JP2017223669A - Stereo vision system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an on-vehicle image processing apparatus capable of improving installation accuracy and mounting accuracy at electric adjustment in a manufacturing process and achieving a low cost.SOLUTION: An on-vehicle image processing apparatus includes: a first imaging unit; a second imaging unit; and a housing part 11 which has the first imaging unit at one end and the second imaging unit at the other end, which generates a distance image from images picked up by the first imaging unit and the second imaging unit. Two housing reference planes 13 and 13 which come into contact with a jig of a facility in manufacturing are formed between the first imaging unit and the second imaging unit.SELECTED DRAWING: Figure 1

Description

  The present invention relates to an in-vehicle image processing apparatus including an image sensor.

  An in-vehicle camera (hereinafter referred to as a stereo) that is an in-vehicle image processing apparatus that calculates a distance to an object by triangulation using a pair of images imaged using two imaging units and thereby recognizes the object. Called a camera) is beginning to be applied to in-vehicle systems that support safe driving of vehicles.

  Especially in the in-vehicle environment, it is necessary to reliably measure and recognize the distance of long-distance objects because there is an application requirement to detect vehicles ahead, humans, obstacles, etc., and deal with them safely in advance. There is.

  Furthermore, when these stereo image processing systems are used in an in-vehicle system, downsizing, cost reduction, and high reliability are also required.

  In this system, the pixel position of a feature point common to each image is specified from pixel information included in a pair of images, and the number of pixels whose feature points are shifted in the pair of images (hereinafter referred to as parallax). In general, a dedicated LSI that performs processing to obtain a request is mounted.

  Because of the above principle, it is ideal that there is no deviation other than parallax between a pair of images, and for each imaging means, adjustment is performed with high accuracy so that there is no deviation in optical characteristics and signal characteristics, A structure that can maintain the accuracy is required.

  As a background art of this technical field, there is Patent Document 1. In this publication, “the in-vehicle camera has a camera stay and camera stay integrated structure that holds a pair of cameras in a predetermined position, and includes an attachment portion that is fixed to a vehicle casing. By using the three mounting holes provided in the mounting portion and firmly fixed to the mounting hole of the vehicle casing by three screws, the relative position between the cameras can be accurately maintained. It is like that. "

  Patent Document 2 states that “two or more light beams are emitted from two or more light sources provided at a mounting position of a compound eye camera, a target is installed at an intersection of the two or more light beams, and the target is attached to the compound eye. The compound eye camera is adjusted by photographing with the camera, whereby the optical axis adjustment and the focus adjustment of the compound eye camera can be performed accurately.

JP 2009-68906 A JP 2002-218504 A

  In the case of a stereo camera, in order to improve the measurement accuracy as described above, it is necessary to increase the relative positional accuracy of the left and right imaging units. However, since sufficient stereo camera performance cannot be realized simply by increasing the mechanical accuracy of the casing, electrical adjustment in the production process (correction is performed using an image captured by the stereo camera) is required.

  Therefore, in the production process, it is necessary to adjust the stereo camera with high accuracy on the jig of the production facility more than when the vehicle is attached.

  In the above-mentioned Patent Document 1, it is an idea to attach a stereo camera with high accuracy when it is attached to a vehicle and to make it difficult for the housing to be deformed due to a temperature change. The accuracy is not enough. Further, in Patent Document 2, the compound eye camera is attached to the reference plane of the jig with high accuracy, but a specific method for attaching with high accuracy is not described.

  In view of the above, an object of the present invention is to provide an in-vehicle image processing apparatus capable of realizing low cost while improving the accuracy of installation on a jig of a production facility in order to increase the accuracy of electrical adjustment in a production process. It is in.

  In order to solve the above problems, the present invention forms a first housing reference surface around the first lens of the first imaging unit, and the second housing around the second lens of the second imaging unit. A body reference plane is formed, and the first casing reference plane and the second casing reference plane are cut surfaces.

  ADVANTAGE OF THE INVENTION According to this invention, in order to raise the precision of the electrical adjustment in a production process, the vehicle-mounted image processing apparatus which can implement | achieve low cost can be provided, improving the installation precision to the jig | tool of production equipment.

It is a figure which shows the example of a housing | casing structure of Example 1 of the vehicle-mounted image processing apparatus which concerns on this invention. It is a figure which shows an example of the housing | casing structure of Example 2 of the vehicle-mounted image processing apparatus which concerns on this invention. It is a figure which shows the other example of the housing | casing structure of Example 2 of the vehicle-mounted image processing apparatus which concerns on this invention. It is a figure which shows the example of a housing | casing structure of Example 3 of the vehicle-mounted image processing apparatus which concerns on this invention.

  Embodiments will be described below with reference to the drawings.

  An embodiment of an in-vehicle image processing apparatus of the present invention will be described. FIG. 1 shows an example of a case structure of a stereo camera that is an in-vehicle image processing apparatus. In this example, the case structure includes a surface (hereinafter referred to as a case reference surface 13) that is brought into contact with a jig of equipment during production. is there.

  As shown in FIG. 1, the configuration of a stereo camera that is an in-vehicle image processing apparatus according to the present invention includes two imaging units 12 (a first imaging unit and a second imaging unit), and a first imaging unit at one end. And a distance image (parallax image) is generated from the images captured by these two image capturing units 12.

  The imaging unit 12 includes an imaging device, a lens for imaging visual information of the outside world on the imaging device, and a left and right imaging device substrate including a process of taking image information imaged on the imaging device into an image processing LSI And a signal processing board for driving the image sensor.

  The housing unit 11 is configured with a circuit for extracting an object by an image processing LSI based on image information sent from the image sensor substrate and calculating a distance and a size to the object. The vehicle mounting surface 15 having a processing board, a hole for passing a screw for fixing by fastening at the time of mounting on the vehicle side, and a pedestal, and a stereo camera that is an in-vehicle image processing device with high accuracy in a desired direction when the vehicle is mounted In order to be mounted on the vehicle, a reference hole 14 for mounting on the vehicle to be fitted with a pin prepared on the vehicle side, and a housing reference surface 13 that is a surface to be brought into contact with the jig of the equipment during production of the stereo camera are configured. The

  After installing the stereo camera on the fixture of the equipment, it is necessary to image an arbitrary pattern for electrical adjustment, but in order to generate accurate adjustment data from the pattern, the shooting direction of the stereo camera ( (Hereinafter referred to as the optical axis) in order to fix the housing reference surface 13 in a desired direction, the housing reference surface 13 needs to be in the desired position when installed on the fixture of the equipment. .

  In addition, the direction of the optical axis in production equipment is most susceptible to deviations in the rotation direction of the vertical, left, and right and front and rear axes that occur when a stereo camera is installed on the equipment jig. There is a need to reduce it.

  When a stereo camera is attached to equipment during production, if the reference hole 14 is attached to a jig using the reference hole 14 when the vehicle is attached, the reference hole 14 when the vehicle is attached is generally located at the center of the housing 11. Since it concentrates, the space | interval of the reference hole 14 at the time of vehicle mounting becomes short. Along with this, the installation error when installing the stereo camera on the equipment increases.

  A feature of the present invention is that there are two housing reference surfaces 13 between the first imaging unit and the second imaging unit that are brought into contact with the jig of the equipment during production. Specifically, between the first imaging unit and the central part (or vehicle installation surface 15) between the first imaging unit and the second imaging unit, and between the second imaging unit and the central part (or the vehicle). The housing reference surface 13 is provided between the installation surface 15). That is, as shown in FIG. 1, two housing reference surfaces 13 are provided in the housing 11 or the imaging unit 12 separately from the reference hole 14 when the vehicle is attached. This takes the interval between the two housing reference surfaces 13 as long as possible. Specifically, the housing reference surface 13 is provided closer to the imaging unit (the first housing reference surface is the first housing reference surface). (Provided on the first imaging unit side from the center between the imaging unit and the vehicle installation surface, and the second housing reference surface is provided on the second imaging unit side from the center between the second imaging unit and the vehicle installation surface) Therefore, it is possible to reduce the mounting error when installing the stereo camera in the facility from 1/2 to 1/3 of the conventional one. The term “as long as possible” is preferably set as far as possible in the longitudinal direction of the housing unit 11. For example, the housing reference surface 13 may be attached around the lens of the imaging unit 12.

  In FIG. 1, the housing reference surface 13 has a structure provided on the front side that is the imaging direction side of the imaging unit 12 of the housing unit 11.

  The optimum place for the installation position of the housing reference surface 13 for minimizing the attachment error is preferably attached to the outside of the lens of the image pickup unit 12, but the image pickup unit 12 is mechanically adjusted, for example, by adjusting the focus of the lens. In consideration of the occurrence of the adjustment process, it is optimal to dispose the housing unit 11 on the outer side as much as possible.

  The shape of the housing reference surface 13 is preferably a rectangle as shown in FIG.

  However, the housing reference surface 13 can be used not only for contact with the jig of the equipment for adjustment but also for contact with the jig during processing.

  Moreover, since the housing | casing part 11 is generally made from aluminum die-casting, you may serve as the extrusion pin position at the time of taking out a housing | casing from the casting mold of die casting.

  In these cases, the shape of the housing reference surface 13 may be circular.

  Moreover, in order to make the housing reference surface 13 as parallel as possible, the housing reference surface 13 to be processed may remain in a state of being removed from the mold, but it can be made more parallel by cutting or polishing. It can be a good surface.

  Since the stereo camera must be positioned when the stereo camera is installed, the housing reference surface 13 needs to be large enough for two or more fixtures on the equipment side to contact each other as shown in FIG.

  In this case, the housing reference surface 13 may be one, but considering that the housing reference surface 13 has to be processed, it is desirable that the housing reference surface be as small as possible in order to reduce costs. .

  Therefore, it is desirable that the housing reference surface 13 has two or more points and the housing reference surface 13 is made smaller.

  When the housing reference surfaces 13 are two points, it is optimal that the two housing reference surfaces 13 are parallel and the same surface in order to accurately install on the equipment side. In the case of a housing shape in which the same surface cannot be realized, it may be a parallel surface.

  Next, an example of a structure in which a housing reference surface is provided in addition to the housing reference surface 13 in FIG. 1 will be described. In this embodiment, the surface that comes into contact with the jig of the equipment at the time of production is on the upper side (the surface that is attached to the vehicle).

  The description of the parts having the same functions as those shown in FIG.

  FIG. 2A is an example in which an upper housing reference surface 21 is provided on the upper portion of the housing portion 11 (the surface to be attached to the vehicle), that is, on the vehicle installation surface 15 side, separately from the housing reference surface 13. .

  FIG. 2B is an example in which a front housing reference surface 22 is provided in which the housing reference surface 13 and the upper housing reference surface 21 are integrated. In this case, the surface that contacts the jig of the equipment during production is the upper side of the front casing reference plane 22 (the plane that is attached to the vehicle), that is, the imaging direction side of the imaging section 12 of the casing section 11. It is the example provided in the upper part of the front side.

  FIG. 3 is an example in which a side case reference surface 31 is provided in the side of the reference hole 14 and the vehicle installation surface 15 in the center of the case 11 separately from the case reference surface 13. Specifically, in this central part, one side of the vehicle installation surface 15 of the vehicle installation surface 15 provided on the imaging direction side of the imaging unit 12 and one vehicle provided on the opposite side to the imaging direction. This is an example in which a side housing reference surface 31 is provided on the side surface of the installation surface 15.

  Similarly to the case reference surface 13, the upper case reference surface 21 can use a vehicle installation surface 15 that comes into contact with the vehicle when the vehicle is mounted. In order to concentrate on the central part of the body part 11 and arrange the vehicle installation surface 15 as far as possible, the upper housing is separated from the vehicle installation surface 15 in contact with the vehicle as shown in FIG. It is desirable to provide the reference surface 21.

  In this case, it is optimal that the two upper housing reference surfaces 21 are parallel and the same surface. Even when it is difficult to provide the same surface, the same effect can be obtained if the surfaces are parallel.

  As shown in FIG. 2B, when the upper housing reference surface 21 and the housing reference surface 13 are provided, the front housing reference surface 22 may be used as an integral reference surface. Thereby, the installation space of a housing | casing reference plane can be reduced and the magnitude | size of the stereo camera housing | casing at the time of vehicle mounting can be made small.

  As shown in FIG. 3, one side housing reference surface 31 may be provided on the front side and one on the rear side. In this embodiment, one of the two vehicle installation surfaces 15 provided on the front side is one on the side surface of one vehicle installation surface 15, and one on the side surface of one reference hole 14 of the two reference holes 14 provided on the rear side. A partial housing reference plane 31 is provided. However, only one side housing reference surface 31 may be provided on either side, for example, one side surface of one reference hole 14 of the two reference holes 14 provided at the rear.

  Next, in this embodiment, an example of a structure in which a housing reference hole 41 is provided instead of the housing reference surface 13 will be described.

  The description of the parts having the same functions as those shown in FIG.

  FIG. 4 is an example in which a housing reference hole 41 is provided on the vehicle installation surface 15 side of the imaging unit 12 as a housing reference surface instead of providing the housing reference surface 13 and the side housing reference surface 31.

  Since it is necessary to perform positioning on the equipment jig, it is desirable that there are two housing reference holes 41 as shown in FIG. The shape of the housing reference hole 41 may be either a perfect circle or an ellipse. However, considering the provision of pins to be inserted as jigs on the equipment side, one is a perfect circle and the other is an elliptical shape. It can be said that it is desirable from the aspect of fitting.

  The housing reference hole 41 may be provided in the housing portion 11 instead of being provided in the imaging unit 12. In this case also, it is desirable to place the two holes as far apart as possible.

  Also, by integrating with the upper housing reference surface 21, it is possible to perform front-rear, top-bottom, and left-right positioning.

  In addition, this invention is not limited to an above-described Example, Various modifications are included. For example, the above-described embodiments have been described in detail for easy understanding of the present invention, and are not necessarily limited to those having all the configurations described.

  Further, a part of the configuration of one embodiment can be replaced with the configuration of another embodiment, and the configuration of another embodiment can be added to the configuration of one embodiment.

  Further, it is possible to add, delete, and replace other configurations for a part of the configuration of each embodiment.

DESCRIPTION OF SYMBOLS 11 Case part 12 Imaging part 13 Case reference surface 14 Reference hole 15 Vehicle installation surface 21 Upper case reference surface 22 Front case reference surface 31 Side case reference surface 41 Case reference hole

For example, an object of the present invention is to improve installation accuracy at a predetermined position. For example, an object of the present invention is to provide an in-vehicle image processing apparatus capable of realizing low cost while improving the installation accuracy of a production facility on a jig in order to increase the accuracy of electrical adjustment in a production process. is there.

In order to solve the above-mentioned problem, for example, the present invention is characterized in that a plurality of predetermined portions for improving installation accuracy are formed in a housing, and a predetermined positional relationship is provided between the portions. For example, the present invention includes a housing unit in which a first imaging unit and the second imaging unit are provided, and the first imaging unit is located on a first end side of the housing unit. Arranged, the second imaging unit is arranged on a second end side facing the first end side, and the housing unit is a first for housing the first imaging unit A storage unit and a second storage unit for storing the second imaging unit, wherein the first storage unit and the second storage unit are arranged along a longitudinal direction of the housing unit. Formed, the first protrusion and the second protrusion are formed along the longitudinal direction, the first protrusion is formed from the first storage portion toward the outside of the first storage portion, The second protrusion is formed from the second storage portion toward the outside of the second storage portion, the first hole and the second hole are formed in the housing portion, and the first A hole is formed on the first end side and outside the first projection, and the second hole is formed on the second end side and outside the second projection, One feature is that a distance between one protrusion and the second protrusion is longer than a distance between the first hole and the second hole .

According to the present invention, for example, the installation accuracy at a predetermined position is improved. For example, in order to increase the accuracy of electrical adjustment in the production process, it is possible to provide an in-vehicle image processing apparatus capable of realizing low cost while improving the installation accuracy of a production facility on a jig.

Claims (1)

A first imaging unit;
A second imaging unit;
In a vehicle-mounted image processing apparatus having a housing unit provided with the first imaging unit and the second imaging unit,
The housing unit includes a first storage unit for storing the first imaging unit, and a second storage unit for storing the second imaging unit,
The first storage part and the second storage part are formed along the longitudinal direction of the housing part,
A first protrusion and a second protrusion are formed along the longitudinal direction,
The first protrusion is formed from the first storage portion toward the outside of the first storage portion,
The second protrusion is formed from the second storage portion toward the outside of the second storage portion,
The first protrusion has a first housing reference surface;
The second protrusion has a second housing reference surface;
The in-vehicle image processing apparatus, wherein the first housing reference surface and the second housing reference surface are cutting surfaces.

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