CN105976363A - Optical center detection method, correction method and related device - Google Patents

Abstract

The present invention provides an optical center detection method, an optical center correction method and a related device. The optical center detection method includes the following steps that: a picture containing a circular image is obtained; a point is randomly selected from the picture as an origin point, so that a coordinate system can be established; at least three points on the circumference of the circular image are selected, and the coordinates of the at least three points are obtained; and the coordinates of the center of the circle can be obtained through calculation according to the standard equation of the circle and the coordinates of the at least three points, wherein the coordinates of the center of the circle are the optical center of an ultra-wide-angle camera module set. Since the edge of the circular image obtained by the ultra-wide-angle camera module set is clear, the at least three points can be selected accurately, and then the coordinates of the center of the circle can be calculated according to the standard equation of the circle. According to the optical center detection method provided by the invention, calculation is carried out based on geometric principles. Compared with a traditional optical detection method according to which software is utilized to calculate the brightest point of an image in a picture, and the brightest point is adopted as an optical center, the optical center detection method of the invention is more accurate.

Description

Optical center detection method, bearing calibration and relevant apparatus

Technical field

The present invention relates to a kind of camera technique field, particularly relate to a kind of optical center detection method, correction Method and relevant apparatus.

Background technology

In order to obtain the bigger angle of visual field, ultra wide-angle imaging module arises at the historic moment, ultra wide-angle imaging module bag Including camera lens and optical pickocff, its angle of visual field is more than 180 °.Owing to the camera lens of ultra wide-angle imaging module projects Region to optical pickocff is less than the photosensitive region of optical pickocff, therefore, ultra wide-angle imaging module shape The exterior contour that edge is camera lens of the figure become, i.e. circular.

The continuous lifting required image quality along with user, obtaining better image effect becomes user's New requirement, therefore, the center of optical pickocff and optical center (the i.e. camera lens of ultra wide-angle imaging module The intersection point of optical center axle and optical pickocff) to overlap as far as possible, thus reduce due to Liang Ge center not Overlap the image aberration and the phenomenon of brightness irregularities caused.

Therefore, it is thus achieved that the optical center of ultra wide-angle imaging module accurately, it is the image obtaining better quality Key.The optical center detection method of tradition ultra wide-angle imaging module is: shoot one under uniform source of light Pictures, utilizes computed in software to obtain the bright spot of picture epigraph as optical center.But traditional optical The accuracy of Spot detection method is relatively low, it is impossible to obtain high-quality image.

Summary of the invention

In view of this, the present invention provides a kind of optical center detection method and device thereof, a kind of optical center Bearing calibration and device thereof, and a kind of image capture device, to solve optical center inspection in prior art The accuracy of survey method is relatively low, it is impossible to the problem obtaining better quality image.

For achieving the above object, the present invention provides following technical scheme:

A kind of optical center detection method, based on ultra wide-angle imaging module, described ultra wide-angle imaging module bag Including camera lens and optical pickocff, described optical center detection method comprises the following steps:

Obtain and take in the picture that the light of described camera lens is formed on described optical pickocff, described picture bag Containing circular image；

Choose any point on described picture as initial point, set up coordinate system；

Choose at least three point on described circular image circumference, obtain the coordinate of described at least three point；

Normal equation and the coordinate of described at least three point according to circle calculate central coordinate of circle, the described center of circle Coordinate is optical center.

Preferably, described picture is rectangle, described in choose any point on described picture as initial point, Set up coordinate system particularly as follows: choose any summit of described picture as initial point, set up coordinate system.

Preferably, described in choose at least three point on described circular image circumference, obtain described at least three The coordinate of point, particularly as follows: any three points of choosing on described circular image circumference, obtains described three points Coordinate.

Preferably, described in choose any point on described picture as initial point, set up coordinate system particularly as follows: Choose any point on described circular image circumference and, as initial point, set up coordinate system.

Preferably, described in choose at least three point on described circular image circumference, obtain described at least three The coordinate of point, particularly as follows: choose on described circular image circumference any three points in addition to initial point, obtains The coordinate of described three points.

Preferably, described in choose any point on described picture as initial point, set up coordinate system particularly as follows: Choose on described picture any point in the region between described circular image circumference and described picture profile As initial point, set up coordinate system.

Preferably, in the picture that the described light obtaining the described ultra wide-angle imaging module of absorption is formed, described Light is the light of white light source.

A kind of optical center detection device, based on ultra wide-angle imaging module, described optical center detection device Including:

Image capture module, takes in, for obtaining, the picture that the light of described ultra wide-angle imaging module is formed, Described picture comprises circular image；

Establishment of coordinate system module, sets up coordinate system for any point chosen on described picture as initial point；

Coordinate chooses module, for obtaining the coordinate of at least three point on described circular image circumference；

Computing module, described computing module is according to round normal equation and the coordinate meter of described at least three point Calculate central coordinate of circle.

A kind of optical center bearing calibration, based on ultra wide-angle imaging module, described camera module includes camera lens And optical pickocff, described optical center bearing calibration includes:

Above-mentioned optical center detection method is used to determine the optical center of described ultra wide-angle imaging module；

The optical center of described ultra wide-angle imaging module is substituted the center of described optical pickocff, as figure As gathering center.

A kind of optical center correcting unit, including:

Above-mentioned optical center detection device；

Image acquisition center positioning device, for substituting institute by the optical center of described ultra wide-angle imaging module State the center of optical pickocff, as image acquisition center.

Preferably, described image acquisition center positioning device is from dynamic(al) correction optical center equipment.

A kind of image capture device, including: ultra wide-angle imaging module and above-mentioned optical center correction dress Put；

Wherein, described camera module includes camera lens and optical pickocff, is used for gathering image；

Described optical center correcting unit is for correcting the optical center of described camera module.

Understanding via above-mentioned technical scheme, the present invention provides a kind of optical center detection method, first obtains Take ultra wide-angle imaging module and shoot the picture including circular image obtained, described picture arbitrarily selects Take a little as initial point, set up coordinate system, then choose at least three point on circular image circumference, obtain to The coordinate of few three points, is calculated central coordinate of circle according to the normal equation of circle and the coordinate of at least three point, This central coordinate of circle is the optical center of ultra wide-angle imaging module.The circle obtained due to ultra wide-angle imaging module The edge clear of shape image, it is possible to accurately choose at least three point, the normal equation further according to circle can be counted Calculation obtains central coordinate of circle.What the optical detecting method that the present invention provides utilized is that geometrical principle calculates, Relative to the traditional optical detection method as optical center of the bright spot utilizing computed in software picture epigraph In more accurate.Test through inventor, the optics that the optical center detection method that the present invention provides obtains The tolerance of center is within 5 μm.

Present invention also offers the device that optical center detection method is corresponding, and examine based on this optical center The optical center bearing calibration of survey method and the device of correspondence thereof, and also provide a kind of image acquisition and set Standby, the device corresponding including above-mentioned optical center bearing calibration and ultra wide-angle imaging module, in optics The device that heart bearing calibration is corresponding, is corrected optical center, so that ultra wide-angle imaging module energy Enough obtain the higher image of quality.

Accompanying drawing explanation

In order to be illustrated more clearly that the embodiment of the present invention or technical scheme of the prior art, below will be to reality Execute the required accompanying drawing used in example or description of the prior art to be briefly described, it should be apparent that below, Accompanying drawing in description is only embodiments of the invention, for those of ordinary skill in the art, not On the premise of paying creative work, it is also possible to obtain other accompanying drawing according to the accompanying drawing provided.

A kind of optical center detection method flow chart that Fig. 1 provides for the embodiment of the present invention one；

A kind of establishment of coordinate system mode that Fig. 2 provides for the embodiment of the present invention one；

The one preferably establishment of coordinate system mode that Fig. 3 provides for the embodiment of the present invention one；

The one more preferably establishment of coordinate system mode that Fig. 4 provides for the embodiment of the present invention one；

The structural representation of a kind of optical center detection device that Fig. 5 provides for the embodiment of the present invention two；

A kind of optical center bearing calibration flow chart that Fig. 6 provides for the embodiment of the present invention three；

The structural representation of a kind of optical center correcting unit that Fig. 7 provides for the embodiment of the present invention four；

The structural representation of a kind of image capture device that Fig. 8 provides for the embodiment of the present invention five.

Detailed description of the invention

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is carried out Clearly and completely describe, it is clear that described embodiment is only a part of embodiment of the present invention, and It is not all, of embodiment.Based on the embodiment in the present invention, those of ordinary skill in the art are not doing Go out the every other embodiment obtained under creative work premise, broadly fall into the scope of protection of the invention.

Inventor, during invention, finds that traditional optical detection method can only be carried out under uniform source of light, Due to it is difficult to ensure that light source 100% uniform, so the accuracy of traditional optical Spot detection method cannot be protected Card.

Embodiment one

In order to solve the most relatively low problem of optical center detection method in prior art, the present invention implements Example provides the optical center detection method that a kind of accuracy is higher, based on ultra wide-angle imaging module, described super Wide-angle imaging module includes camera lens and optical pickocff.Due to ultra-wide angle (angle of visual field is more than 180 °) shooting The angle of visual field of module is relatively big, there is its particularity, the image i.e. formed at the photosensitive region of optical pickocff Less than the photosensitive region of optical pickocff, for the circle of standard, the embodiment of the present invention utilizes geometrical principle The normal equation of circle is calculated the center of circular image, namely has obtained optical center.The present invention is real Execute the optical center detection method that example provides, as it is shown in figure 1, comprise the following steps:

Step S101: obtain and take in the picture that the light of described camera lens is formed on described optical pickocff, Described picture comprises circular image.

The picture of the circular image that the embodiment of the present invention obtains based on the shooting of ultra wide-angle imaging module, the most again The optical center of ultra wide-angle imaging module it is calculated by geometrical principle.It should be noted that this enforcement Example does not limit and takes in the just uniform light of described ultra wide-angle imaging module or common light source, only Want to take in the camera lens of described ultra wide-angle imaging module, and at the optics of described ultra wide-angle imaging module Circular image is formed in the photosensitive area of sensor.Therefore, the present embodiment can preferably employ and hold most The light of the white light source easily obtained is taken in ultra wide-angle imaging module, in order to reduce the cost of equipment.

Step S102: as in figure 2 it is shown, any point chosen on described picture P1 is as initial point o, build Vertical coordinate system.

After obtaining the picture including circular image, start to calculate the home position of circular image, this circle Heart position is the optical center of ultra wide-angle imaging module.It should be noted that the embodiment of the present invention is built Vertical coordinate system, is the reference frame that subsequent calculations sets for convenience, therefore, it can choose on described picture Any point as initial point, then set up coordinate system with this initial point.In the present embodiment to described coordinate system not Limiting, as long as being capable of being calculated the position in the center of circle, preferably setting up in the present embodiment Plane right-angle coordinate, coordinate system xoy as shown in Figure 2, to facilitate subsequent calculations.Described initial point is permissible It is preferably chosen any point on the circumference of circular image, as it is shown on figure 3, again as initial point, set up Coordinate system；Or when described picture is rectangle, select any summit of described rectangle picture as initial point, Set up plane right-angle coordinate, preferably can be straight as plane using two right-angle sides at place, selected summit Two coordinate axess of angle coordinate system, as shown in Figure 4.It addition, choosing of initial point described in the present embodiment is gone back Can choose at the exterior domain being positioned at circular image circumference, i.e. circular image circumference and figure on picture Any point is chosen as initial point in region between sheet profile.

Step S103: choose at least three point on described circular image circumference, obtain described at least three point Coordinate.

In the normal equation of circle, there are three unknown numbers, the coordinate in the center of circle (a, b) and radius r, therefore, The circumference of circular image is chosen three points, circle can be calculated according to the coordinate figure of described three points Heart coordinate.Preferably, so that the central coordinate of circle arrived is more accurate, it is also possible to select more than three Point, is calculated central coordinate of circle according to the coordinate of multiple points.Furthermore it is also possible to be one group with three points, Choose and organize a little more, be calculated the central coordinate of circle of multiple correspondence according to organizing coordinate a little more, then ask for multiple The meansigma methods of central coordinate of circle, in order to make described central coordinate of circle more accurate.

If during it should be noted that the initial point chosen in step S102 is a point on circular image circumference, During situation the most as shown in Figure 3, three points on the circumference chosen in step 103 can not be with step S102 In the initial point chosen overlap, can only other points on the excircle of initial point chosen of selecting step S102, should Being limited to art is common knowledge, is not described in detail this in the present embodiment.

Step S104: calculate central coordinate of circle according to the normal equation of circle and the coordinate of described at least three point, Described central coordinate of circle is optical center.

In the present embodiment, preferably coordinate system is plane right-angle coordinate, now utilizes round normal equation (x-a)²+(y-b)²=r²And the coordinate of above-mentioned three points chosen calculates central coordinate of circle, the center of circle now Coordinate is the optical center of ultra wide-angle imaging module.

When described coordinate system is other coordinate systems, the Equation for Calculating of other circles of corresponding selection, this meter Calculating principle is common geometrical principle, and described technical field technical staff can retouch according to embodiments of the present invention State other computational methods of acquisition, this is not described in detail by the present embodiment.

The optical center detection method that the embodiment of the present invention provides, make use of ultra wide-angle imaging module to be formed Figure is circular feature, and utilizes geometrical principle to calculate, it is possible to obtain ultra wide-angle imaging module accurately Optical center, its accuracy is relative to brightness on traditional image utilizing computed in software to obtain maximum Point is higher as the optical center detection method of optical center.

The optical center detection method that the embodiment of the present invention provides, to the light taking in ultra wide-angle imaging module Require relatively low, common light source, therefore, it can save the expense of the equipment obtaining uniform source of light. Further, since the optical center detection method that the embodiment of the present invention provides is just with the circular pattern formed Circumference on point, the brightness not requirement to circular pattern, accordingly, with respect in traditional optical For heart detection method can only detect the optical center of brightness irregularities figure, the embodiment of the present invention provides Optical center detection method is not limited by figure brightness, it is also possible to detection forms uniform luminance circular pattern The optical center of camera module.

Embodiment two

The present embodiment provides a kind of optical center based on ultra wide-angle imaging module detection device, such as Fig. 5 institute Show, including:

Image capture module 21, takes in, for obtaining, the picture that the light of described ultra wide-angle imaging module is formed, Described picture comprises circular image.

The picture collection comprising circular image that ultra wide-angle imaging module can be formed by image capture module 21 In optical center detection device, for follow-up calculating.

Establishment of coordinate system module 22, sets up coordinate for any point chosen on described picture as initial point System.

Establishment of coordinate system module 22 has the function of selected point, also has the function setting up coordinate system simultaneously, For selecting any point on picture, set up coordinate system with this point for initial point.In the present embodiment, coordinate System sets up the selected point of module 22 in the range of whole picture, is not limited by circular image position on picture Fixed.Establishment of coordinate system module 22 can set up different coordinate systems, but for convenience of calculating, it is preferable that sit Mark system sets up module 22 and first selects to set up plane right-angle coordinate.

Delivery block 23 is clicked, for obtaining the coordinate of at least three point on described circular image circumference on circumference.

Delivery block 23 is clicked in the present embodiment on circumference, for choosing the point on circular image circumference, and The coordinate of the point on circumference that acquisition is chosen, circumference clicks delivery block 23 can be by judging certain some week Enclose the brightness flop in subrange to determine whether this point is positioned on the circumference of circular image.Due to super wide The figure that angle camera module is formed is that intermediate luminance is maximum, and surrounding brightness is gradually decayed dimmed concentric circular, Relatively big with the difference in brightness in the place not having image in circular image edge, therefore, described circular image Border be apparent from, circumference clicks delivery block 23 and can accurately choose the point on circumference.

Computing module 24, described computing module is according to round normal equation and the coordinate of described at least three point Calculate central coordinate of circle.

Computing module 24 receives the signal clicking delivery block 23 on establishment of coordinate system module 22 and circumference, according to The coordinate clicking at least three point that delivery block 23 is chosen on the normal equation of circle and circumference calculates center of circle seat Mark, this central coordinate of circle is the optical center of ultra wide-angle imaging module, thus accurately determines optical center Position.

The optical center detection device that the present embodiment provides can accurately calculate the position of optical center, from And provide higher accuracy to follow-up other work according to optical center.

Embodiment three

The present embodiment provides a kind of optical center bearing calibration, based on ultra wide-angle imaging module, described shooting Module includes camera lens and optical pickocff, described optical center bearing calibration, as shown in Figure 6, and including:

Step S601: use the optical center detection method in embodiment one to determine described ultra wide-angle imaging mould The optical center of group.

Step S602: the optical center of described ultra wide-angle imaging module is substituted in described optical pickocff The heart, as image acquisition center.

The optical center of ultra wide-angle imaging module is substituted the center of described optical pickocff by the present embodiment, As image acquisition center so that the optical center of ultra wide-angle imaging module becomes the center of entire image, Correct optical center, reduce the side-play amount of optical center to the most almost nil, and then improve ultra-wide angle and take the photograph Pickup quality as module.

Embodiment four

The present embodiment provides a kind of optical center correcting unit, as it is shown in fig. 7, comprises: in embodiment two Optical center detection device 2；And image acquisition center positioning device 3, wherein, image acquisition center Positioner 3 is for substituting the optical center of described ultra wide-angle imaging module in described optical pickocff The heart, as image acquisition center.

In the present embodiment preferably, described image acquisition center positioning device is for set from dynamic(al) correction optical center Standby.When optical center skew amount is required higher by user, can use from dynamic(al) correction optical center equipment The optical center coordinate obtained according to optical center detection device and the centre coordinate of optical pickocff, determine The side-play amount of optical center, is then corrected optical center, using optical center as in image acquisition The heart, and then improve the quality of the shooting image of ultra wide-angle imaging module.

Embodiment five

A kind of image capture device of offer in the present embodiment, as shown in Figure 8, including: ultra wide-angle imaging mould Optical center correcting unit 4 described in group 1 and embodiment four；Wherein, ultra wide-angle imaging module 1 includes Camera lens and optical pickocff, be used for gathering image；Optical center correcting unit 4 is used for correcting described shooting The optical center of module.

The image capture device that the present embodiment provides, it is possible to picture based on the shooting of ultra wide-angle imaging module, The optical center of ultra wide-angle imaging module is detected, obtains accurately after optical center, then pass through light Learn cent(e)ring device described optical center is corrected, make optical center substitute the light of ultra wide-angle imaging module Learn the center of sensor, become the center of entire image, and then improve the shooting matter of ultra wide-angle imaging module Amount.

During optical center is detected, use the point choosing on circumference, then pass through Geometrical principle is calculated, rather than detects the method for brightness maximum point in traditional optical Spot detection method, The accuracy of the optical center that detection obtains is higher, thus in correction optical center, it is possible to obtain more The amount of optical center skew accurately, the optical center after correction is more accurate, the most again by correcting light The ultra wide-angle imaging module shooting picture at center, obtains the picture that picture quality is higher so that shooting effect Fruit more preferably, reduces diplopia, fuzzy phenomenon.

It addition, during optical center detects, ordinary light source, preferably white light shooting picture can be used, Requirement to light source is relatively low, relative to using uniform parallel light shooting figure in traditional optical Spot detection method The method of sheet, it is possible to reduce the cost of light source, and then reduce the cost of whole ultra wide-angle imaging module.

It should be noted that each embodiment in this specification all uses the mode gone forward one by one to describe, each What embodiment stressed is all the difference with other embodiments, identical similar between each embodiment Part see mutually.

Described above to the disclosed embodiments, makes professional and technical personnel in the field be capable of or uses The present invention.Multiple amendment to these embodiments will be aobvious and easy for those skilled in the art See, generic principles defined herein can without departing from the spirit or scope of the present invention, Realize in other embodiments.Therefore, the present invention is not intended to be limited to the embodiments shown herein, And it is to fit to the widest scope consistent with principles disclosed herein and features of novelty.

Claims (12)

1. an optical center detection method, it is characterised in that based on ultra wide-angle imaging module is described super Wide-angle imaging module includes that camera lens and optical pickocff, described optical center detection method comprise the following steps:

Obtain and take in the picture that the light of described camera lens is formed on described optical pickocff, described picture bag Containing circular image；

Choose any point on described picture as initial point, set up coordinate system；

Choose at least three point on described circular image circumference, obtain the coordinate of described at least three point；

Normal equation and the coordinate of described at least three point according to circle calculate central coordinate of circle, the described center of circle Coordinate is optical center.

Optical center detection method the most according to claim 1, it is characterised in that described picture is Rectangle, described in choose any point on described picture as initial point, set up coordinate system particularly as follows:

Choose any summit of described picture as initial point, set up coordinate system.

Optical center detection method the most according to claim 2, it is characterised in that described in choose institute State at least three point on circular image circumference, obtain the coordinate of described at least three point particularly as follows:

Choose any three points on described circular image circumference, obtain the coordinate of described three points.

Optical center detection method the most according to claim 1, it is characterised in that described in choose institute State any point on picture as initial point, set up coordinate system particularly as follows:

Choose any point on described circular image circumference and, as initial point, set up coordinate system.

Optical center detection method the most according to claim 4, it is characterised in that described in choose institute State at least three point on circular image circumference, obtain the coordinate of described at least three point particularly as follows:

Choose any three points in addition to initial point on described circular image circumference, obtain described three points Coordinate.

Optical center detection method the most according to claim 1, it is characterised in that described in choose institute State any point on picture as initial point, set up coordinate system particularly as follows:

That chooses on described picture in the region between described circular image circumference and described picture profile is any A little as initial point, set up coordinate system.

7. according to the optical center detection method described in claim 1-6, it is characterised in that described acquisition Taking in the picture that the light of described ultra wide-angle imaging module is formed, described light is the light of white light source.

8. an optical center detection device, it is characterised in that based on ultra wide-angle imaging module, described light Central detection device includes:

Image capture module, takes in, for obtaining, the picture that the light of described ultra wide-angle imaging module is formed, Described picture comprises circular image；

Establishment of coordinate system module, sets up coordinate system for any point chosen on described picture as initial point；

Coordinate chooses module, for obtaining the coordinate of at least three point on described circular image circumference；

Computing module, described computing module is according to round normal equation and the coordinate meter of described at least three point Calculate central coordinate of circle.

9. an optical center bearing calibration, it is characterised in that based on ultra wide-angle imaging module, described in take the photograph As module includes that camera lens and optical pickocff, described optical center bearing calibration include:

The optical center detection method described in claim 1 is used to determine the light of described ultra wide-angle imaging module Center；

The optical center of described ultra wide-angle imaging module is substituted the center of described optical pickocff, as figure As gathering center.

10. an optical center correcting unit, it is characterised in that including:

Optical center detection device described in claim 8；

Image acquisition center positioning device, for substituting institute by the optical center of described ultra wide-angle imaging module State the center of optical pickocff, as image acquisition center.

11. optical center correcting units according to claim 10, it is characterised in that described image Gathering center positioning device is from dynamic(al) correction optical center equipment.

12. 1 kinds of image capture devices, it is characterised in that including: ultra wide-angle imaging module and right Require the optical center correcting unit described in 10 or 11；

Wherein, described camera module includes camera lens and optical pickocff, is used for gathering image；

Described optical center correcting unit is for correcting the optical center of described camera module.