7 (tag data receiving step), and proceed to step S202.

  In step S202, the RFID tag data of the RFID tag (right) 6 and RFID tag (left) 7 read in step S201 and the reception sensitivity from the respective RFID tags are stored in the tag data storage unit 12, and the process proceeds to step S203. .

  In step S203, the traveling direction determination unit 13 reads the RFID tag data from the RFID tag (left) 7 and the reception sensitivity when the RFID tag data is read from the RFID tag (right) 6 stored in the tag data storage unit 12. The reception sensitivities are compared (traveling direction determination step), and the process proceeds to step S204.

  In step S204, the reception sensitivity of the RFID tag (right) 6 affixed to the right side is the RFID tag ( (Left) When the reception sensitivity is higher than 7, the processing is terminated, and the reception sensitivity of the RFID tag (left) 7 attached to the left side is larger than the reception sensitivity of the RFID tag (right) 6 attached to the right side. In this case, it can be determined that the mobile body is moving from the right side to the left side of the RFID tag detection / RFID tag data transmission device 1, and from this, the left side of the RFID tag detection / RFID tag data transmission device 1 (of the mobile body) It is determined that the moving body is traveling toward the intersection existing in the traveling direction), and the process proceeds to step S205 (traveling direction determination step).

In step S205, the notification generation unit 14 generates notification data (notification generation step), and the process proceeds to step S206.
The notification data indicates the type of mobile body (bicycle, motorcycle, person, wheelchair, etc.) and the traveling direction of the mobile body, and notifies that the mobile body is traveling toward the intersection. Note that the moving body type uses the moving body type information included in the RFID tag data, and the moving body travel direction uses the traveling direction of the moving body determined in step S204. Further, the notification data may include other information such as the color of the motorcycle body, the displacement of the motorcycle, and the like. Furthermore, the left turn flag value or the right flag value is included in the notification data depending on the direction of the antenna (for transmission) 4 that transmits the notification data. That is, the notification data transmitted to the antenna A in FIG. 2 includes the left turn flag value, and the notification data transmitted to the antenna B includes the right turn flag value.

In step S206, the information transmission unit 15 transmits the notification data generated by the notification generation unit 14 to the antenna (for transmission) 4 (notification output step), and ends the process.
Note that the notification data transmitted from the information transmission unit 15 in step S206 is wirelessly distributed from the antenna (for transmission) 4 disposed in the vicinity of the intersection toward the vehicle traveling around the intersection.

  Next, in FIG. 7, in step S <b> 301, the information reception unit 21 of the RFID tag data reception / reception data display warning device 2 mounted on the four-wheeled vehicle passes through the antenna (for transmission) 4 from the information transmission unit 15. The notification data distributed is received, and the process proceeds to step S302.

  In step S302, the notification data received by the information receiving unit 21 is stored in the received data storage unit 22, and the process proceeds to step S303.

  In step S303, if the received data sorting selection unit 23 includes a left turn flag value in the notification data, the two-wheeled vehicle from the left rear determines whether or not there is a possibility that the four-wheeled vehicle may cause an accident. If the right turn flag value is included in the notification data, it is determined whether there is a possibility that the four-wheeled vehicle will cause an accident by the two-wheeled vehicle traveling on the oncoming lane, and the process proceeds to step S304.

  In step S304, if the four-wheeled vehicle does not make a left turn or a right turn at the intersection, the reception data sorting / selection unit 23 determines that there is no possibility of an accident, and terminates the process without notifying the driver. . When the four-wheeled vehicle makes a left turn or a right turn at the intersection, the received data sorting selection unit 23 determines that there is a possibility of causing an accident, and proceeds to step S305.

  In step S305, the received data display / warning unit 24 notifies that the vehicle type (two-wheeled vehicle) and the vehicle (two-wheeled vehicle) are moving toward the intersection based on the moving body type information included in the notification data. By generating a notification message, displaying the notification message on the display, or guiding the notification message by voice and warning the driver, the driver recognizes that there is a motorcycle on the left rear, for example.

Thus, according to the present embodiment, for example, an RF tag is attached to a two-wheeled vehicle, and an RFID reader device installed on the roadside detects the two-wheeled vehicle by reading the RF tag attached to the two-wheeled vehicle. By notifying a four-wheeled vehicle at risk of collision, the driver of the four-wheeled vehicle can recognize a two-wheeled vehicle that has not been recognized, leading to prevention of an accident.
On the other hand, if the two-wheeled vehicle is detected only by RFID, the traveling direction of the two-wheeled vehicle is not known, and therefore there is a risk that unnecessary information notification and useless notification time will increase, and the quality of the notified information may deteriorate. Therefore, a system using two RFID reader devices has been proposed. However, if two RFID reader devices are used, the number of installations increases and the cost increases. Therefore, by attaching two RF tags to a motorcycle and comparing the reception sensitivity of the two RF tags, 1 The traveling direction of the two-wheeled vehicle can be detected with a single RFID reader device.

As described above, in the present embodiment, an RF tag is attached to a motorcycle or the like to be detected,
By detecting the RF tag of the detection target motorcycle by the RFID reader device installed on the roadside, the detection target motorcycle is detected,
Information on the detected two-wheeled vehicle, etc. is transmitted to the four-wheeled vehicle existing in the wireless communication area via information transmitting means capable of transmitting information by wireless communication installed on the roadside,
For four-wheeled vehicles in the wireless communication area, is information received by information receiving means capable of receiving information transmitted by wireless communication mounted on four-wheeled vehicles, etc., and is the received information information that may cause an accident? The electronic intersection system has been described which has an action of preventing an accident by giving a warning and a display to the driver if it is judged as dangerous.

  Further, in this embodiment, two RF tags are attached to the left and right in the traveling direction of the detection target motorcycle, and the two RFID tags are attached to the detection target motorcycle by the RFID reader device installed on the roadside. When the reception sensitivity of the RF tag affixed to the right is large by comparing the reception sensitivity when the RF tag is read, the traveling direction is determined from left to right, and the reception sensitivity of the RF tag affixed to the left is determined However, in the case where the traveling direction is large, the traveling direction is determined from the right to the left, and the electronic intersection system having the function of detecting the traveling direction with one RFID reader device has been described.

  In the present embodiment, the RF tag attached to the right side using the unidirectional RF tag to the RF tag attached one by one to the left and right in the traveling direction of the motorcycle to be detected, The RF tag set so that the directivity is directed to the right side and the RF tag attached to the left side is set to face the left side, so that the two RFID tags attached to the detection target are attached to the RFID reader device installed on the roadside. When reading, by increasing the difference in reception sensitivity between the two RF tags, due to variations in reception sensitivity, the traveling direction of a motorcycle or the like is not right but left, but the RF tag attached to the right side An electronic intersection system has been described that has the effect of eliminating the error of judging that the reception sensitivity is greater than the RF tag attached to the left side.

  Further, in the present embodiment, a flag indicating the right attribute is attached to the RF tag attached to the right side to the RF tag attached to the right and left sides in the traveling direction of the detection target motorcycle or the like. The RFID tag attached to the left side is attached to the right side of the detection target motorcycle, for example, by holding a flag indicating the attribute of left inside the RF tag. An electronic intersection system having the function of easily determining whether an RF tag or an RF tag attached to the left side has been described.

Embodiment 2. FIG.
In the first embodiment, the contents shown in the notification data transmitted from the RFID tag detection / RFID tag data transmitting apparatus 1 are mainly the type of the moving body (two-wheeled vehicle, etc.) and the traveling direction of the moving body. In this embodiment, the time when the moving body is expected to reach the intersection is notified.

FIG. 8 shows a configuration example of the electronic intersection system 100 (communication system) according to the present embodiment.
In FIG. 8, only the internal configuration example of the RFID tag detection / RFID tag data transmission device 1 is different, and the other components are the same as those shown in FIG. Only the internal configuration will be described.

In the RFID tag detection / RFID tag data transmission apparatus 1, a moving speed calculation unit 17, a time calculation unit 18, and a position information storage unit 19 are elements added in FIG.
The moving speed calculation unit 17 calculates the moving speed of the moving body when the moving direction determining unit 13 determines that the moving body (first moving body) such as a motorcycle is moving toward the intersection. . The procedure for calculating the moving speed by the moving speed calculator 17 will be described later.
The position information storage unit 19 stores the arrangement position of the RFID tag detection / RFID tag data transmission device 1 and the position of the target intersection. Further, the position information storage unit 19 may store a distance between the RFID tag detection / RFID tag data transmission device 1 and the intersection instead of the position information.
The time calculation unit 18 includes the moving speed of the moving object calculated by the moving speed calculation unit 17, the arrangement position of the RFID tag detection / RFID tag data transmission device 1 stored in the position information storage unit 19, and the position of the intersection. Based on the above, a time (first moving body arrival time) at which a moving body such as a motorcycle is expected to reach the intersection is calculated. As described above, in the case where the distance between the RFID tag detection / RFID tag data transmission device 1 and the intersection is stored in the position information storage unit 19, an estimate is made using the moving speed of the moving object and the distance. The arrival time to be calculated is calculated.
And in this Embodiment, the notification production | generation part 14 produces | generates the notification data which shows the time calculated by the time calculation part 18 with the kind (two-wheeled vehicle etc.) of a mobile body, and the advancing direction of the said mobile body, and transmits information. The unit 15 transmits this notification data.
The time calculated by the time calculation unit 18 is an approximate time indicating how many seconds a motorcycle or the like will reach the intersection.
In addition, since this time is a time when a two-wheeled vehicle or the like (first moving body) and a four-wheeled vehicle or the like (second moving body) may collide at an intersection, this time is hereinafter referred to as a collision time.

Next, an operation of detecting an RF tag attached to a motorcycle with one RFID reader device and detecting a speed and a collision time will be described with reference to FIG.
FIG. 4 is a diagram showing the attachment position of the RF tag attached to the two-wheeled vehicle 8 shown in FIG. 2. The RF tag is attached to the wheel of the two-wheeled vehicle 8, and half of the wheel of the two-wheeled vehicle is covered with the radio wave reflection absorbing cover 30. By covering, the RF tag comes in and out of the radio wave reflection absorption cover 30 every time the wheel makes a half rotation, and the access to the RF tag from the RFID reader device 11 can be accessed every half rotation. Assuming that the RFID reader device 11 accesses the RF tag once every 100 ms, the number of times of access and the number of times of inaccessibility are the same every half rotation, and the number of times of access and the size of the wheel Therefore, the collision time can be calculated from the calculated speed and the distance between the RFID tag detection / RFID tag data transmitter 1 and the intersection. .

That is, the wheel of the two-wheeled vehicle is 1 / n (n is an integer equal to or larger than 2, n = 2 in the example of FIG. The range of n is preferably 10 or less), and RF tags are arranged on the right and left sides of the wheel, and the RF tags arranged on both sides rotate as the wheel rotates. To do.
The RFID reader device 11 accesses each of the RF tags at a constant cycle (for example, once every 100 ms). While the RF tag is positioned under the radio wave reflection absorbing cover 30 during rotation, the RFID reader device 11 11 cannot communicate with the RF tag.
As a result, the RFID tag data is received from the RF tag as a response to the access with a probability of (1- (1 / n)).
The RFID tag data received from the RF tag indicates the size of the wheel of the two-wheeled vehicle 8.
The moving speed calculation unit 17 is based on the size of the wheel of the two-wheeled vehicle 8 indicated in the RFID tag data, the access period for the RF tag, the number of accesses to the RF tag, and the probability (1- (1 / n)). The moving speed of the motorcycle 8 is calculated.
The calculation formula of the moving speed is shown below.
The calculated moving speed indicates that the two-wheeled vehicle is traveling below the calculated moving speed.

Wheel size: Wheel circumference length Time per rotation: Time required for one rotation of the wheel Access frequency: Number of tag data accessed and read by the RFID reader during one rotation of the wheel Access cycle: Time interval at which the RFID reader accesses the RFID tag Probability: Area ratio of the portion not covered by the radio wave reflection absorbing cover Since the determination of one rotation of the wheel causes the accessibility to the IC tag by the radio wave absorbing cover, After the access becomes possible, it is determined that the user has made one rotation by watching once the access becomes impossible and the next access becomes possible.

  However, the speed calculated from the following formula cannot be measured.

Furthermore, if a plurality of RFID tags are attached to the wheels of the motorcycle, the rotational speed of the wheels can be calculated more accurately, and the accuracy of the collision time can be improved.
The calculation formula of the moving speed when a plurality of RFID tags are attached is shown below.
The calculated moving speed indicates that the two-wheeled vehicle is traveling below the calculated moving speed.

Number of RFID tags affixed: Number of RFID tags affixed to the wheel The determination of one rotation of the wheel will determine whether or not the IC tag can be accessed by the radio wave absorption cover. Then, it is determined that one rotation has been made by watching the next access. For this reason, all the attached FRID tags have different IDs.

  However, the speed calculated from the following formula cannot be measured.

  The moving speed calculation unit 17 determines the size of the wheel of the two-wheeled vehicle 8 indicated in the RFID tag data, the access cycle for the RF tag, and the number of accesses to each RF tag that accessed the RF tag during one rotation of the wheel of the two-wheeled vehicle. Based on the total and the probability, a more accurate moving speed is calculated.

Next, operation examples of the RFID tag detection / RFID tag data transmission device 1 and the RFID tag data reception / reception data display warning device 2 according to the present embodiment will be described.
FIG. 9 is a flowchart showing an operation example of the RFID tag detection / RFID tag data transmission apparatus 1 according to the present embodiment, and FIG. 10 shows an RFID tag data reception / reception data display warning apparatus 2 according to the present embodiment. It is a flowchart which shows the example of operation | movement.
In the following description, description will be made on the assumption that notification data is transmitted to a four-wheeled vehicle (four-wheeled vehicle A9 in FIG. 2) traveling in the same direction as the two-wheeled vehicle. Is omitted, but the notification data includes a left turn flag value or a right turn flag value.
Further, by setting a right turn flag value in the notification data, the collision time is notified to the driver of the four-wheeled vehicle (four-wheeled vehicle B9 in FIG. 2) traveling in the opposite direction to the two-wheeled vehicle in the procedure described below. can do.

  In FIG. 9, in step S201, the RFID reader device 11 communicates with two RFID tags, an RFID tag (right) 6 and an RFID tag (left) 7, via an antenna (for detection) 3, and the RFID tag ( Read the RFID tag data of (right) 6 and RFID tag (left) 7 (tag data receiving step), and proceed to step S401. As described above, the received RFID data includes information on the size of the wheel of the moving body in addition to the moving body type.

  In step S401, the RFID tag data of the RFID tag (right) 6 and the RFID tag (left) 7 read in step S201, the reception sensitivity from each RFID tag, and the number of accesses to the RFID tag are stored in the tag data storage unit 12. Then, the process proceeds to step S203.

  In step S203, the traveling direction determination unit 13 reads the RFID tag data from the RFID tag (left) 7 and the reception sensitivity when the RFID tag data is read from the RFID tag (right) 6 stored in the tag data storage unit 12. The reception sensitivities are compared (traveling direction determination step), and the process proceeds to step S204.

  In step S204, the reception sensitivity of the RFID tag (right) 6 affixed to the right side is the RFID tag ( (Left) When the reception sensitivity is higher than 7, the processing is terminated, and the reception sensitivity of the RFID tag (left) 7 attached to the left side is larger than the reception sensitivity of the RFID tag (right) 6 attached to the right side. In this case, the process proceeds to step S402 (traveling direction determination step).

In step S402, the moving speed calculation unit 17 calculates the moving speed of the moving body, and the process proceeds to step S403. As described above, the calculation method of the moving speed is calculated based on the size of the wheel of the moving body, the access period to the RF tag, the number of accesses to the RF tag, and the probability (1- (1 / n)). .
The size of the wheel of the moving body and the number of accesses are stored in the tag data storage unit 12, and the access cycle is a value predetermined in the RFID reader device 11, and the probability (1- (1 / n) ) Is obtained from the number of accesses and the number of tag data stored in the tag data storage unit 12 (corresponding to the number of responses to access).

In step S <b> 403, the time calculation unit 18 calculates the moving speed of the moving object calculated by the moving speed calculation unit 17 and the installation position of the RFID tag detection / RFID tag data transmission device 1 stored in the position information storage unit 19. Based on the position of the intersection, the collision time is calculated, and the process proceeds to step S205.
Specifically, the installation position of the RFID tag detection / RFID tag data transmission device 1 stored in the position information storage unit 19 and the location between the RFID tag detection / RFID tag data transmission device 1 and the intersection are determined from the intersection. By calculating the distance and dividing the distance by the moving speed, it is possible to know how many seconds the moving body will reach the intersection.
When the distance between the RFID tag detection / RFID tag data transmission device 1 and the intersection is stored in the position information storage unit 19, the collision time is calculated using the moving speed of the moving object and the distance. .

In step S205, the notification generation unit 14 generates notification data (notification generation step), and the process proceeds to step S206.
In the notification data, in addition to the type of moving body (bicycle, motorcycle, person, wheelchair, etc.) and the traveling direction of the moving body, the collision time calculated in step S403 (about several seconds later the moving body reaches the intersection) Will be displayed). Further, the moving speed calculated in step S402 may be included.

In step S206, the information transmission unit 15 transmits the notification data generated by the notification generation unit 14 to the antenna (for transmission) 4 (notification output step), and ends the process.
Note that the notification data transmitted from the information transmission unit 15 in step S206 is wirelessly distributed from the antenna (for transmission) 4 disposed in the vicinity of the intersection toward the vehicle traveling around the intersection.

  Next, in FIG. 10, in step S <b> 301, the information reception unit 21 of the RFID tag data reception / reception data display warning device 2 mounted on the four-wheeled vehicle passes through the antenna (for transmission) 4 from the information transmission unit 15. The notification data distributed is received, and the process proceeds to step S302.

  In step S302, the notification data received by the information receiving unit 21 is stored in the received data storage unit 22, and the process proceeds to step S303.

  In step S303, the reception data sorting / selection unit 23 determines whether there is a possibility that the four-wheeled vehicle will cause an accident due to the two-wheeled vehicle coming from the left rear, and the process proceeds to step S304.

  In step S304, if the four-wheeled vehicle does not make a left turn at the intersection, the received data selection unit 23 determines that there is no possibility of causing an accident, and ends the process without notifying the driver. When the four-wheeled vehicle makes a left turn at an intersection, the reception data sorting / selection unit 23 determines that an accident may occur, and the process proceeds to step S501.

In step S501, the received data display / warning unit 24 notifies that the vehicle type (two-wheeled vehicle) and the vehicle (two-wheeled vehicle) are moving toward the intersection based on the moving body type information included in the notification data. The driver recognizes that there is a motorcycle on the left rear by generating a notification message, displaying the notification message on the display, or guiding the notification message by voice and alerting the driver.
The notification message includes the collision time calculated by the time calculation unit 18, and the driver is notified of the timing at which the two-wheeled vehicle reaches the intersection.

As described above, according to the present embodiment, an RF tag is attached to a two-wheeled vehicle, and the RFID reader device installed on the roadside detects the two-wheeled vehicle by reading the RF tag attached to the two-wheeled vehicle. By notifying a four-wheeled vehicle at risk of collision, the four-wheeled vehicle can recognize a two-wheeled vehicle that has not been recognized, leading to prevention of an accident.
In addition, when notifying the driver of a four-wheeled vehicle that the two-wheeled vehicle is present, the driver will also be notified of the timing at which the two-wheeled vehicle reaches the intersection, in other words, the timing at which the four-wheeled vehicle and the two-wheeled vehicle may contact or collide. Can be alerted to motorcycles.

  As described above, in the present embodiment, an RF tag is attached to a wheel of a motorcycle to be detected, and the attached RF tag is set so as to rotate in accordance with the rotation of the wheel, and an RFID reader installed on the roadside. The speed of the two-wheeled vehicle is detected by covering the wheel half with metal that reflects radio waves and counting the number of accesses every half-turn so that the device can access the RF tag set on the wheel of the two-wheeled vehicle every half turn. An electronic crossing system with action has been described.

In the present embodiment, the RF tag is attached to the wheel of the two-wheeled vehicle to be detected, and the flag indicating the size of the wheel is held inside the RF tag on the attached RF tag, so that it is installed on the roadside. An electronic intersection system has been described in which an RFID reader device reads an RF tag attached to a wheel of a motorcycle to be detected to easily determine the size of the wheel of the motorcycle.

  Further, in this embodiment, the moving speed of the two-wheeled vehicle to be detected is calculated by increasing the number of RFID tags attached to the wheels of the two-wheeled vehicle, and calculating the total number of accesses of all the attached RFID tags and the number of RFID tags. The electronic intersection system that can further improve the accuracy of the moving speed by taking into account has been described.

Embodiment 3 FIG.
In the second embodiment, the RFID tag detection / RFID tag data transmission device 1 calculates the collision time and notifies the RFID tag data reception / reception data display warning device 2 of the collision time. However, in the present embodiment, The RFID tag detection / RFID tag data transmission device 1 calculates only the moving speed of the moving body, notifies the RFID tag data reception / reception data display warning device 2 of the movement speed, and receives the RFID tag data reception / reception data display warning device. In 2, the collision time is calculated.

FIG. 11 shows a configuration example of an electronic intersection system 100 (communication system) according to the present embodiment.
In FIG. 11, only the internal configuration examples of the RFID tag detection / RFID tag data transmission device 1 and the RFID tag data reception / reception data display warning device 2 are different, and other components are the same as those shown in FIGS. Only the internal configuration of the RFID tag detection / RFID tag data transmission device 1 and the RFID tag data reception / reception data display warning device 2 will be described because it is the same.

  In the RFID tag detection / RFID tag data transmission device 1, the time calculation unit 18 is omitted and the location information is provided from the location information storage unit 19 to the notification generation unit 14 as compared with the configuration of FIG. 8. Different.

On the other hand, in the RFID tag data reception / reception data display warning device 2, a time calculation unit 26 is added.
The time calculation unit 26 has the same function as the time calculation unit 18 described in the second embodiment, and is based on the content of the notification data transmitted from the RFID tag detection / RFID tag data transmission device 1. A collision time, which is a time at which a moving body such as is expected to reach the intersection, is calculated.
Specifically, the notification data from the RFID tag detection / RFID tag data transmission device 1 includes the movement speed calculated by the movement speed calculation unit 17 and the RFID tag detection / RFID stored in the position information storage unit 19. The arrangement position of the tag data transmission device 1 and the position of the intersection are indicated, and the time calculation unit 26 detects the RFID tag / RFID tag data transmission device from the installation position of the RFID tag detection / RFID tag data transmission device 1 and the position of the intersection. If the distance between 1 and the intersection is obtained and the distance is divided by the moving speed, it is possible to calculate how many seconds after the moving body reaches the intersection.
Similarly to the second embodiment, the distance between the RFID tag detection / RFID tag data transmission device 1 and the intersection is stored in the position information storage unit 19, and the distance is indicated in the notification data. The time calculation unit 26 calculates the collision time using the moving speed of the moving object and the distance.

Next, operation examples of the RFID tag detection / RFID tag data transmission device 1 and the RFID tag data reception / reception data display warning device 2 according to the present embodiment will be described.
FIG. 12 is a flowchart showing an operation example of the RFID tag detection / RFID tag data transmission apparatus 1 according to the present embodiment, and FIG. 13 shows an RFID tag data reception / reception data display warning apparatus 2 according to the present embodiment. It is a flowchart which shows the example of operation | movement.

  In FIG. 12, steps S201, S401, S203, S204, and S402 are the same as the processing shown in FIG.

In step S205, the notification generation unit 14 generates notification data (notification generation step), and the process proceeds to step S206.
In the notification data, in addition to the type of moving body (bicycle, motorcycle, person, wheelchair, etc.) and the traveling direction of the moving body, the moving speed calculated in step S402 is stored in the position information storage unit 19. The arrangement position of the RFID tag detection / RFID tag data transmission device 1 and the position of the intersection are shown.
Further, when the distance between the RFID tag detection / RFID tag data transmission device 1 and the intersection is stored in the position information storage unit 19, the distance is included instead.

In step S206, the information transmission unit 15 transmits the notification data generated by the notification generation unit 14 to the antenna (for transmission) 4 (notification output step), and ends the process.
Note that the notification data transmitted from the information transmission unit 15 in step S206 is wirelessly distributed from the antenna (for transmission) 4 disposed in the vicinity of the intersection toward the vehicle traveling around the intersection.

  Next, in FIG. 13, steps S301 to S304 are the same as the processing shown in FIG.

In step S601, when it is determined that the four-wheeled vehicle may turn left at the intersection and it is necessary to display the notification message, the time calculation unit 18 moves the moving speed of the moving object indicated in the notification data. The collision time is calculated based on the installation position of the RFID tag detection / RFID tag data transmission device 1 and the position of the intersection, and the process proceeds to step S501.
Specifically, the distance between the RFID tag detection / RFID tag data transmission apparatus 1 and the intersection is obtained from the installation position of the RFID tag detection / RFID tag data transmission apparatus 1 indicated in the notification data and the position of the intersection. By dividing the distance by the moving speed, it is possible to know how many seconds after the moving body reaches the intersection.
When the notification data indicates the distance between the RFID tag detection / RFID tag data transmission apparatus 1 and the intersection, the collision time is calculated using the moving speed of the moving object and the distance.

In step S501, the received data display / warning unit 24 notifies that the vehicle type (two-wheeled vehicle) and the vehicle (two-wheeled vehicle) are moving toward the intersection based on the moving body type information included in the notification data. The driver recognizes that there is a motorcycle on the left rear by generating a notification message, displaying the notification message on the display, or guiding the notification message by voice and alerting the driver.
The notification message includes the collision time calculated by the time calculation unit 26 in step S601, and the driver is notified of the timing at which the two-wheeled vehicle reaches the intersection.

As described above, according to the present embodiment, an RF tag is attached to a two-wheeled vehicle, and the RFID reader device installed on the roadside detects the two-wheeled vehicle by reading the RF tag attached to the two-wheeled vehicle. By notifying a four-wheeled vehicle at risk of collision, the four-wheeled vehicle can recognize a two-wheeled vehicle that has not been recognized, leading to prevention of an accident.
In addition, when notifying the driver of a four-wheeled vehicle that the two-wheeled vehicle is present, the driver will also be notified of the timing at which the two-wheeled vehicle reaches the intersection, in other words, the timing at which the four-wheeled vehicle and the two-wheeled vehicle may contact or collide. Can be alerted to motorcycles.

In the above description, a two-wheeled vehicle, a person, and a wheelchair are described as examples of the first moving body, and a four-wheeled vehicle is described as an example of the second moving body. The moving body is not limited to these.
For example, the first moving body is a four-wheeled vehicle, the second moving body is a two-wheeled vehicle, person or wheelchair holding an RFID tag data reception / reception data display warning device, and the four-wheeled vehicle is approaching from behind. May be notified to a passenger of a motorcycle, a pedestrian, a caregiver of a wheelchair, or the like.

  In the above description, an example using an RFID tag has been described. However, the present invention is not limited to an RFID tag, and other types of IC tags may be used.

  Here, the main features of the electronic intersection system using the RFID shown in Embodiments 1 to 3 are shown below.

The electronic intersection system using the RFID shown in the first to third embodiments is as follows.
An RF tag that is installed in a vehicle to be detected and holds an identification number (hereinafter referred to as RFID tag information) that identifies the type and vehicle of the vehicle to be detected;
An RFID reader device installed on the roadside for wirelessly communicating with an RF tag and reading RFID tag information;
The RFID tag information held by the RF tag read by wireless communication with the RF tag output from the RFID reader device installed on the roadside is received, and the received RFID tag information and the position of the RFID reader device reading the RF tag are used. Information transmitting means for transmitting the position of the RF tag (hereinafter referred to as RFID position information) to the vehicle in the transmission area;
An RFID detection / transmission unit that is installed on the roadside and controls the RFID reader device and the transmission means;
Information receiving means for outputting RFID tag information and RFID position information received from an information transmitting means installed in a vehicle to be notified, to a received data storage unit;
The RFID tag information and the RFID position information installed in the vehicle to be notified and output from the information receiving means are read from the received data storage unit, and whether or not it is necessary information is selected. If necessary, the RFID tag information and the RFID position are selected. If the information is output and it is not necessary information, the received data selection and selection unit for ending the process,
If it is determined that the received data selection unit installed in the vehicle to be notified is necessary, the received data display / warning unit displays or warns the RFID tag information and the RFID position information received from the received data selection unit;
The information receiving means, the received data storage unit, the received data selection / selection unit, and an RFID reception / display warning unit that controls the received data display / warning unit are installed in a vehicle to be notified. .

In addition, the electronic intersection system using the RFID shown in the first to third embodiments is as follows.
Set two RF tags on the vehicle to be detected,
In the wireless communication with the two RF tags attached to the vehicle to be detected by the RFID reader device installed on the road side, the two RFID tags read from the vehicle to be detected by the RFID reader device installed on the road side RFID tag information; a tag data storage unit that stores reception sensitivity of RFID tag information;
The main feature is that it has a direction determination means that is installed on the roadside and that determines the direction of the vehicle by reading and comparing the reception sensitivities of the two RF tags from the tag data storage unit.

In addition, the electronic intersection system using the RFID shown in the first to third embodiments is as follows.
The RF tag attached to the vehicle to be detected is attached to the right side and the left side in the traveling direction of the vehicle to be detected, and the radio wave directivity of the RF tag attached to the right side is directed to the right side and attached to the left side. The main feature is that the directivity of the radio wave of the RF tag is directed to the left side.

In addition, the electronic intersection system using the RFID shown in the first to third embodiments is as follows.
The RF tag attached to the detection target vehicle is attached to the right side and the left side in the traveling direction of the detection target vehicle, and the RF tag arranged on the right side has the right attribute and is attached to the left side. The main feature of the RF tag is that the left attribute is retained.

In addition, the electronic intersection system using the RFID shown in the first to third embodiments is as follows.
The RF tag attached to the vehicle to be detected is set on the wheel so as to rotate in accordance with the rotation of the wheel of the detection vehicle,
RFID tag information read from an RF tag installed on a roadside and attached to a detection target vehicle and a detection target vehicle in wireless communication with an RF tag set on a detection target wheel by an RFID reader device installed on the roadside The speed of the vehicle to be detected is calculated based on the number of accesses to the RF tag attached to the vehicle, and the collision between the vehicle to be detected and the vehicle to be notified is calculated from the speed of the vehicle to be detected and the position of the RFID reader device installed on the roadside. The main feature is that it has speed calculation means for calculating time.

In addition, the electronic intersection system using the RFID shown in the first to third embodiments is as follows.
The main feature is that data corresponding to the size of the wheel of the vehicle to be detected is held as the RFID tag information held in the RF tag attached to the vehicle to be detected.

In addition, the electronic intersection system using the RFID shown in the first to third embodiments is as follows.
Half of the detection target wheel is covered with a material that reflects or absorbs radio waves so that the RFID reader device installed on the roadside cannot access the RF tag attached to the detection target vehicle. Each time the RF tag affixed to the detection target vehicle makes a half rotation, the number of times that the RFID reader device installed on the roadside can access and how many times it cannot access is counted, thereby detecting the speed of the detection target vehicle. And the collision time between the vehicle to be detected and the vehicle to be notified is calculated based on the calculated speed and the position of the RFID reader device installed on the roadside.

Finally, a hardware configuration example of the RFID tag detection / RFID tag data transmission device 1 and the RFID tag data reception / reception data display warning device 2 shown in the first to third embodiments will be described.
FIG. 14 is a diagram illustrating an example of hardware resources of the RFID tag detection / RFID tag data transmission device 1 and the RFID tag data reception / reception data display warning device 2 described in the first to third embodiments.
The configuration of FIG. 14 is merely an example of the hardware configuration of the RFID tag detection / RFID tag data transmission device 1 and the RFID tag data reception / reception data display warning device 2, and RFID tag detection / RFID tag data. The hardware configuration of the transmission device 1 and the RFID tag data reception / reception data display warning device 2 is not limited to the configuration illustrated in FIG. 14 and may be other configurations.

In FIG. 14, an RFID tag detection / RFID tag data transmission device 1 and an RFID tag data reception / reception data display warning device 2 include a CPU 911 (Central Processing Unit, a central processing unit, a processing unit, an arithmetic unit, a microprocessor that executes a program. , Also referred to as a microcomputer or a processor). The CPU 911 is connected to, for example, a ROM (Read Only Memory) 913, a RAM (Random Access Memory) 914, a communication board 915, a display device 901, a keyboard 902, a mouse 903, and a magnetic disk device 920 via a bus 912. Control hardware devices. Further, the CPU 911 may be connected to an FDD 904 (Flexible Disk Drive), a compact disk device 905 (CDD), a printer device 906, and a scanner device 907. Further, instead of the magnetic disk device 920, a storage device such as an optical disk device or a memory card read / write device may be used.
The RAM 914 is an example of a volatile memory. The storage media of the ROM 913, the FDD 904, the CDD 905, and the magnetic disk device 920 are an example of a nonvolatile memory. These are examples of the storage device.
The communication board 915, the keyboard 902, the scanner device 907, the FDD 904, and the like are examples of input devices.
The communication board 915, the display device 901, the printer device 906, and the like are examples of output devices.

As shown in FIG. 1 and the like, the communication board 915 can perform wireless communication. For example, the communication board 915 can be connected to a LAN (local area network), the Internet, a WAN (wide area network), or the like.
The magnetic disk device 920 stores an operating system 921 (OS), a window system 922, a program group 923, and a file group 924. The programs in the program group 923 are executed by the CPU 911, the operating system 921, and the window system 922.
The tag data storage unit 12, the reception data storage unit 22, and the position information storage unit 19 are configured by, for example, a magnetic disk device 920.

The program group 923 stores a program for executing the function described as “˜unit” in the description of the first to third embodiments. The program is read and executed by the CPU 911.
The program group 923 includes, for example, a traveling direction determination unit 13, a notification generation unit 14, an information transmission unit 15, an RFID detection / transmission control unit 16, a moving speed calculation unit 17, a time calculation unit 18, an information reception unit 21, and received data. A program for executing the functions of the sorting selection unit 23, the reception data display / warning unit 24, the RFID reception / display warning unit 25, and the time calculation unit 26 is stored.

In the file group 924, in the description of the first to third embodiments, “determination of”, “determination of”, “calculation of”, “comparison of”, “calculation of”, and “generation of” are performed. ”,“ Setting of ”,“ registration of ”, etc., information, data, signal values, variable values, and parameters indicating the results of processing are indicated as“ ˜file ”and“ ˜database ”items. It is remembered.
The “˜file” and “˜database” are stored in a recording medium such as a disk or a memory. Information, data, signal values, variable values, and parameters stored in a storage medium such as a disk or memory are read out to the main memory or cache memory by the CPU 911 via a read / write circuit, and extracted, searched, referenced, compared, Used for CPU operations such as calculation, calculation, processing, editing, output, printing, and display.
Information, data, signal values, variable values, and parameters are stored in the main memory, registers, cache memory, and buffers during the CPU operations of extraction, search, reference, comparison, calculation, processing, editing, output, printing, and display. It is temporarily stored in a memory or the like.
In addition, arrows in the flowcharts described in the first to third embodiments mainly indicate input / output of data and signals, and the data and signal values are the memory of the RAM 914, the flexible disk of the FDD904, the compact disk of the CDD905, and the magnetic field. Recording is performed on a recording medium such as a magnetic disk of the disk device 920, other optical disks, mini disks, DVDs, and the like. Data and signals are transmitted online via a bus 912, signal lines, cables, or other transmission media.

In addition, in the description of the first to third embodiments, what is described as “to part” and “to means” may be “to circuit”, “to device”, and “to device”. , “˜step”, “˜procedure”, and “˜processing”. That is, what is described as “˜unit” and “˜means” may be realized by firmware stored in the ROM 913. Alternatively, it may be implemented only by software, or only by hardware such as elements, devices, substrates, and wirings, by a combination of software and hardware, or by a combination of firmware. Firmware and software are stored as programs in a recording medium such as a magnetic disk, a flexible disk, an optical disk, a compact disk, a mini disk, and a DVD. The program is read by the CPU 911 and executed by the CPU 911. That is, the program causes the computer to function as “to part” and “to means” in the first to third embodiments. Alternatively, the procedures and methods of “to part” and “to means” in the first to third embodiments are executed by a computer.

  As described above, the RFID tag detection / RFID tag data transmission device 1 and the RFID tag data reception / reception data display warning device 2 shown in the first to third embodiments include a CPU as a processing device, a memory as a storage device, a magnetic disk, etc. A computer including an input device such as a keyboard, a mouse, and a communication board, a display device that is an output device, a communication board, and the like. This is realized using a device, an input device, and an output device.

1 is a diagram illustrating a configuration example of an electronic intersection system according to Embodiment 1. FIG. The figure explaining the flow which notifies a four-wheeled vehicle of the progress of the two-wheeled vehicle which concerns on Embodiment 1. FIG. FIG. 3 is a diagram showing a determination principle of an RFID tag attaching position and a traveling direction according to Embodiment 1; The figure which shows the example which installs an electromagnetic wave reflection absorption cover in the wheel which concerns on Embodiment 2. FIG. The flowchart figure which shows the operation example of the electronic intersection system which concerns on Embodiment 1. FIG. FIG. 3 is a flowchart showing an operation example of the RFID tag detection / RFID tag data transmission apparatus according to the first embodiment. FIG. 3 is a flowchart showing an operation example of the RFID tag data reception / reception data display warning device according to the first embodiment. The figure which shows the structural example of the electronic intersection system which concerns on Embodiment 2. FIG. FIG. 9 is a flowchart showing an operation example of the RFID tag detection / RFID tag data transmission apparatus according to the second embodiment. The flowchart figure which shows the operation example of the RFID tag data reception / reception data display warning apparatus which concerns on Embodiment 2. FIG. FIG. 6 is a diagram illustrating a configuration example of an electronic intersection system according to a third embodiment. FIG. 10 is a flowchart showing an operation example of the RFID tag detection / RFID tag data transmission apparatus according to the third embodiment. FIG. 10 is a flowchart showing an operation example of the RFID tag data reception / reception data display warning device according to the third embodiment. The figure which shows the hardware structural example of the RFID tag detection / RFID tag data transmission apparatus and RFID tag data reception / reception data display warning apparatus which concern on Embodiment 1-3.

Explanation of symbols

  1 RFID tag detection / RFID tag data transmission device, 2 RFID tag data reception / reception data display warning device, 3 antenna (for detection), 4 antenna (for transmission), 5 antenna (for reception), 6 RFID tag (right) 7 RFID tag (left), 11 RFID reader device, 12 tag data storage unit, 13 traveling direction determination unit, 14 notification generation unit, 15 information transmission unit, 16 RFID detection / transmission control unit, 17 movement speed calculation unit, 18 Time calculation unit, 19 Position information storage unit, 21 Information reception unit, 22 Reception data storage unit, 23 Reception data selection unit, 24 Reception data display / warning unit, 25 RFID reception / display warning unit, 26 Time calculation unit, 100 Electronic intersection system.

Claims (20)

A tag data receiving unit for receiving tag data from each of a right IC tag arranged on the right side of the first mobile body having a right side and a left side and a left IC tag arranged on the left side; ,
Compare the receiving sensitivity of the tag data from the right IC tag and the receiving sensitivity of the tag data from the left IC tag, analyze the traveling direction of the first moving body, and identify the first moving body A traveling direction determination unit that determines whether the vehicle is traveling toward the point of
When the traveling direction determination unit determines that the first moving body is traveling toward the specific point, the second moving body traveling toward the specific point A notification generating unit that generates a first moving body progress notification for notifying that one moving body is moving toward the specific point;
Notification of transmitting the first mobile body progress notification to an antenna device arranged in the vicinity of the specific point and wirelessly distributing the first mobile body progress notification from the antenna device toward the periphery of the specific point An information processing apparatus comprising: a transmission unit. The information processing apparatus includes:
Arranged on the road side of the moving path on which the first moving body moves;
The traveling direction determination unit
As a result of comparing the reception sensitivity of the tag data from the right IC tag and the reception sensitivity of the tag data from the left IC tag, the reception sensitivity of the tag data from the left IC tag is The information processing apparatus according to claim 1, wherein when the sensitivity is better than the reception sensitivity, it is determined that the first moving body is traveling toward the specific point. The tag data receiving unit
Receiving tag data including moving body type information indicating a moving body type of the first moving body from at least one of the right IC tag and the left IC tag;
The notification generation unit
When the traveling direction determination unit determines that the first moving body is traveling toward the specific point, the moving body type of the first moving body indicated in the moving body type information is The information processing apparatus according to claim 1, wherein the first moving body progress notification shown is generated. The information processing apparatus further includes:
A moving speed calculating unit that calculates a moving speed of the first moving body when the moving direction determining unit determines that the first moving body is moving toward the specific point;
A position information storage unit that stores an arrangement position of the information processing apparatus and a position of the specific point;
Based on the moving speed of the first moving body calculated by the moving speed calculating unit, the arrangement position of the information processing device stored in the position information storage unit, and the position of the specific point, A time calculation unit that calculates a time at which the first mobile body reaches the specific point as a first mobile body arrival time;
The notification generation unit
When the traveling direction determination unit determines that the first moving body is moving toward the specific point, a first moving body progress notification is generated that indicates the arrival time of the first moving body. The information processing apparatus according to any one of claims 1 to 3. The information processing apparatus further includes:
A moving speed calculating unit that calculates a moving speed of the first moving body when the moving direction determining unit determines that the first moving body is moving toward the specific point; A position information storage unit that stores an arrangement position of the information processing device;
The notification generator
When the traveling direction determination unit determines that the first moving body is traveling toward the specific point, the moving speed of the first moving body and the position of the information processing device are indicated. The information processing apparatus according to any one of claims 1 to 3, wherein a first moving body progress notification is generated. The location information storage unit
Storing the position of the specific point;
The notification generation unit
When the traveling direction determination unit determines that the first moving body is traveling toward the specific point, the moving speed of the first moving body, the position of the information processing device, and the identification The information processing apparatus according to claim 5, wherein a first moving body progress notification indicating the position of the point is generated. The tag data receiving unit
Access to each of the right IC tag and the left IC tag of the first moving body having a wheel at a constant period, and (1- (1 / n)) (n is an integer of 2 or more) The tag data indicating the size of the wheel of the first moving body is received as a response to the access with the probability of
The moving speed calculation unit
The size of the wheel of the first moving body indicated in the tag data, the access cycle to the right IC tag and the left IC tag, the number of accesses to the right IC tag and the left IC tag, and the probability (1− The information processing apparatus according to any one of claims 4 to 6, wherein a moving speed of the first moving body is calculated based on (1 / n)). The tag data receiving unit
The plurality of right IC tags arranged on the right side surface of the first moving body and the plurality of left IC tags arranged on the left side surface are accessed at a constant cycle. 1- (1 / n)) (n is an integer equal to or greater than 2), and receives tag data indicating the size of the wheel of the first moving body as a response to access,
The moving speed calculation unit
The size of the wheel of the first moving body indicated in the tag data, the access period for the plurality of right IC tags and the plurality of left IC tags, and the plurality of right IC tags and the plurality of left IC tags 5. The moving speed of the first moving body is calculated based on the number of accesses, the probability (1- (1 / n)), and the number of right IC tags or left IC tags. Information processing apparatus in any one of -6. The tag data receiving unit
1 / n range is covered with a fixed radio wave reflection absorbing cover that reflects or absorbs radio waves. It is arranged on the right and left sides of the wheel and rotates with the rotation of the wheel. Communication is not possible while positioned under the absorption cover. As a result, the right IC tag and the left IC tag transmit tag data in response to access with a probability of (1- (1 / n)) of the number of accesses. The information processing apparatus according to claim 7, wherein tag data is received from each. The tag data receiving unit
1 / n range is covered with a fixed radio wave reflection absorbing cover that reflects or absorbs radio waves. It is arranged on the right and left sides of the wheel and rotates with the rotation of the wheel. Communication is impossible while positioned under the absorption cover, and as a result, a plurality of right IC tags each transmitting tag data in response to access with a probability of (1- (1 / n)) of the number of accesses, and 9. The information processing apparatus according to claim 8, wherein tag data is received from each of the plurality of left IC tags. The traveling direction determination unit
The specific point is a specific intersection, the traveling direction of the first moving body is analyzed, and it is determined whether or not the first moving body is traveling toward the specific intersection,
The notification generation unit
When the traveling direction determination unit determines that the first moving body is moving toward the specific intersection, the second moving body is moving toward the specific intersection. Generating a first mobile progress notification notifying that one mobile is progressing toward the specific intersection;
The notification transmitter
Transmitting the first mobile body progress notification to an antenna device arranged in the vicinity of the specific intersection, and wirelessly distributing the first mobile body progress notification from the antenna device toward the periphery of the specific intersection The information processing apparatus according to claim 1. The tag data receiving unit
Receive tag data from each of the right IC tag arranged on the right side of the motorcycle and the left IC tag arranged on the left side,
The traveling direction determination unit
Analyzing the direction of travel of the motorcycle and determining whether the motorcycle is traveling toward the specific intersection;
The notification generation unit
When the traveling direction determination unit determines that the two-wheeled vehicle is traveling toward the specific intersection, at least one of the two-wheeled vehicle and the four-wheeled vehicle traveling toward the specific intersection The information processing apparatus according to claim 11, wherein a first moving body progress notification for notifying that a two-wheeled vehicle is traveling toward the specific intersection is generated. An information processing apparatus that analyzes a traveling direction of a first mobile body having a right side surface and a left side surface, and a communication system mounted on a second mobile body,
The information processing apparatus includes:
A tag data receiving unit that receives tag data from each of the right IC tag arranged on the right side surface of the first moving body and the left IC tag arranged on the left side surface;
Compare the receiving sensitivity of the tag data from the right IC tag and the receiving sensitivity of the tag data from the left IC tag, analyze the traveling direction of the first moving body, and identify the first moving body A traveling direction determination unit that determines whether the vehicle is traveling toward the point of
When the traveling direction determination unit determines that the first moving body is traveling toward the specific point, the second moving body traveling toward the specific point A notification generating unit that generates a first moving body progress notification for notifying that one moving body is moving toward the specific point;
Notification of transmitting the first mobile body progress notification to an antenna device arranged in the vicinity of the specific point and wirelessly distributing the first mobile body progress notification from the antenna device toward the periphery of the specific point A transmission unit,
The communication device
A notification receiving unit that receives the first mobile unit progress notification from the antenna device when the second mobile unit is traveling toward the specific point;
When the notification of the first moving body is received by the notification receiving unit, it is determined whether or not the first moving body and the second moving body may contact at the specific point. A contact possibility determination unit;
When it is determined by the contact possibility determination unit that the first moving body and the second moving body may contact at the specific point, the first moving body progress notification is used. And a notification output unit that outputs a notification message notifying that the first moving body is moving toward the specific point. In the information processing apparatus,
The traveling direction determination unit
The specific point is a specific intersection, the traveling direction of the first moving body is analyzed, and it is determined whether or not the first moving body is traveling toward the specific intersection,
The notification generation unit
When the traveling direction determination unit determines that the first moving body is moving toward the specific intersection, the second moving body is moving toward the specific intersection. Generating a first mobile progress notification notifying that one mobile is progressing toward the specific intersection;
The notification transmitter
Transmitting the first mobile body progress notification to an antenna device disposed in the vicinity of the specific intersection, causing the first mobile body progress notification to be distributed wirelessly from the antenna device toward the periphery of the specific intersection,
In the communication device,
The notification receiver
When the second mobile body is traveling toward the specific intersection, the first mobile body progress notification is received from the antenna device;
The contact possibility determination unit
When the first mobile body progress notification is received by the notification receiver, it is determined whether the second mobile body makes a left turn at the specific intersection, and the second mobile body is the specific mobile body. When it is determined to turn left at an intersection, it is determined that the first moving body and the second moving body may contact at the specific intersection,
The notification output unit
When it is determined by the contact possibility determination unit that the first moving body and the second moving body may contact at the specific intersection, the first moving body progress notification is used. 14. The communication system according to claim 13, wherein a notification message for notifying that the first moving body is moving toward the specific intersection is output. In the information processing apparatus,
The tag data receiving unit
Receiving tag data including moving body type information indicating a moving body type of the first moving body from at least one of the right IC tag and the left IC tag;
The notification generation unit
When the traveling direction determination unit determines that the first moving body is traveling toward the specific point, the moving body type of the first moving body indicated in the moving body type information is Generate the first mobile progress notification shown,
In the communication device,
The notification output unit
When it is determined by the contact possibility determination unit that the first moving body and the second moving body may contact at the specific point, the moving body type of the first moving body is determined. 15. The communication system according to claim 13, wherein a notification message is output. The information processing apparatus further includes:
A moving speed calculating unit that calculates a moving speed of the first moving body when the moving direction determining unit determines that the first moving body is moving toward the specific point;
A position information storage unit that stores an arrangement position of the information processing apparatus and a position of the specific point;
Based on the moving speed of the first moving body calculated by the moving speed calculating unit, the arrangement position of the information processing device stored in the position information storage unit, and the position of the specific point, A time calculation unit that calculates a time at which the first mobile body reaches the specific point as a first mobile body arrival time;
The notification generation unit
When the traveling direction determination unit determines that the first moving body is traveling toward the specific point, it generates a first moving body advance notification indicating the arrival time of the first moving body. ,
In the communication device,
The notification output unit
Notification indicating the first mobile body arrival time when the contact possibility determination unit determines that the first mobile body and the second mobile body may contact at the specific point The communication system according to any one of claims 13 to 15, wherein a message is output. The information processing apparatus further includes:
A moving speed calculating unit that calculates a moving speed of the first moving body when the moving direction determining unit determines that the first moving body is moving toward the specific point;
A position information storage unit that stores an arrangement position of the information processing device and a position of the specific point;
The notification generation unit
When the traveling direction determination unit determines that the first moving body is traveling toward the specific point, the moving speed of the first moving body, the position of the information processing device, and the identification A first mobile progress notification showing the location of the point,
The communication device further includes:
Based on the moving speed of the first moving body indicated in the notification of progress of the first moving body, the position of the information processing device, and the position of the specific point, the first moving body is the specific point. A time calculation unit that calculates the time to reach the first mobile body arrival time,
The notification output unit
The first time calculated by the time calculation unit when the contact possibility determination unit determines that the first moving body and the second moving body may contact at the specific point. The communication system according to any one of claims 13 to 15, wherein a notification message indicating a mobile arrival time is output. The information processing apparatus includes:
The first moving body is a two-wheeled vehicle, the specific point is a specific intersection,
The traveling direction determination unit
Analyzing the direction of travel of the motorcycle and determining whether the motorcycle is traveling toward the specific intersection;
The notification generation unit
When the traveling direction determination unit determines that the two-wheeled vehicle is traveling toward the specific intersection, at least one of the two-wheeled vehicle and the four-wheeled vehicle traveling toward the specific intersection Generating a first mobile progress notification notifying that the two-wheeled vehicle is traveling toward the specific intersection;
The communication device
As the second moving body, mounted on a two-wheeled vehicle or a four-wheeled vehicle,
The contact possibility determination unit
When the notification of the first moving body progress is received by the notification receiving unit, the two-wheeled vehicle as the first moving body and the two-wheeled vehicle or the four-wheeled vehicle as the second moving body contact at the specific intersection. To determine whether or not
The notification output unit
When the two-wheeled vehicle that is the first moving body and the two-wheeled vehicle or the four-wheeled vehicle that is the second moving body are determined to be in contact with each other at the specific intersection by the contact possibility determination unit, The notification message for notifying that the two-wheeled vehicle as the first moving body is moving toward the specific intersection is output using the first moving body progress notification. The communication system according to any one of 17. Tag data in which the computer receives tag data from each of the right IC tag arranged on the right side and the left IC tag arranged on the left side of the first moving body having the right side and the left side. Receiving step;
The computer compares the receiving sensitivity of the tag data from the right IC tag with the receiving sensitivity of the tag data from the left IC tag, analyzes the traveling direction of the first moving body, and A traveling direction determination step for determining whether or not the moving body is traveling toward a specific point;
The second movement in which the computer is moving toward the specific point when it is determined in the moving direction determination step that the first moving body is moving toward the specific point. A notification generating step for generating a first moving body progress notification for notifying the body that the first moving body is moving toward the specific point;
The computer transmits the first mobile body progress notification to an antenna device arranged in the vicinity of the specific point, and sends the first mobile body progress notification from the antenna device toward the periphery of the specific point. An information processing method comprising: a notification transmission step for wireless distribution. Tag data reception processing for receiving tag data from each of the right IC tag arranged on the right side and the left IC tag arranged on the left side of the first moving body having the right side and the left side ,
Compare the receiving sensitivity of the tag data from the right IC tag and the receiving sensitivity of the tag data from the left IC tag, analyze the traveling direction of the first moving body, and identify the first moving body A traveling direction determination process for determining whether or not the vehicle is traveling toward the point,
When it is determined by the traveling direction determination process that the first moving body is traveling toward the specific point, the second moving body traveling toward the specific point is Notification generation processing for generating a first mobile body progress notification for notifying that one mobile body is moving toward the specific point;
Notification of transmitting the first mobile body progress notification to an antenna device arranged in the vicinity of the specific point, and causing the antenna device to wirelessly distribute the first mobile body progress notification toward the periphery of the specific point A program for causing a computer to execute transmission processing.

Images