JP2003149256A - Vehicle speed measuring instrument - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a vehicle-borne vehicle speed measuring instrument that can output the absolute speed information and image of a running vehicle. SOLUTION: This vehicle speed measuring instrument which measures the speed of an adjacent running vehicle while the instrument is carried in another vehicle 1 has a photographing section 8 which photographs the running vehicle, speed measuring section 6 which measures the speed of its own vehicle 1; and an image-processing type running-vehicle speed measuring section 9 which finds the relative speed between its own vehicle 1 and the running vehicle, by processing a plurality of images photographed by means of the photographing section 8 at different timing, and calculates the absolute speed of the running vehicle from the relative speed and the speed of its own vehicle 1 obtained by means of the measuring section 6. This measuring instrument also has an information output section 7 which outputs the absolute speed information and image of the adjacent running vehicle.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a vehicle speed measuring device which is mounted on a vehicle and measures the speeds of vehicles running adjacent to each other.

[0002]

2. Description of the Related Art A conventional vehicle speed measuring device will be described below.

FIG. 7 shows the traveling relationship of the conventional example 1. The host vehicle 1 equipped with the vehicle speed measuring device travels in the vehicle traveling direction 3 adjacent to the traveling vehicle 2 that is the object of speed measurement. The host vehicle 1 radiates an electromagnetic wave having a predetermined frequency from the electromagnetic wave transmitting / receiving unit 4 toward the traveling vehicle 2. The electromagnetic waves reflected by the traveling vehicle 2 undergo a frequency shift due to the Doppler effect according to the speed of the traveling vehicle 2, and are received again by the electromagnetic wave transmitting / receiving unit 4 of the vehicle 1.

FIG. 8 shows the configuration of a conventional vehicle speed measuring device of Example 1. In the traveling vehicle speed measuring unit 5, the electromagnetic wave transmitting / receiving unit 4
The relative speed between the host vehicle 1 and the traveling vehicle 2 is obtained from the frequency shift of the electromagnetic wave received at. Based on the relative speed and the own vehicle speed of the own vehicle 1 measured by the own vehicle speed measuring unit 6, the absolute speed information of the traveling vehicle 2 calculated by the traveling vehicle speed measuring unit 5 is output to the information output unit 7. To be done. Thereby, the absolute speed information of the traveling vehicle 2 can be acquired.

A second vehicle speed measuring device having another structure is disclosed in Japanese Patent Application Laid-Open No. 10-241093.

FIG. 9 shows the traveling relationship of Example 2 of the conventional vehicle speed measuring device. Own vehicle 1 equipped with vehicle speed measurement device
Is traveling in the vehicle traveling direction 3 adjacent to the traveling vehicle 2, which is the object of speed measurement. The host vehicle 1 runs in parallel with the traveling vehicle 2, and the image capturing unit 8 captures images of the traveling vehicle 2 at two desired different spots so that the subject images have the same size.

FIG. 10 shows the configuration of Example 2 of a conventional vehicle speed measuring device. In addition to obtaining a photographed image of the traveling vehicle 2, the GPS information of the two points is acquired from the GPS device in conjunction with the photographing, and based on the position information and the time information included in the GPS information, the own vehicle speed measuring unit 6 performs the measurement. The average speed of the host vehicle 1 between the two points is calculated. In the image of the traveling vehicle 2 taken, the fact that the traveling vehicles are object images of the same size means that the distance between the own vehicle 1 and the traveling vehicle 2 at the two points is equal. Therefore, the average speed of the vehicle 1 between the two points is equal to the average speed of the traveling vehicle 2 between the two points, and the average speed of the traveling vehicle 2 can be measured. The absolute speed information of the traveling vehicle 2 is output to the information output unit 7. Thereby, the absolute speed information of the traveling vehicle 2 can be acquired.

[0008]

Specifically, such a vehicle-mounted vehicle speed measuring device is mounted on a police car and is used to measure the traveling speed of a vehicle traveling adjacently. . Therefore, in addition to the speed information of the traveling vehicle 2, there is a need for a vehicle speed measuring device capable of outputting an image of the traveling vehicle 2 at the moment when the speed that serves as evidence is measured.

However, in the first conventional vehicle speed measuring device, there is no photographing unit for the traveling vehicle 2, and it is not possible to obtain a traveling image of the traveling vehicle 2 at the moment when the speed of the traveling vehicle 2 is measured. Even if the moving vehicle 2 has an image capturing unit, it is difficult to capture an image of the traveling vehicle 2 at the moment of speed measurement because the speed of the traveling vehicle 2 is not constant in time. In the second conventional vehicle speed measuring device, the image of the traveling vehicle is used to confirm that the distance between the vehicle 1 and the traveling vehicle 2 is constant, and the image of the traveling vehicle 2 is directly used. It wasn't about speed. Therefore, it is necessary to acquire GPS information at the moment when the traveling vehicle 2 is photographed as a subject image of an equal size, and calculate the speed of the own vehicle 1. Eventually, the timings of photographing and speed measurement are adjusted. There was a need. further,
There has been a technical problem that the traveling vehicle 2 needs to be photographed so as to obtain subject images of the same size.

[0010]

According to a first aspect of the present invention, there is provided a vehicle speed measuring device, a photographing section for photographing an adjacent traveling vehicle, a own vehicle speed measuring section for measuring the speed of the own vehicle, and different times depending on the photographing section. By processing a plurality of images taken in, the relative speed between the own vehicle and the adjacent traveling vehicle is obtained, and from the relative speed and the own vehicle speed obtained by the own vehicle speed measurement unit, the absolute speed of the adjacent traveling vehicle is calculated. It has an image processing type traveling vehicle speed measuring unit for calculating and an information output unit for outputting absolute speed information of an adjacent traveling vehicle and a traveling vehicle image.

A vehicle speed measuring device according to a second aspect of the present invention further includes an image processing type traveling vehicle speed measuring unit having a license plate character recognizing unit for converting characters on a license plate of an image of an adjacent traveling vehicle into character information. , And an information output unit for outputting license plate character information.

The vehicle speed measuring device according to the third aspect of the present invention further compares a speed limit storage unit that stores the input speed limit with the speed limit and the absolute speed of the adjacent traveling vehicle, and obtains the result. The information output unit accordingly outputs the absolute speed information of the adjacent traveling vehicle and the traveling vehicle image.

A vehicle speed measuring device according to a fourth aspect of the present invention further includes a position information detecting section for obtaining position information of the own vehicle using GPS and an information output section for outputting the position information of the own vehicle. .

The vehicle speed measuring device according to the sixth aspect of the present invention further comprises an illuminating section for obtaining the amount of light necessary for photographing the adjacent traveling vehicle.

BEST MODE FOR CARRYING OUT THE INVENTION Embodiment 1. First, FIG. 1 shows a traveling relationship between a host vehicle 1 and a traveling vehicle 2 according to Embodiment 1 of the present invention. In FIG. 1, an own vehicle 1 equipped with a vehicle speed measuring device of the present invention is running in a vehicle traveling direction 3 adjacent to a traveling vehicle 2 which is an object of speed measurement. In FIG. 1, the host vehicle 1 and the traveling vehicle 2 travel in the same vehicle traveling direction 3, but the host vehicle 1 and the traveling vehicle 2 may travel in the vehicle traveling direction 3 facing each other. Also,
When the host vehicle 1 and the traveling vehicle 2 are traveling in the same vehicle traveling direction 3, the host vehicle 1 is traveling ahead of the traveling vehicle 2 in FIG. 1, but conversely, the traveling vehicle 2 is the host vehicle 1. You may be traveling ahead of. Similarly, when the vehicle 1 is traveling in the vehicle traveling direction 3 in which the traveling vehicle 2 and the traveling vehicle 2 face each other,
Even if the own vehicle 1 and the traveling vehicle 2 are traveling in a direction approaching each other,
On the contrary, the host vehicle 1 and the traveling vehicle 2 may be traveling in directions away from each other.

By the photographing section 8 mounted on the vehicle 1,
The traveling vehicle 2 is photographed at two or more different times. In the first embodiment, shooting is performed so that the license plate portion of the traveling vehicle 2 is included.

FIG. 2 shows the configuration of the vehicle speed measuring device according to the first embodiment of the present invention. The traveling image of the traveling vehicle 2 photographed by the photographing unit 8 is image-processed by an image-processing type traveling vehicle speed measuring unit 9.

FIG. 3 shows the first embodiment of the present invention.
The detection process of the license plate portion by the image processing in the traveling vehicle speed measuring portion 9 will be described. FIG. 3A is a traveling vehicle image of the traveling vehicle 2 captured by the image capturing unit 8. The contour of the traveling vehicle 2 as the object to be measured is extracted by spatially differentiating the traveling vehicle image with respect to the gradation of each pixel. Figure 3
The differential image is shown in (b). Next, as shown in FIG. 3C1, the differential image is vertically divided into sectors at regular intervals. Furthermore, as shown in FIG. 3C2, the differential intensity of the gradation in each sector is projected to create a projection histogram. Further, as shown in FIG. 3C, by binarizing this projection histogram with a predetermined threshold,
A block indicating the contour of the traveling vehicle 2 is detected for each sector.

Further, when the traveling vehicle speed measuring unit 9 considers each block to be one element of the same continuous block based on the positional relationship between the blocks in the same sector and the blocks detected in the adjacent sectors. Are combined in the vertical and horizontal directions and detected as a larger block. At this time, the spatial resolution of block detection is determined by the vertical sector interval of the differential image and the horizontal interval of binarization of the projection histogram. By narrowing these intervals, the spatial resolution of block detection is improved. On the contrary, widening these intervals improves the block detection speed.

The traveling vehicle speed measuring unit 9 further compares the detected block with the standard aspect ratio and aspect ratio of the license plate to detect the position and size of the block indicating the license plate in the traveling vehicle image. . Figure 3
In (d), a block showing the detected license plate and the traveling vehicle image before image processing are superimposed and shown.

The size of the block indicating the license plate is detected from the traveling vehicle images captured by the image capturing unit 8 at two or more different times, and the license plate is provided based on the change in size with respect to the capturing time interval. The moving speed of the traveling vehicle 2 is calculated. Since this moving speed is equal to the relative speed of the traveling vehicle 2 having the license plate and the own vehicle 1,
The relative speed between the traveling vehicle 2 and the host vehicle 1 can be obtained.

On the other hand, the own vehicle speed measuring unit 6 measures the average own vehicle speed of the own vehicle 1 between two or more different times when the moving vehicle 2 is photographed by the photographing unit 8. For example, the first
Can be obtained by averaging the speed of the host vehicle 1 at the image capturing time and the speed of the host vehicle 1 at the second capturing time. Further, the average own vehicle speed of the own vehicle 1 can be obtained by dividing the position of the own vehicle 1 at the first photographing time and the second photographing time by both time intervals. At this time, the position of the own vehicle 1 and the shooting time of the own vehicle 1 are the traveling vehicle 2
It suffices to perform the measurement at the moment when the traveling image is captured, and it is not necessary to perform the measurement at the timing when the specific traveling vehicle image can be captured as in the conventional example.

The traveling vehicle speed measuring section 9 determines the absolute value of the traveling vehicle 2 based on the average own vehicle speed of the own vehicle 1 obtained by the own vehicle speed measuring section 6 and the relative speed of the traveling vehicle 2 and the own vehicle 1. The speed is calculated.

Finally, the information output unit 7 outputs the absolute speed information of the traveling vehicle 2 calculated by the traveling vehicle speed measuring unit 9 and the traveling vehicle image of the traveling vehicle 2. The information output unit 7 may be a television monitor or a printer that can display absolute speed information and a traveling vehicle image, or a storage device that stores such information as data.

Embodiment 2. FIG. 4 shows a traveling relationship between the host vehicle 1 and the traveling vehicle 2 according to the second embodiment of the present invention. Figure 4
In FIG. 1, the host vehicle 1 equipped with the vehicle speed measuring device of the present invention is running in the vehicle traveling direction 3 adjacent to the traveling vehicle 2 which is the object of speed measurement. Also in FIG. 4, the vehicle traveling direction 3 has the same degree of freedom as in the first embodiment.

The own vehicle 1 irradiates the traveling vehicle 2 with a sufficient amount of light for photographing by the photographing section 8 by the mounted illumination section 10 at two or more different times, and the traveling section 2 is driven by the photographing section 8.
To shoot. Since the irradiation unit 30 is provided as described above, a sufficient amount of light can be emitted to photograph the traveling vehicle 2, and the traveling vehicle 2 can be photographed and the vehicle speed can be measured even at night. At this time, photographing is performed so as to include the license plate portion of the traveling vehicle 2.

FIG. 5 shows the configuration of a vehicle speed measuring device according to the second embodiment of the present invention. The traveling image of the traveling vehicle 2 captured by the image capturing unit 8 is image-processed by the traveling vehicle speed measuring unit 9, and the absolute velocity of the traveling vehicle 2 is obtained as in the first embodiment.

In the second embodiment, the traveling vehicle speed measuring unit 9
Also includes license plate character recognition.
FIG. 6 shows the operation of the license plate character recognition function.

FIG. 6A is an image of the license plate portion of the traveling vehicle 2 detected by the traveling vehicle speed measuring unit 9 shown in the first embodiment. Characters are individually extracted from the image of the license plate portion. FIG. 6B shows an example of an image of the license plate portion in which each character is extracted. As shown in FIG. 6C, the traveling vehicle speed measurement unit 9 performs matching processing between the characters extracted from the license plate and a dictionary in which patterns of characters and numbers used for the license plate are registered in advance, The extracted character is detected as character information. The detected character information is sent to the speed limit determining unit 11 together with the absolute speed information of the traveling vehicle 2. In this way, by adding the license plate character recognition function to the traveling vehicle speed measurement unit 9,
The license plate portion of the traveling vehicle can be detected as character information. Further, the character information of the license plate can be output.

The speed limit storage unit 12 stores the speed limit of the vehicle determined in advance by the road.
The speed limit determination unit 11 compares the speed limit stored in the speed limit storage unit 12 with the absolute speed information of the traveling vehicle 2 obtained by the traveling vehicle speed measurement unit 9, and the traveling vehicle 2 determines the speed limit. It is determined whether the vehicle is traveling within the range. As described above, by including the speed limit storage unit 12 and the speed limit determination unit 11, it is possible to determine a traveling vehicle that is not within the speed limit range. Further, traveling vehicle information can be output for traveling vehicles that are not within the speed limit range.

For example, it is assumed that the traveling vehicle 2 is traveling at a speed of 100 km / h on a road having a minimum speed of 40 km / h or more and a maximum speed of 80 km / h or less. The speed limit storage unit 12 stores in advance a lower limit speed of 40 km /
The h and the upper limit speed of 80 km / h are stored. The speed limit determination unit 11 compares the speed limit range stored in the speed limit storage unit 12 with the speed 100 km / h of the traveling vehicle 2 obtained by the traveling vehicle speed measurement unit 9, and it is not within the speed limit range. Judged as a speed limit violation.

When the traveling vehicle 2 is not traveling within the speed limit range, the traveling vehicle speed measuring section 9 causes the traveling vehicle 2 to travel.
Vehicle used to calculate the absolute speed information of the vehicle 2
The traveling vehicle image of is received. Furthermore, the speed limit determination unit 1
1 receives the position information of the host vehicle 1 from the position information detection unit 13. The position information detection unit 13 can use GPS or the like to detect the position information of the vehicle 1. From the speed limit determination unit 11, traveling vehicle information including the traveling vehicle image of the traveling vehicle 2, absolute speed information, license plate character information, and position information of the host vehicle 1 is transmitted to the information output unit 7 and output. As described above, by including the position information detection unit 13, it is possible to output the position of the host vehicle when the vehicle speed of the traveling vehicle is measured.

[0032]

According to the present invention, the absolute speed information of the traveling vehicle 2 and the traveling vehicle image of the traveling vehicle 2 when the speed thereof is measured can be simultaneously output.

In the present invention, since the traveling vehicle image of the traveling vehicle 2 is image-processed to obtain the relative speed between the traveling vehicle 1 and the traveling vehicle 2, the traveling vehicle image is captured at the time of photographing the specific traveling vehicle image.
It is possible to simultaneously output the absolute speed information of the traveling vehicle 2 and the traveling vehicle image of the traveling vehicle 2 used to acquire the absolute speed information without having to measure the own vehicle speed of the above. further,
It is not necessary to capture a specific traveling vehicle image, such as capturing the traveling vehicle 2 as a subject image of equal size.

[Brief description of drawings]

FIG. 1 is a diagram showing a traveling relationship of a vehicle speed measuring device according to a first embodiment of the present invention.

FIG. 2 is a diagram showing the configuration of the first embodiment of the vehicle speed measuring device of the present invention.

FIG. 3 is a diagram showing a process of detecting a license plate portion in image processing of the present invention.

FIG. 4 is a diagram showing a traveling relationship of a vehicle speed measuring device according to a second embodiment of the present invention.

FIG. 5 is a diagram showing a configuration of a second embodiment of a vehicle speed measuring device of the present invention.

FIG. 6 is a diagram showing an operation of a license plate character recognition function in image processing of the present invention.

FIG. 7 is a diagram showing a traveling relationship of a conventional example 1 of the vehicle speed measuring device.

FIG. 8 is a diagram showing a configuration of a conventional example 1 of a vehicle speed measuring device.

FIG. 9 is a diagram showing a traveling relationship of a conventional example 2 of the vehicle speed measuring device.

FIG. 10 is a diagram showing a configuration of a conventional example 2 of a vehicle speed measuring device.

[Explanation of symbols]

1 own vehicle, 2 traveling vehicle, 3 vehicle traveling direction, 4 electromagnetic wave transmitting / receiving section, 5 traveling vehicle speed measuring section, 6 own vehicle speed measuring section, 7 information output section, 8 photographing section, 9 image processing type traveling vehicle speed measuring section 10 illumination unit, 11 speed limit determination unit, 12 speed limit storage unit, 13 position information detection unit.

Claims (5)

[Claims] 1. A vehicle speed measuring device that is mounted on a vehicle and measures the speed of a vehicle that is running adjacent to the vehicle. An imaging unit that photographs the adjacent running vehicle, and a vehicle speed measuring unit that measures the speed of the vehicle. , The plurality of images taken at different times by the image capturing unit are processed to obtain the relative speed between the own vehicle and the adjacent traveling vehicle, and from the relative speed and the own vehicle speed obtained by the own vehicle speed measurement unit, A vehicle speed measuring device comprising: an image processing type traveling vehicle speed measuring section for calculating an absolute speed of a traveling vehicle; and an information output section for outputting absolute speed information of an adjacent traveling vehicle and an image of the traveling vehicle. 2. An image processing type traveling vehicle speed measuring unit including a license plate character recognition function for converting characters on a license plate of a traveling vehicle image into character information, and an information output unit for outputting license plate character information. The vehicle speed measuring device according to claim 1, further comprising: 3. A speed limit storage unit for storing an input speed limit, and the speed limit and an absolute speed of an adjacent traveling vehicle are compared,
The vehicle speed measuring device according to claim 1 or 2, further comprising: a speed limit determining unit that outputs the absolute speed information of the adjacent traveling vehicle and the traveling vehicle image to the information output unit according to the result. 4. A position information detecting section for obtaining position information of the own vehicle using GPS, and an information output section for outputting the position information of the own vehicle, according to any one of claims 1 to 3. The vehicle speed measurement device described in. 5. An illumination unit for obtaining the amount of light necessary for photographing an adjacent traveling vehicle is provided.
The vehicle speed measuring device according to any one of 1.