CN108280807A - Monocular depth image collecting device and system and its image processing method - Google Patents

Abstract

One monocular depth image collecting device and system and its image processing method, wherein the monocular depth image capturing system includes：One infrared imaging unit；One depth converting unit；One speckle projecting unit；One color imaging member and a control unit, the wherein described speckle projecting unit is for projecting infrared light, the infrared imaging unit receives the infrared light of reflection, obtain Infrared Image Information, the Infrared Image Information is converted to monocular depth image information by the depth converting unit, the color imaging member acquires RGB image, and the RGB image and the monocular depth image co-registration are obtained colored monocular depth image by described control unit.

Description

Monocular depth image collecting device and system and its image processing method

Technical field

The present invention relates to Image Acquisition and image processing fields, further, are related to a monocular depth image collecting device With system and its image processing method.

Background technology

With the development of optical measuring technique and computer vision, optical three-dimensional measurement technology is gradually ripe, gradually Applied to fields such as gesture control, 3D modeling, car radar and robotic vision systems, also become in current optical field Research hotspot.

Infrared speckle monocular depth technology is that a kind of technology more outstanding is showed in many optical three-dimensional measurement technologies.Its Basic principle be infrared projector launch regular coding infrared light reflected by testee after captured by infrared phase, thus may be used Testee is calculated at a distance from infrared speckle monocular depth camera.It is infrared compared with other optical three-dimensional measurement technologies Speckle monocular depth technology has many advantages, such as that calculation amount is small, real-time, precision is high.

But based on the basic principle of traditional monocular depth Image Acquisition, existing infrared speckle monocular depth camera acquisition Image be all gray level image, be not coloured image.That is, the image that this mode obtains can not be as common flat Face image equally passes through color image reproduction testee.Although this mode obtains depth information, there is space multistory sense, It is to have lost color information, the resolution ratio of obtained image is relatively low, and the clarity of image is poor.This effect makes user experience It is poor, therefore also limit the application range of infrared speckle monocular depth camera.

On the other hand, hole is usually contained in traditional infrared speckle monocular depth image, picture quality is poor.

Invention content

It is an object of the present invention to provide a monocular depth image collecting device and system and its image processing method, Wherein monocular depth image capturing system acquisition monocular depth image and RGB image, and by monocular depth image and RGB image It is merged, forms colored monocular depth image.

It is an object of the present invention to provide a monocular depth image collecting device and system and its image processing method, The wherein described monocular depth image collecting device includes an at least color imaging member, in order to acquire RGB image.

It is an object of the present invention to provide a monocular depth image collecting device and system and its image processing method, The wherein described monocular depth image capturing system includes that an infrared imaging unit and a speckle join in unit, in order to cooperate Collect depth image.

It is an object of the present invention to provide a monocular depth image collecting device and system and its image processing method, Wherein during image procossing, first collected monocular depth image and RGB image are respectively processed, to improve The precision of monocular depth image and RGB image synthesis.

It is an object of the present invention to provide a monocular depth image collecting device and system and its image processing method, Wherein described monocular depth image co-registration RGB image information, improves the resolution ratio of independent degree of depth image, improves image Clarity.

It is an object of the present invention to provide a monocular depth image collecting device and system and its image processing method, The wherein described RGB image supplements monocular depth image, forms colored monocular depth image, reduces traditional infrared speckle monocular Hole in depth image.

It is an object of the present invention to provide a monocular depth image collecting device and system and its image processing method, Wherein by benefit value, go the technologies such as flying spot, denoising, edge detection to improve the resolution ratio of infrared speckle monocular depth image, pole The earth improves the clarity of the RGB-D images after fusion.

In order to realize that the above at least purpose, one aspect of the present invention provide a monocular depth image capturing system comprising： One infrared imaging unit；One depth converting unit；One speckle projecting unit；One color imaging member and a control unit, wherein The speckle projecting unit receives the infrared light of reflection, obtains infrared image for projecting infrared light, the infrared imaging unit The Infrared Image Information is converted to monocular depth image information, the colour imaging list by information, the depth converting unit The RGB image and the monocular depth image co-registration are obtained colored monocular depth by member acquisition RGB image, described control unit Image.

According to some embodiments, the monocular depth image capturing system, wherein described control unit is to the monocular Depth image goes flying spot to handle.

According to some embodiments, the monocular depth image capturing system, wherein described control unit scheme the RGB After carrying out denoising, by the RGB image and the monocular depth image co-registration.

According to some embodiments, the monocular depth image capturing system, wherein described control unit be equipped with to A few output interface exports the color depth image in order to communicate to connect an electronic equipment to the electronic equipment.

According to some embodiments, the monocular depth image capturing system, wherein described control unit are to described infrared Imaging unit, the color imaging member, speckle projecting unit transmission control signal, to control the infrared imaging list Member, the work of the speckle projecting unit and the color imaging member.

According to some embodiments, the monocular depth image capturing system, wherein described control unit are to described infrared Imaging unit, the color imaging member, the speckle projecting unit transmit synchronizing signal, to synchronize the infrared imaging list First, the described color imaging member and the speckle projecting unit.

According to some embodiments, the monocular depth image capturing system, wherein described control unit is in image co-registration During, the pixel to losing depth information in monocular depth image assigns depth initial value.

According to some embodiments, the monocular depth image capturing system, wherein the pixel to losing depth information The mode for assigning initial value is to take the depth mean value of its surrounding pixel point as its depth value.

According to some embodiments, the monocular depth image capturing system, wherein described control unit is in blending image During, monocular depth image and RGB image are integrated to obtain an entire image, entire image is decomposed into limited a image Block (each tile size is m × m), according to formulaFind out away from From image block P_rK-1 nearest image block, wherein I_rAnd D_rIt is block of pixels P respectively_rRGB and depth information,It is average Depth, α and β are the weight of color and depth respectively.

According to some embodiments, the monocular depth image capturing system, wherein described control unit is in blending image During, by image block P_rAnd this k-1 image block constitutes image block matrix by row dischargeAssuming thatIt isIdeal matrix, the object edge in coloured image and monocular depth image is detected to obtain the RGB- of image block D structural relations estimate matrix using parabolic regression modelOrder r.

According to some embodiments, described control unit can divide matrix according to the value of r during blending image Solution：It is rightSubmatrix A and B, wherein W are obtained using change algorithm It is mask code matrix, the element position for losing information is 0, remaining element is 1.

According to some embodiments, the monocular depth image capturing system, wherein described control unit is in image co-registration During, matrix A is multiplied to obtain with BIts each row is the corresponding depth of k image block.

According to some embodiments, the monocular depth image capturing system, wherein described control unit is in image co-registration During, to each pixel p, depth of the depth mean value of all image blocks of covering p as the pixel is taken, is thus obtained whole The depth map of width image.

Another aspect of the present invention provides a monocular depth image processing method comprising step：

(A) an at least RGB image is acquired；

(B) an at least monocular depth image is acquired；With

(C) it merges the RGB image and forms a color depth image with the monocular depth image.

According to some embodiments, the monocular depth image processing method, wherein the step (B) includes step：It adopts Collect an infrared image, the infrared image is converted into the monocular depth image.

According to some embodiments, the monocular depth image processing method, wherein the step (C) includes step：It is right The RGB image carries out denoising, to obtain the RGB image of high quality.

According to some embodiments, the monocular depth image processing method, wherein the step (C) includes step：It is right The monocular depth image carries out flying spot and handles.

According to some embodiments, the monocular depth image processing method, wherein the step (C) includes step：It is right The pixel that depth information is lost in monocular depth image assigns initial value.

According to some embodiments, the monocular depth image processing method, wherein the mode for assigning initial value is：It takes The depth mean value of the pixel surrounding pixel point of depth information is lost as its depth value.

According to some embodiments, the monocular depth image processing method, wherein the step (C) includes step：

(C1) it finds out K-1 nearest image block of range image block Pr and constitutes matrix M；

(C2) ideal matrix of estimation matrix MOrder r；

(C3) sub- square A, B are found out；With

(C4) matrix decomposition is run, depth is obtained.

According to some embodiments, the monocular depth image processing method, wherein in the step (C1), by monocular depth Degree image and RGB image are integrated to obtain an entire image, and entire image is decomposed into limited a image block (each tile size For m × m), according to formulaFind out range image block P_rNearest K-1 image block, wherein I_rAnd D_rIt is block of pixels P respectively_rRGB and depth information,It is mean depth, α and β are to be respectively The weight of color and depth.

According to some embodiments, the monocular depth image processing method, wherein in the step (C2), by image block P_rAnd this k-1 image block constitutes image block matrix by row dischargeAssuming thatIt isIdeal matrix, it is right Object edge in coloured image and monocular depth image is detected to obtain the RGB-D structural relations of image block, uses parabolic Line regression model estimates matrixOrder r.

According to some embodiments, the monocular depth image processing method, wherein in the step (C3), according to r's Value can decompose matrix：It is rightIt is obtained using change algorithm Submatrix A and B, wherein W is mask code matrix, and the element position for losing information is 0, remaining element is 1.

According to some embodiments, the monocular depth image processing method, wherein in the step (C4), by matrix A It is multiplied to obtain with BIts each row is the corresponding depth of k image block.

According to some embodiments, the monocular depth image processing method, wherein the step (C) includes step：It is right Each pixel p takes depth of the depth mean value of all image blocks of covering p as the pixel, thus obtains the depth of entire image Degree figure.

Another aspect of the present invention provides a monocular depth image collecting device, wherein the monocular depth image collector It sets and is run in a manner of monocular depth image capturing system above-mentioned.

Description of the drawings

Fig. 1 is the operation principle block diagram of monocular depth image capturing system according to a preferred embodiment of the present invention.

Fig. 2 is that the signal transmission work of the monocular depth image capturing system of above preferred embodiment according to the present invention is former Reason figure.

Fig. 3 be above preferred embodiment according to the present invention monocular depth image capturing system monocular depth image and RGB image fusion method block diagram.

Fig. 4 is the monocular depth image processing method block diagram of above preferred embodiment according to the present invention.

Specific implementation mode

It is described below for disclosing the present invention so that those skilled in the art can realize the present invention.It is excellent in being described below Embodiment is selected to be only used as illustrating, it may occur to persons skilled in the art that other obvious modifications.It defines in the following description The present invention basic principle can be applied to other embodiments, deformation scheme, improvement project, equivalent program and do not carry on the back Other technologies scheme from the spirit and scope of the present invention.

It will be understood by those skilled in the art that the present invention exposure in, term " longitudinal direction ", " transverse direction ", "upper", The orientation of the instructions such as "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom" "inner", "outside" or position are closed System is to be based on the orientation or positional relationship shown in the drawings, and is merely for convenience of description of the present invention and simplification of the description, without referring to Show or imply that signified device or element must have a particular orientation, with specific azimuth configuration and operation, therefore above-mentioned art Language is not considered as limiting the invention.

Referring to figs. 1 to Fig. 3, depth image acquisition system 100 according to a preferred embodiment of the invention, the monocular depth Degree image capturing system 100 acquires monocular depth image and coloured image respectively, by monocular depth image and color depth image It is merged, obtains colored monocular depth image (RGB-D images).The monocular depth image capturing system 100 can be answered For different equipment and different field, such as monocular depth camera, gesture control, 3D modeling, car radar and machine The fields such as human visual system.

The monocular depth image capturing system 100 includes an infrared imaging unit 101, a color imaging member 102, one Speckle projecting unit 103, a depth converting unit 107 and a control unit (MCU) 104.The infrared imaging unit 101, institute It states color imaging member 102, the speckle projecting unit 103 and the depth converting unit 107 and is communicatively coupled to the control Unit 104 processed.

The infrared imaging unit 101 and institute's speckle projecting unit 103 match acquisition infrared image, and by described The infrared image is converted to monocular depth image by depth converting unit 107.In other words, the infrared imaging unit 101, The speckle projecting unit 103 and the depth converting unit 107 match realization acquisition monocular depth image.It is described it is colored at As unit 102 is for acquiring RGB image.Described control unit 104 is for handling image information.

Specifically, in the process of work, the speckle projecting unit 103 projects on infrared speckle a to target object, The infrared imaging unit 101 obtains the real-time infrared image with infrared speckle characteristics, and image information is sent to institute It states depth converting unit 107 and obtains monocular depth image.The color imaging member 102 obtains the cromogram of target object Picture.Monocular depth image and coloured image are transferred into described control unit 104, and described control unit 104 is deep by the monocular Degree image and the coloured image blend to obtain colored monocular depth image.

More specifically, the speckle projecting unit 103 projects infrared speckle light to target object, and supplement is provided and is shone It is bright.After the RGB image sensor photosensitization of the color imaging member 102, opto-electronic conversion is carried out, to described control unit 104 output RGB images.The IR imaging sensors of the infrared imaging unit 101 respond the speckle reflected by the object The infrared speckle light that projecting unit 103 projects carries out photosensitization and obtains Infrared Image Information, and by Infrared Image Information It is sent to the depth converting unit 107.Infrared Image Information is changed into monocular depth by the depth image converting unit 107 Image information, and export deep image information to described control unit 104.Described control unit 104 first by it is described it is infrared at As the monocular depth image that unit 101 is converted by the depth image converting unit 107 is handled, high-precision monocular is obtained Depth image, and the RGB image of color imaging member output is handled, then by monocular depth image and described RGB image carries out fusion treatment and obtains colored monocular depth image.

Citing ground, the infrared imaging unit 101 can be infrared photography module, and the color imaging member 102 can be with For a natural light camera module, the speckle projecting unit 103 can be an infrared ray diffraction speckle projector, described control unit 104 can be an embeded processor.

It is noted that for traditional monocular depth camera, it is typically only capable to acquisition monocular depth image, monocular depth Image reproducing is gray level image, and does not have color information, but the only resolution ratio of the monocular depth image of half-tone information Relatively low, image clarity is poor, and is susceptible to hole in the image acquired, and picture quality is poor.And it will according to the present invention The Color Image Fusion of acquisition obtains the monocular depth image with color information, i.e. RGB-D images in monocular depth image, To improve the resolution ratio of monocular depth image, the clarity of image is improved, and compensates for traditional monocular depth image and adopts There are the defects of hole in collection image, and more good user experience is provided for user.

Further, described control unit 104 is provided with an output interface 105, such as USB interface, such as USB2.0, USB3.0 Deng so as to which the monocular depth image is exported by the output interface 105.It such as, will be described by the USB interface Image capturing system is connected to an electronic equipment, for example, desktop computer, laptop, tablet computer, personal digital assistant device, Cell phone apparatus, wearable device, vehicle console, somatic sensation television game equipment etc., to realize image by the electronic equipment It reproduces, and coordinates the electronic device works.

With reference to Fig. 2, described control unit 104 to the infrared imaging unit 101, the speckle projecting unit 103 and The signal of transmission control in real time of the color imaging member 102, to control the infrared imaging unit 101, speckle projection list Member 107 and the color imaging member 102 work, for example control the infrared imaging unit 101 and the colour imaging list 102 acquisition of member respectively acquires image information, and the Infrared Image Information of acquisition and the color image information are sent to institute State control unit 104.Described control unit 104 is to the infrared imaging unit 101, the color imaging member 102 and institute It states speckle projecting unit 103 and transmits synchronizing signal, to synchronize the infrared imaging unit 101,102 and of the color imaging member The speckle projecting unit 103 improves Image Acquisition precision.That is, in the infrared imaging unit 101, the colour Before imaging unit 102 and the speckle projecting unit 103 work, first to the infrared imaging unit 101, the colour imaging Unit 102 is synchronous with the speckle projecting unit 103 progress signal.

As shown in figure 3, described control unit 104 illustrates the monocular depth image and the Color Image Fusion method Figure.During image co-registration, first the monocular depth image that the infrared imaging unit 101 acquires is carried out at flying spot Reason, that is, flying spot is carried out to infrared speckle monocular depth figure and is handled, removal depth has the picture of larger difference with adjacent pixels Element.

Further, initial depth value is assigned to the pixel for losing depth information in monocular depth image, that is, take picture around it The depth mean value of vegetarian refreshments is as its depth value.

Further, described control unit 104 carries out denoising to the RGB image, improves picture quality.

Further, monocular depth image and RGB image are integrated to obtain an entire image, entire image is decomposed into limited A image block (each tile size is m × m), according to formula Find out range image block P_rK-1 nearest image block.Wherein, I_rAnd D_rIt is block of pixels P respectively_rRGB and depth information, It is mean depth, α and β are the weights for being color and depth respectively (default value is respectively 0.4 and 30).

By image block P_rAnd this k-1 image block constitutes image block matrix by row dischargeAssuming thatIt isIdeal matrix (do not include noise and each pixel and do not lose depth information).It is deep to coloured image and monocular Object edge in degree image is detected to obtain the RGB-D structural relations of image block, is estimated using parabolic regression model MatrixOrder r.

Further, matrix can be decomposed according to the value of r：It is right Submatrix A and B are obtained using change algorithm.Wherein W is mask code matrix, and the element position for losing information is 0, remaining element is 1.

Further, matrix A is multiplied to obtain with BIts each row is the corresponding depth of k image block.

Further, to each pixel p, depth of the depth mean value of all image blocks of covering p as the pixel is taken, finally Obtain the depth map of entire image.

Thus it obtains, by the colored monocular depth image of RGB image and monocular depth image co-registration.

During the image co-registration of the present invention, by benefit value, the technologies such as flying spot, denoising, edge detection is gone to improve The resolution ratio of infrared speckle monocular depth image greatly improves the clarity of the RGB-D images after fusion.

According to the abovementioned embodiments of the present invention, the present invention provides a monocular depth image collecting device comprising one is infrared Photographing module, a colored photographing module, a speckle projector, a depth conversion module and a processor.The infrared photography mould Block is used to infrared image being changed into depth image, the colored camera shooting for obtaining infrared image, the depth conversion module Module is for obtaining RGB image, and the speckle projector is for projecting infrared speckle light, and the processor is for handling image Information.

In this embodiment of the present invention, the monocular depth image collecting device includes a shell, the infrared photography Module and the color acquisition photographing module and the speckle projector are installed in the shell respectively, in order to pass through It states shell and fixed position is provided so that the infrared photography module, the colored photographing module and the speckle projector quilt Stablize and fixes.The processor is arranged in the shell.The depth conversion module is integrated in the infrared photography module.

The infrared photography module and the colored photographing module are arranged at the both sides of the speckle projector respectively.It is special Not, the both sides of the speckle projector are set to the infrared photography module and the colour imaging module symmetry.Certainly, In other embodiments of the invention, the infrared imaging module, the colored photographing module and the speckle projector may be used also To be other layouts, such as integrated setting.

In this embodiment in accordance with the invention, the depth conversion module and the infrared photography module are integrally disposed. That is the depth conversion module and the infrared photography module integrate a module, it is co-located.The present invention's In another embodiment, the infrared imaging module, the depth conversion module and the colour imaging module are all integrally disposed.

Further, the processor is an integrated circuit board, the inside of the shell is arranged at, to protect the processing Device.

The monocular depth image collecting device is provided with an at least output interface, such as USB interface, so as to pass through The output interface exports the RGB-D images.Such as, described image acquisition system is connected to one by the USB interface Electronic equipment, for example, desktop computer, laptop, tablet computer, personal digital assistant device, cell phone apparatus, wearable device, Vehicle console etc. to realize the reproduction of image by the electronic equipment, and coordinates the electronic device works.It is described defeated Outgoing interface is communicatively coupled to described image processor.

During the monocular depth image collecting device works, the speckle projector projects infrared speckle to one On target object, the infrared photography module obtains the real-time infrared image with infrared speckle characteristics.The colored camera shooting mould Block obtains the coloured image of target object.The infrared image is transferred into the depth conversion module and obtains monocular depth figure Picture.The monocular depth image and the coloured image are transferred into the processor, and the processor is by the monocular depth Image and the coloured image blend to obtain RGB-D images.

Specifically, the speckle projector projects infrared speckle light to target object, and provides additional illumination.It is described After the RGB image sensor photosensitization of colored photographing module, opto-electronic conversion is carried out, RGB image is exported to the processor.Institute The IR imaging sensors for stating infrared photography module respond the infrared speckle for the speckle projector projection reflected by the object Light carries out photosensitization, obtains infrared image, and infrared image is sent to the depth conversion module, obtain monocular Depth image.The processor is first handled the infrared image of the infrared photography module, obtains the RGB figures of high quality Picture, and handling monocular depth image, obtains high-precision monocular depth image, then by monocular depth image and RGB Image carries out fusion treatment.

It is noted that in traditional monocular depth image camera, it is typically only capable to sampling depth image, and depth map It is gray level image as reproducing, and does not have color information, and the resolution ratio of the only depth image of half-tone information is relatively low, image Clarity it is poor, and usually there is hole in the image acquired, image quality is poor.And monocular depth figure according to the present invention As harvester, by the Color Image Fusion of acquisition in monocular depth image, the monocular depth image with color information is obtained, That is RGB-D images improve the clarity of image to improve the resolution ratio of depth image, and it is deep to compensate for traditional monocular There are the defects of hole in degree image, and more good user experience is provided for user.

The processor is controlled to the infrared photography module, the speckle projector and the colored photographing module transmission Signal processed to control the infrared photography module and the colored photographing module work, for example controls the infrared photography module With the respective acquisition image information of the colored photographing module acquisition, and by the Infrared Image Information of acquisition and the coloured image Information is sent to the processor.The processor is to the infrared photography module, the colored photographing module and described dissipates The spot projector transmits synchronizing signal, to synchronize the infrared photography module, the colored photographing module and the speckle projector, Improve Image Acquisition precision.That is, in the infrared photography module, the colored photographing module and the speckle projector Before work, it is synchronous that signal first is carried out with the speckle projector to the infrared photography module, the colored photographing module.

With reference to Fig. 3, during image co-registration, first the infrared image that the infrared photography module acquires fly Point processing, that is, carrying out flying spot to infrared speckle monocular depth figure is handled, and removal depth has larger difference with adjacent pixels Pixel.

Further, initial depth value is assigned to the pixel for losing depth information in monocular depth image, that is, take picture around it The depth mean value of vegetarian refreshments is as its depth value.

Further, the processor carries out noise reduction process to the RGB image, improves picture quality.

Further, monocular depth image and RGB image are integrated to obtain an entire image, entire image is decomposed into limited A image block (each tile size is m × m), according to formula Find out range image block P_rK-1 nearest image block.Wherein, I_rAnd D_rIt is block of pixels P respectively_rRGB and depth information, It is mean depth, α and β are the weights for being color and depth respectively (default value is respectively 0.4 and 30).

By image block P_rAnd this k-1 image block constitutes image block matrix by row dischargeAssuming thatIt isIdeal matrix (do not include noise and each pixel and do not lose depth information).It is deep to coloured image and monocular Object edge in degree image is detected to obtain the RGB-D structural relations of image block, is estimated using parabolic regression model MatrixOrder r.

Further, matrix can be decomposed according to the value of r：It is right Submatrix A and B are obtained using change algorithm.Wherein W is mask code matrix, and the element position for losing information is 0, remaining element is 1.

Further, matrix A is multiplied to obtain with BIts each row is the corresponding depth of k image block.

Further, to each pixel p, depth of the depth mean value of all image blocks of covering p as the pixel is taken, finally Obtain the depth map of entire image.

Thus it obtains, by the colored monocular depth image of RGB image and monocular depth image co-registration.

With reference to Fig. 4, according to the abovementioned embodiments of the present invention, the present invention provides a monocular depth image processing method 1000, The method 1000 includes step：

1001：Acquire an at least RGB image；

1002：Acquire an at least monocular depth image；With

1003：It merges the RGB image and forms a color depth image with the monocular depth image.

The wherein described step 1003 includes step：Noise reduction process is carried out to the RGB image, to obtain high quality The RGB image.

The wherein described step 1002 includes step：An infrared image is obtained, and infrared image is converted into monocular depth Degree figure, such as infrared speckle monocular depth figure.

Further, the step 1003 includes step：Flying spot is carried out to the monocular depth image to handle.It is described to go Flying spot is handled：Removing depth, there are the pixels of larger difference with adjacent pixels.

The step 1003 includes step：Pixel to losing depth information in monocular depth image assigns initial depth Value, that is, take the depth mean value of its surrounding pixel point as its depth value.

Include wherein step in the step 1003：

10031：Find out range image block P_rK-1 nearest image block constitutes matrix M；

10032：Estimate the ideal matrix of matrix MOrder r；

10033：Find out sub- square A, B；With

10034：Matrix decomposition is run, depth is obtained.

In the wherein described step 10031, monocular depth image and RGB image are integrated to obtain an entire image, by entire image It is decomposed into limited a image block (each tile size is m × m), according to formula Find out range image block P_rK-1 nearest image block.Wherein, I_rAnd D_rIt is block of pixels P respectively_rRGB and depth information, It is mean depth, α and β are the weights for being color and depth respectively (default value is respectively 0.4 and 30).

In the wherein described step 10032, by image block P_rAnd this k-1 image block constitutes image block matrix by row dischargeAssuming thatIt isIdeal matrix (do not include noise and each pixel and do not lose depth information). Object edge in coloured image and monocular depth image is detected to obtain the RGB-D structural relations of image block, uses throwing Object line regression model estimates matrixOrder r.

In the step 10033, matrix can be decomposed according to the value of r：It is rightSubmatrix A and B are obtained using change algorithm.Wherein W is mask code matrix, loses information Element position is 0, remaining element is 1.

In the step 10034, matrix A is multiplied to obtain with BIts each row is the corresponding depth of k image block Degree.

Further, to each pixel p, depth of the depth mean value of all image blocks of covering p as the pixel is taken, finally Obtain the depth map of entire image.

By the above method, by benefit value, the technologies such as flying spot, denoising, edge detection is gone to improve infrared speckle monocular depth The resolution ratio of image greatly improves the clarity of the RGB-D images after fusion.

It should be understood by those skilled in the art that the embodiment of the present invention shown in foregoing description and attached drawing is only used as illustrating And it is not intended to limit the present invention.The purpose of the present invention has been fully and effectively achieved.The function and structural principle of the present invention exists It shows and illustrates in embodiment, under without departing from the principle, embodiments of the present invention can have any deformation or modification.

Claims (26)

1. a monocular depth image capturing system, which is characterized in that including：

One infrared imaging unit；

One depth converting unit；

One speckle projecting unit；

One color imaging member；With

One control unit, wherein the speckle projecting unit receives reflection for projecting infrared light, the infrared imaging unit Infrared light, obtains Infrared Image Information, and the Infrared Image Information is converted to monocular depth image by the depth converting unit Information, the color imaging member acquire RGB image, and described control unit is by the RGB image and the monocular depth image Fusion obtains colored monocular depth image.

2. monocular depth image capturing system according to claim 1, wherein described control unit is to the monocular depth Image goes flying spot to handle.

3. monocular depth image capturing system according to claim 1, wherein described control unit to the RGB image into After row denoising, by the RGB image and the monocular depth image co-registration.

4. monocular depth image capturing system according to claim 1, wherein described control unit are equipped at least one Output interface exports the color depth image in order to communicate to connect an electronic equipment to the electronic equipment.

5. monocular depth image capturing system according to claim 1, wherein described control unit are to the infrared imaging Unit, the color imaging member, speckle projecting unit transmission control signal, to control the infrared imaging unit, institute State the work of speckle projecting unit and the color imaging member.

6. monocular depth image capturing system according to claim 1, wherein described control unit are to the infrared imaging Unit, the color imaging member, the speckle projecting unit transmit synchronizing signal, to synchronize the infrared imaging unit, institute State color imaging member and the speckle projecting unit.

7. monocular depth image capturing system according to any one of claims 1 to 6, wherein described control unit melt in image During conjunction, the pixel to losing depth information in monocular depth image assigns depth initial value.

8. monocular depth image capturing system according to claim 7, wherein to losing depth letter in monocular depth image The mode that the pixel of breath assigns initial value is to take the depth mean value of its surrounding pixel point as its depth value.

9. monocular depth image capturing system according to any one of claims 1 to 6, wherein described control unit are schemed in fusion As during, monocular depth image and RGB image are integrated to obtain an entire image, entire image is decomposed into limited figure As block (each tile size is m × m), according to formulaIt finds out Range image block P_rK-1 nearest image block, wherein I_rAnd D_rIt is block of pixels P respectively_rRGB and depth information,It is flat Equal depth, α and β are the weight of color and depth respectively.

10. monocular depth image capturing system according to claim 9, wherein mistake of the described control unit in blending image Cheng Zhong, by image block P_rAnd this k-1 image block constitutes image block matrix by row dischargeAssuming thatIt is's Ideal matrix, the RGB-D structures for being detected to obtain image block to the object edge in coloured image and monocular depth image are closed System, matrix is estimated using parabolic regression modelOrder r.

11. monocular depth image capturing system according to claim 10, wherein described control unit is in blending image In the process, matrix can be decomposed according to the value of r：It is rightMake Submatrix A and B are obtained with change algorithm, wherein W is mask code matrix, and the element position for losing information is 0, remaining element is 1.

12. monocular depth image capturing system according to claim 11, wherein described control unit is in image co-registration In the process, matrix A is multiplied to obtain with BIts each row is the corresponding depth of k image block.

13. monocular depth image capturing system according to claim 12, wherein described control unit is in image co-registration In the process, to each pixel p, depth of the depth mean value of all image blocks of covering p as the pixel is taken, whole picture is thus obtained The depth map of image.

14. a monocular depth image processing method, which is characterized in that including step：

(A) an at least RGB image is acquired；

(B) an at least monocular depth image is acquired；With

(C) it merges the RGB image and forms a color depth image with the monocular depth image.

15. monocular depth image processing method according to claim 14, wherein the step (B) includes step：Acquisition The infrared image is converted to the monocular depth image by one infrared image.

16. monocular depth image processing method according to claim 14, wherein the step (C) includes step：To institute It states RGB image and carries out denoising, to obtain the RGB image of high quality.

17. monocular depth image processing method according to claim 14, wherein the step (C) includes step：To institute It states monocular depth image and carries out flying spot and handle.

18. monocular depth image processing method according to claim 14, wherein the step (C) includes step：To list The pixel that depth information is lost in mesh depth image assigns initial value.

19. monocular depth image processing method according to claim 18, wherein the mode for assigning initial value is：It takes and loses The depth mean value of the pixel surrounding pixel point of depth information is lost as its depth value.

20. according to any monocular depth image processing method of claim 14 to 19, wherein the step (C) includes step Suddenly：

(C1) range image block P is found out_rK-1 nearest image block constitutes matrix M；

(C2) ideal matrix of estimation matrix MOrder r；

(C3) sub- square A, B are found out；With

(C4) matrix decomposition is run, depth is obtained.

21. monocular depth image processing method according to claim 20, wherein in the step (C1), by monocular depth Image and RGB image are integrated to obtain an entire image, and entire image is decomposed into limited a image block, and (each tile size is M × m), according to formulaFind out range image block P_rNearest k-1 A image block, wherein I_rAnd D_rIt is block of pixels P respectively_rRGB and depth information,Mean depth, α and β be color respectively Color and depth weight.

22. monocular depth image processing method according to claim 20, wherein in the step (C2), by image block P_r And this k-1 image block constitutes image block matrix by row dischargeAssuming thatIt isIdeal matrix, to coloured silk Object edge in color image and monocular depth image is detected to obtain the RGB-D structural relations of image block, uses parabola Regression model estimates matrixOrder r.

23. monocular depth image processing method according to claim 20, wherein in the step (C3), according to the value of r Matrix can be decomposed：It is rightSon is obtained using change algorithm Matrix A and B, wherein W are mask code matrixes, and the element position for losing information is 0, remaining element is 1.

24. monocular depth image processing method according to claim 20, wherein in the step (C4), by matrix A and B Multiplication obtainsIts each row is the corresponding depth of k image block.

25. monocular depth image processing method according to claim 20, wherein the step (C) includes step：To every A pixel p takes depth of the depth mean value of all image blocks of covering p as the pixel, thus obtains the depth of entire image Figure.

26. a monocular depth image collecting device, which is characterized in that the monocular depth image collecting device is according to claim The mode of 1 to 13 any monocular depth image capturing system is run.