JP4429436B2 - Traffic control system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a traffic control system that prevents traffic accidents at intersections.
[0002]
[Prior art]
FIG. 8 shows a conventional traffic control system at an intersection. In the conventional method, the signal lights of the traffic lights 3a, 3b, 3c, 3d are controlled so that one of the colors of blue, yellow, and red is lit, and the vehicle proceeds, stops to automobiles, motorcycles, pedestrians, etc. Is configured to give instructions.
[0003]
[Problems to be solved by the invention]
However, in the conventional configuration, it may be difficult to prevent a collision accident between the automobile and the motorcycle. For example, when the traffic lights 3a and 3b are blue or yellow, the automobile 1a trying to turn right turns right without being aware of the existence of the motorcycle 2a that is hidden behind the other automobiles 1d and 1e and cannot be seen. This may cause a collision with the motorcycle at the intersection (right accident). In addition, the automobile 1b that is about to turn left turns left without noticing the presence of the motorcycle 2b traveling in an invisible place in the blind spot of the own vehicle, causing an accident or contact accident with the motorcycle. There is a possibility (left-handed accident).
[0004]
In the conventional traffic control system, there is no function to call attention to the possibility that a right-straight accident or a left-straight accident may occur, simply by giving a command to advance or stop the entire traffic. There is a problem that it is powerless to prevent a motorcycle crash. Such collision accidents between automobiles and motorcycles often lead to serious accidents such as death or serious injury of motorcycle drivers, and there is a strong social demand to prevent such accidents.
[0005]
Therefore, an object of the present invention is to provide a traffic control system that prevents a collision between vehicles in an intersection.
[0006]
[Means for Solving the Problems]
The invention described in claim 1 A distance measuring device is installed at each traffic signal at the crossroads, and a motorcycle that enters the intersection is equipped with a distance measuring device that turns on the power when it is running and turns off the power when it is stopped. A warning indicator is installed in the vicinity of each traffic light or in the traffic light itself, and the distance measuring device installed in each traffic light turns off the distance measuring device when the traffic light is red, and the traffic light is blue or yellow. When the distance measuring device is turned on, the distance between the distance measuring device of the motorcycle traveling on the road side controlled by the traffic signal is measured by transmitting and receiving radio waves, and the motorcycle is When approaching a predetermined distance, a warning is displayed on each of the two warning indicators installed on the road side where the motorcycle travels. It is characterized by that.
[0007]
The invention according to claim 2 Ranging device and transmitter are installed at each traffic signal at the intersection, and the motorcycle that enters the intersection turns on the power when it is running and turns off the power when it is stopped Ranging devices equipped with receivers and voice warning devices in automobiles and installed on each traffic light turn off the distance measuring device when the traffic light is red, and when the traffic light is blue or yellow The distance measuring device is turned on, and the distance between the distance measuring device of the motorcycle traveling on the road side controlled by the traffic signal is measured by transmitting and receiving radio waves, and the motorcycle is connected to the traffic signal. When approaching a predetermined distance, proceed from the transmitter installed at the traffic signal to the motorcycle, proceed to the motorcycle, turn right at the intersection, and proceed in the same direction as the motorcycle. Turn left Each car receiver transmits the danger signal, the audio warning device of the vehicle is voice output danger It is characterized by that.
[0013]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of the present invention will be described with reference to the accompanying drawings.
[0014]
FIG. 1 shows a traffic control system according to the present embodiment, and 1a, 1b, 1c, 1d, and 1e denote automobiles. Distance measuring devices 4a, 4b, 4c and 4d are installed at the traffic lights 3a, 3b, 3c and 3d at the intersections, respectively. In addition, distance measuring devices 5a and 5b are mounted on the motorcycles 2a and 2b traveling on the road, respectively. Further, warning indicators 6a, 6b, 6c and 6d are installed in the vicinity of the traffic lights 3a to 3d or in the traffic lights themselves.
[0015]
The distance measuring devices 4a to 4d installed in each of the traffic lights 3a to 3d measure the distance between the distance measuring device mounted on the motorcycle traveling on the road side controlled by the traffic signal and itself. And For example, the distance measuring device 4a installed in the traffic light 3a measures the distance between the distance measuring device 5a mounted on the motorcycle 2a and itself. Similarly, the distance measuring device 4b installed in the traffic light 3b measures the distance between the distance measuring device 5b mounted on the motorcycle 2b and itself.
[0016]
As described above, the distance measurement is performed between the distance measuring devices 5a and 5b mounted on the motorcycle traveling on the road side where traffic signals are installed by the traffic lights installed in the distance measuring devices 4a to 4d. And Accordingly, the distance measuring device 4a does not measure the distance to the distance measuring device 5b, and the distance measuring device 4c does not measure the distance to the distance measuring device 5a. Such distance measurement can be selected by providing directivity to the radio waves emitted from the distance measuring devices 4a to 4d and controlling the power of the distance measuring devices 4a to 4d to be ON / OFF. Will be described later.
[0017]
Now, as described above, the distance measuring devices 4a to 4d installed in the traffic light measure the distance between the distance measuring devices 5a and 5b mounted on the motorcycles 2a and 2b, and the results thereof. The distance between the traffic lights 3a to 3d and the motorcycles 2a and 2b can be detected. Therefore, if the distance is smaller than a predetermined distance value, it is determined that the motorcycles 2a and 2b have approached the intersection, and the warning indicator 6a to 6d indicates the situation of "motorcycle approach" as a character or Display on another display. For example, when the traffic lights 3a and 3b are “blue” or “yellow”, the distance measuring devices 4a and 4b are operated, and the distance between the distance measuring device 4a and the distance measuring device 5a, and the distance measuring device 4b and the object to be measured are measured. Each distance between the distance measuring devices 5b is measured. Then, the distance between the traffic light 3a and the motorcycle 2a is detected based on the distance between the distance measuring device 4a and the distance measuring device 5a, and if the value is smaller than a predetermined value, the warning indicators 6a and 6c indicate “the motorcycle. The situation “approaching” is displayed. Similarly, the result of the distance measurement between the distance measuring device 4b and the distance measuring device 5b is displayed on the warning indicators 6b and 6d. If it does so, the motor vehicle 1a which is going to turn right in the intersection knows the approach of the motorcycle 2a which is advancing from the place hidden behind the motor vehicles 1d and 1e by the display content of the warning indicator 6c. And collision with it can be avoided, so that a so-called “right-handed accident” can be prevented. In addition, the vehicle 1b that is about to turn left at the intersection can know the approach of the motorcycle 2b traveling in an invisible place in the blind spot of the vehicle by the display content of the warning indicator 6b, and contact with it. Therefore, the so-called “left-handed accident” can be prevented. Similarly, a left-right accident of the automobile 1d can be prevented by the display content of the warning display device 6a, and a right-straight accident of the automobile 1c can be prevented by the display content of the warning display device 6d. On the other hand, in the case of a right-straight / left-handed accident on the intersecting road, the distance measuring devices 4c, 4d operate the distance measuring devices 4c, 4d when the traffic lights 3c, 3d are "blue" or "yellow". If the distance measurement results are displayed on the warning display devices 6b and 6c and the distance measurement result of the distance measuring device 4d are displayed on the warning display devices 6a and 6d, it can be similarly prevented.
[0018]
As described above, in this embodiment, it is determined whether or not the motorcycle has approached the intersection by measuring the distance between the distance measuring device installed in the motorcycle and the distance measuring device installed in the traffic light. By warning the vehicle with the warning display, the “right accident” and “left accident” at the intersection can be prevented.
[0019]
FIG. 2 shows an arrangement example of the distance measuring device and the distance measuring device according to the present embodiment. The distance measuring devices 4a to 4d measure the distance by transmitting and receiving radio waves to and from the distance measuring devices 5a and 5b. Therefore, each of the distance measuring devices 4a to 4d and the distance measuring devices 5a and 5b is connected to a radio wave transmitting / receiving antenna.
[0020]
At this time, the distance measuring device 4 is installed in the traffic light 3, but it is desirable that the transmission / reception antenna 40 of the distance measuring device 4 be installed as high as possible on the traffic light 3. As seen from the transmission / reception antenna 40 of the distance measuring device 4, the motorcycle 2 traveling on the road side where the traffic signal 3 on which the distance measuring device 4 is installed is traffic-controlled can be seen as far as possible from a position free of obstacles. Because. If the transmission / reception antenna 40 of the distance measuring device 4 is in the lower position, radio waves from the transmission / reception antenna 40 may be shielded by a car / pedestrian, a sign or a signboard, which is not desirable. However, even if the position of the transmission / reception antenna 40 of the distance measuring device 4 is not the part above the signal device 3, the installation position is basically not limited as long as it is a place where there is no possibility of shielding the above-described radio waves. Absent.
[0021]
The transmission / reception antenna 40 of the distance measuring device 4 has directivity so that the traffic light 3 on which the distance measuring device 4 is installed emits and receives radio waves on the road side where traffic is controlled. It does not send / receive radio waves to / from the motorcycle 2 behind or on the side of the traffic light 3, but only sends / receives radio waves to / from the motorcycle 2 in front of the traffic light 3 (the road side on which the traffic light controls traffic). This is to execute.
[0022]
In addition, although the distance measuring device 5 is mounted on the motorcycle 2, the transmission / reception antenna 50 of the distance measuring device 5 is installed at a position in front of the motorcycle 2. Further, the transmission / reception antenna 50 of the distance measuring device 5 has directivity so as to radiate and receive radio waves in front of the motorcycle 2.
[0023]
As described above, when the transmission / reception antenna 40 of the distance measuring device 4 and the transmission / reception antenna 50 of the distance measuring device 5 are arranged and have directivity, the distance measuring device 4 is connected to the traffic light 3 installed therein. Since radio waves are transmitted / received only to / from the distance measuring device 5 mounted on the motorcycle 2 traveling on the road side where traffic control is performed, as a result, the distance between the motorcycle on the road side and the traffic light is measured. It becomes possible.
[0024]
FIG. 3 shows a configuration example of the distance measuring device 4 and the distance measuring device 5 according to the present embodiment. In this system, as described above, the distance is measured by transmitting and receiving radio waves between the distance measuring device 4 and the distance measuring device 5.
[0025]
In FIG. 3, a signal is radiated as a radio wave from the distance measuring device 4, and the distance measuring device 5 converts the frequency of the signal after receiving it and returns it to the distance measuring device 4 as a radio wave. The distance measuring device 4 receives the return signal and calculates the distance between the distance measuring device 4 and the distance measuring device 5 from the round trip time of the signal.
[0026]
The distance measuring device 4 includes a transmission unit 401, a reception unit 402, a distance calculation unit 403, a risk determination unit 404, and a power supply control circuit 405. The distance measuring device 5 includes a frequency conversion unit 501, an amplification unit 502, and a power supply control circuit 503. Prepare.
[0027]
The transmission unit 401 of the distance measuring device 4 modulates a carrier wave with a specific signal pattern and radiates the modulated signal from the transmission antenna 406 as a radio wave. The radio wave is received by the receiving antenna 505 of the distance measuring apparatus 5, and then the frequency conversion unit 501 shifts the frequency as a whole by a certain amount. For example, assuming that the frequency of the carrier wave of the radio wave emitted from the distance measuring device 4 is fA, the frequency conversion unit 501 shifts the frequency of the carrier wave to fB (fA ≠ fB). The frequency-converted signal is amplified by the amplification unit 502 and then radiated as a radio wave from the transmission antenna 504. As a result, the distance measuring device 5 functions to frequency-convert, further amplify and return the radio wave radiated from the distance measuring device 4.
[0028]
The radio wave returned by the distance measuring device 5 is received by the receiving antenna 407 of the distance measuring device 4 and guided to the receiving unit 402. The reception unit 402 converts the received signal into an IF stage (intermediate frequency stage) or baseband and sends the signal to the distance calculation unit 403. At that time, the receiving unit 402 reproduces the baseband or IF stage signal of the specific signal pattern generated by the transmitting unit 401 described above. However, the signal pattern is a signal delayed from the time when it is generated by the transmission unit 401 by the time the radio wave reciprocates the distance L between the transmission / reception antenna 40 of the distance measuring device 4 and the transmission / reception antenna 50 of the distance measuring device 5. Become.
[0029]
On the other hand, the baseband signal of the specific signal pattern or the signal of the IF stage described above is guided from the transmission unit 401 to the distance calculation unit 403.
[0030]
Therefore, the distance calculation unit 403 compares the signal pattern transmitted from the reception unit 402 and the signal pattern transmitted from the transmission unit 401 at the baseband or IF stage, detects the delay time of both, and detects the delay time. From the time, the distance between the distance measuring device 4 and the distance measuring device 5, more precisely, the distance L between the transmission / reception antenna 40 of the distance measuring device 4 and the transmission / reception antenna 50 of the distance measuring device 5 is obtained by calculation.
[0031]
A sawtooth wave or a PN code (Pseudo Noise: pseudo noise code) can be used as a specific signal pattern generated in the transmission unit 401. When a sawtooth wave is used, the distance measurement method is a distance measurement method based on a so-called FM-CW method. When a PN code is used, the ranging method is a so-called spread spectrum method (hereinafter abbreviated as SS method).
[0032]
However, the signal pattern described above is not particularly limited in the present invention. Therefore, the ranging method may be the FM-CW method or the SS method. In the case of the SS system, as a specific example of a distance measuring portion of the distance measuring device 4 and the distance measuring device 5 used in the present invention, the specification of Japanese Patent Application Laid-Open No. 5-297129 or Japanese Patent Application No. 11-210573. It is possible to use the apparatus shown in FIG.
[0033]
In the present embodiment, the distance measuring device 4 includes a danger determination unit 404 and a power supply control circuit 405, and the distance measuring device 5 further includes a power supply control circuit 503.
[0034]
The danger determination unit 404 of the distance measuring device 4 compares the distance L obtained by the distance calculation unit 403 with a preset danger distance D. When L is smaller than D, the motorcycle 2 equipped with the distance measuring device 5 is installed. Determines that the vehicle has approached the intersection and transmits a danger signal to the warning display device 6. The power control circuit 405 turns on / off the power of the transmission unit 401 and the reception unit 402 of the distance measuring device 4 depending on the state of the traffic light 3 in which the distance measuring device 4 is installed (blue, yellow, or red). The relationship between the status of the traffic light and the power ON / OFF will be described in the flowchart described later.
[0035]
Further, the power source control circuit 503 of the distance measuring device 5 controls the ON / OFF of the power of the distance measuring device 5 according to the traveling state (running or stopped) of the motorcycle 2 on which the distance measuring device 5 is mounted. To do. The relationship between the running state and power ON / OFF will also be described in the flowchart described later.
[0036]
A major feature of the distance measuring device 4 and the distance measuring device 5 according to the present embodiment is that the radio waves transmitted from the distance measuring device 4 in the distance measuring device 5 are frequency-converted and turned back as described above. This is because distance measurement is performed only between the distance measuring device 4 and the distance measuring device 5.
[0037]
If the distance measuring device 5 does not perform frequency conversion, the distance measuring device 4 cannot distinguish between the reflected radio wave from the radio wave reflector other than the distance measuring device 5 and the folded radio wave from the distance measuring device 5. In such a case, even if the distance measuring device 5 is mounted on the motorcycle 2, the distance measuring device 4 detects a reflected radio wave from the surrounding automobile 1 or a signboard and measures the distance to them. As a result, the correct distance from the target motorcycle 2 cannot be measured.
[0038]
If the frequency is converted by the distance measuring device 5 as in the present embodiment, only the frequency band after the frequency conversion is received by the distance measuring device 4, thereby receiving a simple reflected signal of the radio wave emitted from the distance measuring device 4. Therefore, it is possible to perform distance measurement only between the distance measuring device 4 and the distance measuring device 5 by distinguishing between a simple radio wave reflector and the distance measuring device 5. As a result, by mounting the distance measuring device 5 on the motorcycle 2, it is possible to correctly measure the distance between the distance measuring device 4 and the motorcycle 2 without being affected by the presence of a surrounding automobile 1 or a signboard. Can do.
[0039]
In the flowchart shown in FIG. 4, how to turn on / off the power of the distance measuring device 4 and the distance measuring device 5 according to the state of the traffic light 3 and the traveling state of the motorcycle 2, and how In this case, the distance measurement and the risk determination are performed, and the result is displayed as a warning.
[0040]
After starting, it is checked whether the traffic light 3 is blue or yellow (S1). If the traffic light 3 is blue or yellow, the distance measuring device 4 installed in the traffic light 3 is turned on (S2). Otherwise, the power of the distance measuring device 4 is turned off (S3). That is, when the traffic light 3 is red, the radio wave of the distance measuring device 4 is turned off so that it does not operate. This is because, only on the road where the traffic signal 3 permits the traveling, the distance between the distance measuring device 4 installed on the traffic signal 3 and the motorcycle 2 traveling on the road is measured to judge the risk.
[0041]
At that time, the distance measuring device 4 installed on the traffic signal 3 (in red) on the road side that intersects with the road is not activated, so no radio waves are emitted from it. Further, even if there is a motorcycle 2 traveling on the intersecting road side, radio waves are not radiated from the distance measuring device 5 mounted thereon. This is because no radio wave is radiated from the distance measuring device 4 and no folded radio wave is radiated from the distance measuring device 5.
[0042]
Therefore, the distance measuring device 4 installed on the traffic light 3 (blue or yellow) that permits the traveling may receive radio waves from the intersecting road-side motorcycle 2. In addition, the distance measuring device 5 mounted on the motorcycle 2 traveling on the road that is allowed to travel does not receive radio waves from the distance measuring device 4 installed in the traffic light 3 on the intersecting road side. It is impossible to receive.
[0043]
That is, the distance measuring device 4 and the distance measuring device 5 can be prevented from interfering with each other between the intersecting roads by turning on and off the power of the distance measuring device 4 according to the state of the traffic light 3. it can. As a result, the distance measurement is executed only between the distance measuring device 4 and the motorcycle 2 traveling on the road side where the traffic signal 3 on which the distance measuring device 4 is installed controls the traffic.
[0044]
In S1 of FIG. 4, when the traffic light 3 is blue or yellow, the distance measuring device 4 is turned on (S2), and at the same time, it is checked whether the motorcycle 2 is traveling (S4). In some cases, the distance measuring device 5 mounted on the motorcycle 2 is operated with the power turned on (S5), and when the motorcycle 2 is stopped, the distance measuring device 5 is operated with the power turned off. (S6).
[0045]
This is because the stopped motorcycle 2 has no danger of a collision with the automobile 1, so that the distance from the motorcycle 2 is not measured. The distance measurement needs to be performed only between the motorcycle 2 and the distance measuring device 4 that are in a traveling state and have a possibility of collision. If the distance to the stopped motorcycle 2 is measured, an unnecessary warning may be given to the automobile 1 even if it is not dangerous, in which case it is not preferable because it disturbs the traffic flow. . Therefore, when the motorcycle 2 is stopped, the power of the mounted distance measuring device 5 is turned off so that the return radio wave to the distance measuring device 4 is not emitted.
[0046]
According to this, the distance calculation (S7) is performed when the traffic light 3 is blue or yellow and the motorcycle 2 is in a traveling state.
[0047]
If the distance value obtained by the distance calculation in S7 is L, the value of L is compared with a preset danger distance D (S8). If L is smaller than D, the motorcycle 2 is near the intersection. It is determined that the vehicle is approaching, and a warning signal is displayed on the warning display 6 to give a warning of collision danger to the vehicle (S9).
[0048]
Here, the value of D is selected as the maximum value among the distances in which there is a risk of the motorcycle 2 entering the intersection within the time required for the automobile 1 to turn right or left. However, since the distance varies depending on the speed limit of the road and the width of the intersection, the value of D is not particularly limited. Note that when there are a plurality of motorcycles 2 that are traveling, a plurality of distance measurement values L are also obtained, but the L value to be compared with the D value is the minimum value L of the plurality of L values. The value of By doing so, since the distance of the motorcycle 2 closest to the intersection can be selected, it is possible to determine whether the motorcycle 2 having the highest risk of collision has approached within the danger distance in the vicinity of the intersection, and to prevent a car accident. May give a warning without mistake.
[0049]
FIG. 5 shows an example of the warning display device 6. FIG. 5A is an example in which the warning display device 6 is installed in the vicinity of the traffic signal 3, and FIG. 5B is an example in which the warning display device 6 is installed in the traffic signal 3 itself. The warning display device 6 may be installed at any position. In the example of FIG. 5, as an example of the danger signal displayed on the warning display device 6, it is displayed with the characters “motorcycle approach”, but is not limited to this, and warns the situation of the approach of the motorcycle. It may be displayed in arbitrary characters, and may be displayed on another display such as a figure or color.
[0050]
FIG. 6 shows another embodiment. In this embodiment, the warning means is different from that in the above embodiment. That is, instead of displaying a danger signal on the warning display device 6, the danger signal is transmitted to the automobile 1 by radio waves, and a warning is given to the driver by voice by the voice warning device mounted on the automobile 1.
[0051]
In FIG. 6, distance measuring devices 4a to 4d are installed in the traffic lights 3a to 3d, respectively. In addition, distance measuring devices 5a and 5b are mounted on the motorcycles 2a and 2b traveling on the road, respectively. Furthermore, transmitters 7a to 7d are installed in the traffic lights 3a to 3d, respectively.
[0052]
The automobiles 1a to 1e traveling on the road are equipped with receivers and voice warning devices 8a to 8e, respectively. The distance measuring device 4 installed in each traffic light 3 measures the distance between the distance measuring device 5 mounted on the motorcycle 2 traveling on the road side where the traffic signal 3 controls traffic and itself.
[0053]
The configuration, method, and operation related to the distance measurement between the distance measuring device 4 and the distance measuring device 5 are exactly the same as those of the present embodiment described above. That is, the arrangement of the distance measuring device 4 and the distance measuring device 5 is the same as that of FIG. 2 described above, and the configurations of the distance measuring device 4 and the distance measuring device 5 are the same as those of FIG. Therefore, the description of the content of the distance measurement between the distance measuring device 4 and the distance measuring device 5 is omitted.
[0054]
As described above, the distance measuring device 4 installed in the traffic light 3 measures the distance between the distance measuring device 5 mounted on the motorcycle 2 and itself. From the result, the traffic light 3 and the motorcycle 2 Can be detected.
[0055]
Therefore, when the distance is smaller than a predetermined distance value, it is determined that the motorcycle 2 has approached the intersection, and the driver of the automobile 1 is warned of such a situation of “motorcycle approach”. .
[0056]
In this case, a danger signal is transmitted to the automobile 1 by radio waves, and a warning is given to the driver by voice by the voice warning device 8 mounted on the automobile 1.
[0057]
FIG. 7 shows the flow processing of this embodiment. The process of S11-S17 here is the same process as the process of S1-S7 shown in FIG. When the traffic lights 3a and 3b are “blue” or “yellow” and the motorcycle 2 is in a traveling state, in S17, the distance measuring devices 4a and 4b are activated, and the distance measuring device 4a and the distance measuring device 5a. And the distance between the distance measuring device 4b and the distance measuring device 5b are measured.
[0058]
Then, the distance L between the traffic light 3a and the motorcycle 2a is detected from the distance between the distance measuring device 4a and the distance measuring device 5a, and the value is compared with a predetermined value D (S18). If the value is smaller than a predetermined value, a danger signal is transmitted as a radio wave from the transmitter 7a installed in the traffic light 3a (S19). When the above-described radio wave is received by the receiver mounted on the automobile 1a and the receiver of the voice warning device 8a, the voice warning device 8a warns the driver of the car 1a by voice of the situation of "motorcycle approaching". .
[0059]
If it does so, the driver | operator of the motor vehicle 1a which is going to turn right in an intersection can know the approach of the motorcycle 2a by the warning by an audio | voice, and can avoid a "right-straight accident".
[0060]
Similarly, when the distance measurement value between the distance measuring device 4b and the distance measuring device 5b is smaller than a predetermined value, a danger signal is transmitted as a radio wave from the transmitter 7b installed in the traffic light 3b (S19). When the above-mentioned radio waves are received by the receiver mounted on the automobile 1b and the receiver of the voice warning device 8b, the voice warning device 8b also warns the driver of the situation of “motorcycle approach”. In that case, since the driver of the automobile 1b who is going to turn left at the intersection is warned by voice, the “left-handed accident” can be avoided.
[0061]
The radio wave transmitted from the transmitter 7a is received and warned by the receiver mounted on the vehicle 1d and the voice warning device 8d, and a left-straight accident of the vehicle 1d is detected, and the radio wave transmitted from the transmitter 7b is also received. It is possible to avoid a right-straight accident of the automobile 1c by receiving and warning by the receiver and the voice warning device 8c mounted on the automobile 1c. On the other hand, in the case of a right-straight accident and a left-straight accident on a crossing road, when the traffic lights 3c, 3d are “blue” or “yellow”, the distance measuring devices 4c, 4d are operated to measure the distance, and the distance measuring device 4c If the danger signal is transmitted from the transmitter 7c in accordance with the distance measurement result and the danger signal is transmitted from the transmitter 7d in accordance with the distance measurement result of the distance measuring device 4d, it can be similarly prevented or avoided. .
[0062]
As described above, in the present embodiment, the motorcycle 2 approaches the intersection by measuring the distance between the distance measuring device 5 mounted on the motorcycle 2 with the distance measuring device 4 installed in the traffic light 3. The result is transmitted to the vehicle 1 by radio waves from the transmitter 7 installed in the traffic light 3 to give a warning, thereby preventing the “right-handed accident” and “left-handed accident” at the intersection.
[0063]
The warning by voice may be a word by voice synthesis or may be a simple warning sound. In such an embodiment, it is disadvantageous in terms of cost that it is necessary to mount the receiver and the voice warning device 8 in the automobile 1 as compared with the above-described embodiment, but for the driver of the automobile 1, This is advantageous in that a warning can be reliably given by voice without changing the line of sight.
[0064]
【The invention's effect】
ADVANTAGE OF THE INVENTION According to this invention, generation | occurrence | production of collision accidents, such as a right-straight accident between vehicles and a left-straight accident, can be suppressed in an intersection.
[Brief description of the drawings]
FIG. 1 is a diagram showing an embodiment of a traffic control system according to the present invention.
FIG. 2 is a diagram illustrating an arrangement example of a distance measuring device and a distance measuring device.
FIG. 3 is a diagram illustrating a configuration example of a distance measuring device and a distance measuring device.
FIG. 4 is a flowchart according to the present embodiment.
FIG. 5 is a diagram illustrating an example of a warning display device.
FIG. 6 is a diagram showing another embodiment of a traffic control system.
FIG. 7 is also a flowchart.
FIG. 8 is a diagram showing a conventional traffic control system.
[Explanation of symbols]
1a, 1b, 1c, 1d, 1e Car
2a, 2b motorcycle
3a, 3b, 3c, 3d traffic light
4a, 4b, 4c, 4d Distance measuring device
5a, 5b Distance measuring device
6a, 6b, 6c, 6d Warning display

Claims (2)

A distance measuring device is installed at each traffic signal at the intersection.
A motorcycle that enters an intersection is equipped with a distance measuring device that turns on the power when it is running and turns off the power when it is stopped.
Install warning indicators near the traffic lights or in the traffic lights themselves,
The distance measuring device installed in each traffic light turns off the distance measuring device power when the traffic light is red, and turns on the power of the distance measuring device when the traffic light is blue or yellow. The distance between the distance measuring device of the motorcycle traveling on the road to be controlled is measured by transmission and reception of radio waves, and when the motorcycle approaches the signal to a predetermined distance, the distance to the road on which the motorcycle travels is measured. Warning display is performed on each of the two warning display devices installed.
A traffic control system characterized by that. A distance measuring device and a transmitter are installed at each traffic signal at the intersection.
A motorcycle that enters an intersection is equipped with a distance measuring device that turns on the power when it is running and turns off the power when it is stopped.
The receiver and voice warning device are installed in the car.
The distance measuring device installed in each traffic light turns off the distance measuring device power when the traffic light is red, and turns on the power of the distance measuring device when the traffic light is blue or yellow. The distance between the distance measuring device of the motorcycle traveling on the road side to be controlled is measured by transmitting and receiving radio waves, and when the motorcycle approaches the signal device to a predetermined distance, from the transmitter installed in the signal device, Transmitting a danger signal to the receiver of the automobile that travels opposite the motorcycle and turns right at the intersection, and the receiver of the automobile that travels in the same direction as the motorcycle and turns left at the intersection, The voice warning device will output the danger voice,
A traffic control system characterized by that.

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