JP2014238656A - Congestion alarm device and congestion alarm method - Google Patents

Abstract

PROBLEM TO BE SOLVED: To correctly sense and report a congestion irrespective of a change in weather.SOLUTION: A congestion alarm device is disposed at a certain point on a road toward the road, and includes a sensor that detects a speed of a moving entity which passes the point, a memory unit in which a high speed domain, medium speed domain, and low speed domain are defined as domains for discriminating the speed, a sampling unit that samples the speed, which is detected by the sensor, at a predetermined timing, and preserves the speed as speed data in the memory unit, a flag control unit that calculates a mean value of speed data items sampled within a certain period of time, and that, if a predetermined or larger number of calculated mean values fall within the medium speed domain, recognizes a sign of occurrence of a congestion and sets a congestion flag in the memory unit, and an alarm control unit that, when the congestion flag is set in the memory unit, if the mean value of the speeds decreases to fall within the low speed domain, decides that a situation in which the speed of the moving entity decreases is continuing.

Description

  The present invention relates to a traffic jam warning device and a traffic jam warning method for detecting the speed of a vehicle traveling on a road such as a toll road, for example.

  For example, on a toll road such as an expressway, a speed detection device that detects the speed of a vehicle traveling on the toll road is installed.

  The speed detection device was initially installed on a toll road for the purpose of cracking down on overspeed vehicles. However, in recent years, the speed detection device has come to be used for detecting traffic jams and issuing warnings to subsequent vehicles.

  Generally, a sensor using a relatively inexpensive Doppler effect is used for the speed detection device (see Patent Document 1).

Japanese Patent No. 4895880

  In the case of a conventional speed detection device, since the Doppler effect is used, the sensor detects the speed of both the rain and the vehicle when it rains, and the speed of the vehicle itself cannot be detected correctly, especially at low speeds. There was a problem that it was impossible to determine whether it was raining or the vehicle was jammed, and misreported the traffic jam.

  The problem to be solved by the present invention is to provide a traffic jam warning device and a traffic jam warning method capable of correctly detecting and reporting a traffic jam of a vehicle without being influenced by changes in weather.

  The traffic congestion warning device of the present invention is arranged at a point on the road toward the road, a sensor that detects the speed of a moving body that passes through the point, and a speed determination area as a high speed range, a medium speed range, A storage unit in which a low speed range is set, a sampling unit that samples the speed detected by the sensor at a predetermined timing, and stores the speed data in the storage unit, and an average value of the speed data sampled within a predetermined time And when the calculated average value is greater than or equal to a predetermined number in the medium speed range, a flag control unit that sets a traffic jam flag in the storage unit as a sign of occurrence of traffic jam, and the traffic jam flag in the storage unit When the average value of the speed drops to the low speed range while the speed is set, the alarm control unit determines that the speed reduction state of the moving body is continuing.

  The traffic jam warning method of the present invention includes a step of detecting a speed of a moving body that passes a certain point on a road, a step of setting a high speed region, a medium speed region, and a low speed region as the speed determination region, and the detected speed. A step of sampling at a predetermined timing and holding it as speed data, and calculating an average value of the speed data sampled within a certain time, and if the calculated average value is more than a predetermined number in the medium speed range, a traffic jam occurs. A step of setting a traffic jam flag as a sign of the traffic, and when the average value of the speed falls to the low speed range while the traffic jam flag is set, the speed reduction situation of the moving body continues. And a step of determining that it is present.

  According to the present invention, it is possible to provide a traffic jam warning device and a traffic jam warning method capable of correctly detecting and reporting traffic jams without being influenced by changes in weather.

It is a figure which shows the example of installation of the traffic congestion warning apparatus of embodiment. It is a figure which shows the structure of a traffic congestion warning apparatus. It is a flowchart which shows operation | movement of a traffic congestion warning apparatus. It is a figure which shows the timing which outputs a traffic jam warning. It is a figure which shows an example of the simulation when the weather is fine. It is a figure which shows an example of the simulation when the weather is rainy.

Hereinafter, embodiments will be described in detail with reference to the drawings.
(First Embodiment) FIG. 1 is a diagram showing an installation example of a traffic jam alarm device of the embodiment, and FIG. 2 is a block diagram showing a configuration of the traffic jam alarm device.

  As shown in FIG. 1, the traffic jam warning device of this embodiment has a predetermined angle (for example, 45 °) with a speed detection sensor on a road side of an arbitrary point of a vehicle-dedicated road such as an expressway and a road side. The traffic jam warning device 1 is arranged. In the figure, it is assumed that the right side is upstream and the left side is downstream, and the vehicle travels from upstream to downstream. This direction is the vehicle traveling direction.

  As shown in FIG. 2, the traffic jam warning device 1 includes a monitoring device 10, a solar panel 11, a battery 12, an LED indicator 15, a speed sensor 14, and the like.

  The monitoring device 10 includes a power supply unit 13, a wireless unit 16, a memory 18, a sampling unit 20, a flag control unit 21, a notification control unit 22, and the like. The monitoring device 10 monitors the movement status of the moving object.

  The traffic jam warning device 1 in this example is portable, and can be installed by moving a plurality of vehicles on a transport vehicle with a loading platform such as a truck and dropping it on a road surface at a desired position (point) on the road. The traffic jam warning device 1 may be mounted directly on the truck bed.

  The speed sensor 14 is arranged with the direction of the sensor (speed detection direction) facing the road side at the installation point of the road, and detects the speed of the moving body passing through the point. The speed sensor 14 is mounted on a pan head or the like, and can be fixed by changing the direction of speed detection by adjusting the direction in the vertical and horizontal directions. The moving body includes rain, snow, and the like in addition to vehicles such as trucks, passenger cars (four-wheeled vehicles), and motorcycles (two-wheeled vehicles).

  The speed sensor 14 has a transmission / reception unit that transmits and receives microwaves. The speed sensor 14 is a relative speed detector that utilizes the reception difference between the direct wave and the reflected wave of the microwave, that is, the Doppler effect. That is, this speed sensor 14 is a Doppler sensor.

  The speed sensor 14 emits microwaves in a narrow range in the direction in which the wave transmitting / receiving unit is directed. The microwave emission range has directivity, and the measurement distance in the microwave emission direction is, for example, about 10 m. The speed sensor 14 senses the speed of the vehicle passing in front of the transmission / reception unit, that is, the vehicle speed at intervals of, for example, one second.

  The rain speed detected by the Doppler speed sensor 14 is usually about 30 km / h to 20 km / m, and may not be distinguished from the speed detected when a large number of vehicles travel at a low speed.

  The solar panel 11 generates electricity by light (sunlight) received on the light receiving surface. The battery 12 stores electric power generated by the solar panel 11. The battery 12 stores the electric power generated by the solar panel 11, and each part of the device (speed sensor 14, LED indicator 15, wireless unit 16, sampling unit 20, flag control unit 21, notification control unit 22, etc.) The power for operating is supplied to each part.

  The capacity of the battery 12 is the amount of power generated by the solar panel 11 and the amount of power supplied to each part of the device (speed sensor 14, LED indicator 15, wireless unit 16, sampling unit 20, flag control unit 21, and alert control unit 22). It is assumed that the number of days in which the battery 12 is fully charged is, for example, 5 days from the fully charged state.

  The LED indicator 15 includes an LED panel composed of a plurality of LED elements, and characters and character strings (“during traffic jam”, “traffic jam”, by turning off and turning off individual LED elements under the control of the monitoring device 10. Traffic congestion warnings such as “medium” can be displayed.

  The LED marking machine 15 is a marking machine that displays a traffic jam and a state of cancellation of the traffic jam. That is, the LED sign machine 15 functions as a reporting unit that performs a report to alert the driver of traffic congestion when it is determined by the reporting control unit 22 that the speed reduction state of the moving object is continuing. .

  The power supply unit 13 stores the power generated by the solar panel 11 in the battery 12. The power supply unit 13 performs charge / discharge control of the battery 12, and stably supplies the electric power stored in the battery 12 to each unit of the apparatus.

  The wireless unit 16 communicates wirelessly with the other monitoring devices 10 via the antenna 17 to exchange traffic jam information (traffic jam detection result (information indicating occurrence of traffic jam and traffic jam elimination)). The power (wireless transmission output) is 0.01 W or less and the specific low power wireless communication is performed using the 400 MHz band, and the communication distance is about 500 m. In addition, for example, a communication network of a mobile phone company (carrier) May be used.

  The memory 18 stores sign data corresponding to the detected contents, a device identification number (device ID) of this device, a speed threshold value for detecting a traffic jam, and the like.

  The indication data is “congested” when traffic congestion is detected from the speed information from the speed sensor 14 of this device, for example, traffic jam from another device (when the device ID received is lower than the device ID in the memory 18). If the information includes information indicating traffic jam, it means “During traffic jam ahead”.

  The device ID is a simple number, for example, “0001” for this device, “0002”, “0003”, etc. for the next device. When arranging a plurality of traffic jam warning devices 1, the device IDs “0001”, “0002”, “0003”,...

  In the memory 18, a high speed region, a medium speed region, and a low speed region are set as speed determination regions (threshold values). For example, in the case of a highway, the high speed area is 80 km / h or more. The medium speed range is 79 km / h to 41 km / h (preferably 70 km / h to 50 km / h) for a highway.

  The low speed range is 40 km / h or less for a highway, and when the harmonic average speed calculation result falls below this threshold (when it is reduced), the situation where the speed reduction of the moving body continues, that is, traffic congestion judge.

  The sampling unit 20 samples the speed detected by the speed sensor 14 at a predetermined timing (1 second interval) and stores (holds) it in the memory 18. In addition, when a vehicle does not pass within 1 second and a speed is not detected, it excludes from sampling as speed undetected, or excludes it from the harmonic average calculation object of the sampled speed data.

  The flag control unit 21 calculates the average value of the speed data by calculating the harmonic average of the speed data sampled within a certain time (the past 100 seconds), and in which speed region the average value of the calculated speed data is Determine if it exists.

  As a result of the determination, the flag controller 21 detects the latest high speed range (80 km / h or more) speed data, and then detects a predetermined number (for example, 6) or more in the medium speed range (70 km / h to 50 km / h). If there is data, the traffic jam flag is set in the memory 18 as an indication of the occurrence of traffic jam, that is, the traffic jam flag is turned on. The harmonic average calculation method is a method generally used in the field of velocity calculation, and therefore its description is omitted.

  When the calculated average value does not exist in a medium speed range (70 km / h to 50 km / h) in a predetermined number (for example, 6) or more, the traffic jam flag is set from the memory 18 as no sign of traffic jam occurrence. Release (delete).

  Examples of setting of the traffic jam flag include setting “1” as the flag when setting the traffic jam flag, and setting “0” as the flag when canceling (deleting) the traffic jam flag setting. It may be changed from “0” to “0”, or from “0” to “1”.

  Further, the flag control unit 21 cancels the congestion flag set in the memory 18 when the average value of the speed data decreases to the low speed range (40 km / h or less) and then returns to the medium speed range (61 km / h or more). In other words, the traffic jam flag is turned off.

  That is, the flag control unit 21 determines whether or not a traffic jam has occurred at a point where the device is installed based on the vehicle speed information acquired by the speed sensor 14, and sets or cancels the traffic jam flag.

  The alert control unit 22 determines whether or not a traffic jam has occurred based on the traffic jam flag set in the memory 18 and the calculated harmonic average speed, and displays a warning sign according to the judgment result as an LED sign machine. 15 to do.

  If it is determined that a traffic jam has occurred, for example, “during traffic jam”, “during future traffic jam”, or the like is displayed. If it is determined that the traffic jam has been resolved, the signs such as “in traffic jam” and “in future traffic jam” are turned off.

  While the traffic jam flag is set in the memory 18 (on state), the alert control unit 22 changes the average speed value from a medium speed range (70 km / h to 50 km / h) to a low speed range (40 km / h or less). When the speed drops, it is determined that the speed reduction state of the moving body is continuing (traffic jam).

  In addition, when the traffic information is received from another traffic jam warning device, the alert control unit 22 indicates the indication of the LED sign machine 15 based on the information indicating the occurrence of traffic jam and the elimination of the traffic jam included in the received traffic jam information. Control the contents (“traffic jam”, “traffic jam ahead”, sign off, etc.).

  Further, when receiving a traffic jam determination start instruction message, the alert control unit 22 determines whether traffic jam has occurred using past sampling data, and performs an operation according to the determination result. If it is determined that a traffic jam has occurred, a traffic jam warning is issued to alert the driver to the traffic jam.

  That is, the flag control unit 21 and the alert control unit 22 detect the speed data in the memory 18 sampled by the speed sensor 14 and the traffic jam flag, and the traffic jam from other traffic jam warning devices received by the radio unit 16. The sign control of the LED sign machine 15 is performed based on the information on the occurrence and the elimination of traffic congestion.

  The reporting control unit 22 outputs the output I for indicating “congestion” to the LED indicator 15 of the device itself, and the output I for indicating “during congestion ahead” to other congestion alarm devices. Output to. The reporting control unit 22 stops outputting the output I in order to turn off the indication “congestion” or “during future traffic jam” by detecting the elimination of the traffic jam.

  In other words, the detection result of the occurrence of traffic jam includes the output I HI output (first information) indicating that the current installation point is in traffic jam and the output I stop indicating that the traffic jam has been resolved ( LO output) (second information).

  When detecting the traffic jam and the traffic jam cancellation, the alert control unit 22 reads the marking data from the memory 18 in accordance with the detected content, changes the marking content of the LED sign machine 15, and other traffic information via the radio unit 16 and the antenna 17. To the monitoring device 10.

  The traffic jam information includes identification information (device ID) of another adjacent downstream monitoring device 10. Further, the alert control unit 22 changes the indication content of the LED indicator 15 according to the traffic jam information received from others.

Next, the operation of the traffic jam warning device of this embodiment will be described with reference to FIGS.
In the traffic jam warning device of this embodiment, speed collection processing is performed in units of 5 minutes. The speed sensor 14 arranged at a certain point on the road always detects the speed of the moving body that passes through the installation point of the apparatus (step S101 in FIG. 3).

  In the monitoring device 10, the flag control unit 21 first checks the traffic jam flag in the memory 18, and determines whether the traffic jam flag is off and the detected speed is in the low speed range (step S102).

  If the result of this determination is that the sampled speed is in the low speed range, the detected speed is replaced with undetected (step S103). That is, even if a low speed is detected when the traffic jam flag is off, it is invalidated.

  The sampling unit 20 samples the effective speed detected by the speed sensor 14 every second and stores it in the memory 18 (step S104).

  The flag control unit 21 reads speed data sampled every second from the memory 18 every 1 minute after the start of sampling, calculates a harmonic average, and stores the harmonic average calculation result in the memory 18 ( Step S105).

  When a traffic jam determination start instruction message is received from another device, the flag control unit 21 uses it as a trigger (Yes in step S106), and stores speed data for the past 100 seconds sampled every second. 18 and the number of data in which speed area out of the preset speed areas is totaled.

  Then, after detecting the speed in the high speed range (80 km / h or more), the flag control unit 21 has a predetermined number (for example, 6) or more of data in the medium speed range (70 km / h to 50 km / h). It is determined whether or not (step S107). In addition to the reception of the instruction message, for example, the traffic jam determination may be started when a preset timer expires within a certain time.

  If a predetermined number (for example, 6) or more exists (Yes in step S107), the flag control unit 21 turns on the traffic jam flag as a possibility of traffic jam occurrence (step S108). That is, a traffic jam flag is set in the memory 18.

  The alert control unit 22 monitors the traffic jam flag and the harmonic average calculation result (speed average value) in the memory 18, and while the traffic jam flag is set in the memory 18, the harmonic average calculation result (speed average value) is displayed. When the speed is reduced to a low speed range (40 km / h or less) (Yes in step S109), it is determined that the speed reduction state of the vehicle (moving body) passing through the point continues, that is, the occurrence of traffic congestion.

  When it is determined that a traffic jam has occurred, the reporting control unit 22 outputs an output I to the LED indicator 15 so as to issue a traffic jam warning, and the LED indicator 15 that has received this output I displays an indication such as “in traffic jam”. Perform (step S110).

  As shown in FIG. 4, once the output control unit 22 outputs the output I, the notification control unit 22 holds the output for 60 seconds, and if the speed reduction continues after 60 seconds, the output is further output for 60 seconds. Extend.

Thereafter, when the harmonic average calculation result (average speed value) reaches the medium speed range (61 km / h or more) (Yes in step S111), it is determined that the traffic jam at that point has been resolved, and a traffic jam warning is issued. The output II is output to the LED indicator 15 so as to stop, and the LED indicator 15 that has received this output II stops the indication such as “congestion” (step S112).
To do.

  When 900 seconds have elapsed (Yes in step S113), the flag control unit 21 turns off the traffic jam flag (step S114). That is, the traffic jam flag set in the memory 18 is canceled.

  Here, with reference to FIG. 5 and FIG. 6, the example of the simulation in the case of fine weather and rain will be described. FIG. 5 shows a simulation example when the weather is sunny, and FIG. 6 shows a simulation example when the weather is rainy.

  Since the vehicle is not affected by rain when the weather is fine, the moving body moving on the road is a vehicle such as an automobile and a motorcycle, and the speed of the vehicle is detected by the speed sensor 14.

  On a highway or the like, the vehicle normally travels at 80 km / h or more, and when the front is blocked by a sign of traffic jam, the traveling speed falls to 80 km / h or less.

  As shown in FIG. 5, when the flag control unit 21 checks the detected speed data for the past 100 seconds, if there are 6 or more data in the medium speed range (70 km / h to 50 km / h), The flag control unit 21 turns on the traffic jam flag.

  After the traffic jam flag is turned on, if the 300-second harmonic average calculation result is 40 km / h or less, the alert control unit 22 outputs an output I and a traffic jam warning is indicated on the LED indicator 15.

  Thereafter, when the 300-second harmonic average calculation result reaches 61 km / h or more, the alert control unit 22 stops outputting the output I, and the traffic jam warning is turned off.

  On the other hand, when the weather is rain, it is rain, a car, and a motorcycle that are detected as moving bodies moving on the road, and the speed of the rain is always detected by the speed sensor 14.

  In this case, as shown in FIG. 6, when the flag control unit 21 checks the detected speed data for the past 100 seconds, if the vehicle is not passing and it is always raining, the speed sensor 14 detects 20 km. A speed of about / h is always detected, and the number of samplings per minute is also 60. At this time, the traffic congestion flag remains off because there is no traffic and there is no data in the medium speed range (70 km / h to 50 km / h).

  Then, the vehicle will pass in front of the speed sensor 14, the speed reduction that is a sign of the start of traffic congestion will begin, and there will be 6 or more data in the medium speed range (70 km / h to 50 km / h). Then, the flag control unit 21 turns on the traffic jam flag.

  After the traffic jam flag is turned on, when the 300-second harmonic average calculation result is 40 km / h or less, the alert control unit 22 outputs an output I, and a traffic jam warning such as “traffic jam” is displayed on the LED sign 15 Information).

  Thereafter, when the 300-second harmonic average calculation result reaches 61 km / h or more, the alert control unit 22 stops outputting the output I, and the traffic jam warning is turned off.

  As described above, according to the traffic jam warning device of this embodiment, when there is a predetermined number (6 or more) of data in the medium speed range (70 km / h to 50 km / h) among the speed data held for 5 minutes, the traffic jam flag Is turned on (set), and when the harmonic average calculation result falls to a low speed range (40 km / h or less) during the period when this traffic jam flag is on, a traffic jam warning is issued, and the weather is clear. Whether it is raining or not, it is possible to reliably detect and notify traffic jams.

  In addition, after a certain retention period (900 seconds) of the traffic jam flag, the traffic jam is actually resolved by stopping the traffic jam warning when the harmonic average calculation result reaches the medium speed range (61 km / h or higher). The alarm can be stopped in a given situation.

  Although the embodiment of the present invention has been described, this embodiment is presented as an example and is not intended to limit the scope of the invention. The novel embodiment can be implemented in various other forms, and various omissions, replacements, and changes can be made without departing from the scope of the invention. These embodiments and modifications thereof are included in the scope and gist of the invention, and are included in the invention described in the claims and the equivalents thereof.

  In the above embodiment, the average value of speeds is obtained by harmonic averaging, but other average calculation methods such as arithmetic average and geometric average may be used.

  Further, each component shown in the above embodiment may be realized by a program installed in a storage such as a hard disk device of a computer, and the program is stored in a computer-readable electronic medium: electronic media, The computer may realize the functions of the present invention by causing a computer to read a program from an electronic medium.

  Examples of the electronic medium include a recording medium such as a CD-ROM, flash memory, and removable media. Further, the configuration may be realized by distributing and storing components in different computers connected via a network, and communicating between computers in which the components are functioning.

DESCRIPTION OF SYMBOLS 1 ... Traffic congestion warning device 10 ... Monitoring apparatus 11 ... Solar panel 12 ... Battery 13 ... Power supply part 14 ... Speed sensor 15 ... Marking machine 16 ... Radio | wireless part 17 ... Antenna 18 ... Memory 20 ... Sampling part 21 ... Flag control part 22 ... From Information control unit

Claims (5)

A sensor which is arranged toward the road at a certain point of the road and detects the speed of the moving body passing through the point;
As the speed determination area, a storage unit in which a high speed area, a medium speed area, and a low speed area are set, and
A sampling unit that samples the speed detected by the sensor at a predetermined timing and holds the speed data in the storage unit;
The average value of the speed data sampled within a certain time is calculated, and when the calculated average value is a predetermined number or more in the medium speed range, a traffic congestion flag is set in the storage unit as a sign of occurrence of traffic congestion. A flag controller;
An alert control unit that determines that the speed reduction state of the moving body continues when the average value of the speed decreases to the low speed range while the traffic jam flag is set in the storage unit; A traffic jam warning device comprising: The flag control unit
The traffic jam warning device according to claim 1, wherein when the average value of the speed data falls to the low speed range and then returns to the medium speed range, the setting of the traffic jam flag is canceled.   When it is determined by the notification control unit that the speed reduction state of the moving body is continuing, the alarm control unit further includes a notification unit that issues a report to alert the driver of traffic congestion. The traffic jam warning device according to claim 1. The flag control unit
The traffic congestion warning device according to claim 1, wherein the average value of the speed data is calculated by any one of a harmonic average, an arithmetic average, and a geometric average. Detecting the speed of a moving object passing through a point on the road;
Setting a high speed region, a medium speed region, and a low speed region as the speed determination region;
Sampling the detected speed at a predetermined timing and holding it as speed data;
Calculating an average value of speed data sampled within a predetermined time, and setting a traffic congestion flag as a sign of occurrence of traffic congestion when there is a predetermined number or more of the calculated average value in the medium speed range; and
A step of determining that the speed reduction state of the moving body is continued when the average value of the speed decreases to the low speed range while the traffic jam flag is set. Traffic jam warning method.

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