CN109672876A - Depth map processing unit and depth map processing unit - Google Patents

Abstract

The present invention provides a kind of depth map processing unit and depth map processing unit, and the depth map processing unit includes: image acquisition units, depth image processing unit and using processing unit；The depth image processing unit is connected with described image acquisition unit, receives image sequence from described image acquisition unit；The depth image processing unit is connected with the application processing unit, and depth map is generated after handling the described image sequence received and is sent to the depth map described using processing unit.The double control to image acquisition units is realized by depth map processing unit and application processing unit in the present invention, the two both can individually control image acquisition units, it can cooperate again, image data is acquired by application processing unit to control image acquisition units, depth map processing is carried out to image data by depth map processing unit again, to effectively increase the efficiency of depth map acquisition, system performance is improved.

Description

Depth map processing unit and depth map processing unit

Technical field

The present invention relates to field of image processings, more particularly to depth map technical field, specially a kind of depth map processing Device and depth map processing unit.

Background technique

Currently, camera is when acquiring image data, the initiation of acquisition instructions, the setting of acquisition parameter and to collecting The depth map processing of image be all to be completed by AP (application process), AP and camera pass through data line It is directly connected to control line, unidirectionally controlled, serial operation.Since all operations require to initiate by AP, image is reduced The efficiency of acquisition process, also reduces system performance.

Summary of the invention

In order to solve above-mentioned and other potential technical problems, the embodiment provides at a kind of depth map Manage device, the depth map processing unit includes: image acquisition units, depth image processing unit and using processing unit；Institute It states depth image processing unit to be connected with described image acquisition unit, receives image sequence from described image acquisition unit；It is described Depth image processing unit is connected with the application processing unit, generates after handling the described image sequence received deep The depth map is simultaneously sent to described using processing unit by degree figure.

In one embodiment of the invention, the depth image processing unit is acquired by the depth map and from described image The received image sequence of unit is sent to described using processing unit simultaneously.

In one embodiment of the invention, described image acquisition unit includes an imaging sensor；Described image sensing Device is RGB image sensor, MONO imaging sensor, structure light image sensor or TOF imaging sensor.

In one embodiment of the invention, the first control instruction is sent to described image and acquired by the application processing unit Unit.

In one embodiment of the invention, the first control instruction is sent to the depth image by the application processing unit Processing unit；The depth image processing unit is from the application processing unit the first control instruction of reception and according to described first Control instruction generates the second control instruction；Second control instruction is sent to described image by the depth image processing unit Acquisition unit.

In one embodiment of the invention, described image acquisition unit includes the first imaging sensor and the second image sensing Device；The depth image processing unit is connected with the first image sensor and second imaging sensor and simultaneously respectively Image sequence is received from the first image sensor and second imaging sensor；The depth image processing unit docking The two groups of described image sequences received generate depth map and the depth map is sent to the application after being handled handles list Member.

In one embodiment of the invention, the first control instruction is respectively sent to described first by the application processing unit Imaging sensor and second imaging sensor.

In one embodiment of the invention, the application processing unit is simultaneously from the first image sensor and described the Two imaging sensors receive image sequence.

In one embodiment of the invention, the first control instruction is sent to the depth image by the application processing unit Processing unit；The depth image processing unit is from the application processing unit the first control instruction of reception and according to described first Control instruction generates the second control instruction；Second control instruction is respectively sent to described by the depth image processing unit First imaging sensor and second imaging sensor.

In one embodiment of the invention, the first image sensor and second imaging sensor are RGB figure As sensor, MONO imaging sensor or structure light image sensor or the first image sensor and second figure One is RGB image sensor in picture sensor, another is MONO imaging sensor, structure light image sensor or TOF are schemed As sensor.

In one embodiment of the invention, described image acquisition unit includes the first imaging sensor and the second image sensing Device；The application processing unit is connected with the first image sensor and receives image sequence from the first image sensor Column；The depth image processing unit is connected with second imaging sensor and receives image from second imaging sensor Sequence；The depth image processing unit generates depth map and by the depth after handling the described image sequence received Degree figure is sent to described using processing unit.

In one embodiment of the invention, the figure that will be received from the first image sensor using processing unit The depth image processing unit is sent to after being handled as sequence；The depth image processing unit is to from application place It the image sequence that receives of reason unit and generates after being handled from the image sequence that second imaging sensor receives deep The depth map is simultaneously sent to described using processing unit by degree figure.

In one embodiment of the invention, the first control instruction is respectively sent to described first by the application processing unit Imaging sensor and second imaging sensor.

In one embodiment of the invention, the first control instruction is sent to the depth image by the application processing unit Processing unit；The depth image processing unit is from the application processing unit the first control instruction of reception and according to described first Control instruction generates the second control instruction；Second control instruction is respectively sent to described by the depth image processing unit First imaging sensor and second imaging sensor.

In one embodiment of the invention, the first image sensor is RGB image sensor or MONO image sensing Device；Second imaging sensor is RGB image sensor, MONO imaging sensor, structure light image sensor or TOF image Sensor.

In one embodiment of the invention, described image acquisition unit includes the first imaging sensor, the second image sensing Device and third imaging sensor；The first image sensor and second imaging sensor be RGB image sensor, In MONO imaging sensor or structure light image sensor or the first image sensor and second imaging sensor One is RGB image sensor, another is MONO imaging sensor；The 3rd sensor be structure light image sensor or TOF imaging sensor.

In one embodiment of the invention, the depth image processing unit and the first image sensor, described the Two imaging sensors are connected with any one in the third imaging sensor and obtain figure from the connected imaging sensor As sequence, the application processing unit is connected with remaining two imaging sensors and simultaneously from described two imaging sensor Obtain image sequence.

In one embodiment of the invention, it is described the image sequence received is handled using processing unit after send To the depth image processing unit；The depth image processing unit is to from the image sequence received using processing unit Column with handled from the image sequence that the imaging sensor being connected receives after generate and depth map and send the depth map Processing unit is applied to described.

In one embodiment of the invention, the depth image processing unit and the first image sensor, described the Two imaging sensors are connected with any two in the third imaging sensor, while obtaining figure from two imaging sensors As sequence；The application processing unit is connected with a remaining imaging sensor and obtains image sequence from the imaging sensor Column.

In one embodiment of the invention, the image sequence that will be received using processing unit is sent after being handled To the depth image processing unit；The depth image processing unit is to from the image sequence received using processing unit Column with handled from the image sequence that two imaging sensors being connected receive after generate depth map and by the depth map It is sent to described using processing unit.

In one embodiment of the invention, the depth image processing unit respectively with the first image sensor, institute It states the second imaging sensor to be connected with the third imaging sensor, and simultaneously from the first image sensor, described second Imaging sensor and the third imaging sensor receive image sequence；The depth image processing unit is to three received Group described image sequence generates depth map and is sent to the depth map described using processing unit after being handled.

In one embodiment of the invention, the first control instruction is sent to the depth image by the application processing unit Processing unit；The depth image processing unit is from the application processing unit the first control instruction of reception and according to described first Control instruction generates the second control instruction；Second control instruction is respectively sent to described by the depth image processing unit First imaging sensor, second imaging sensor and the third imaging sensor.

In one embodiment of the invention, the first control instruction is respectively sent to described first by the application processing unit Imaging sensor, second imaging sensor and the third imaging sensor.

The embodiment of the present invention also provides a kind of depth image processing unit, including image processor, image connecting interface With apply connecting interface；Described image connecting interface is connected with described image acquisition unit, receives from described image acquisition unit Image sequence；Described image processor carries out processing to the image sequence received and generates depth map；It is described to apply connecting interface It is connected with the application processing unit, the depth map is sent to described using processing unit.

In one embodiment of the invention, the application connecting interface is by the depth map and from described image acquisition unit Received image sequence is sent to described using processing unit simultaneously.

In one embodiment of the invention, described image connecting interface is one, and described image acquisition unit includes one Imaging sensor；Described image sensor is RGB image sensor, MONO imaging sensor, structure light image sensor or TOF Imaging sensor.

In one embodiment of the invention, the first control instruction is sent to the application and connected by the application processing unit Interface.

In one embodiment of the invention, the first control instruction is sent to the application and connected by the application processing unit Interface；Described image processor generates the second control instruction according to first control instruction and sends out second control instruction It send to described image connecting interface.

In one embodiment of the invention, described image connecting interface includes that the first image connecting interface and the second image connect Connection interface, described image acquisition unit include the first imaging sensor and the second imaging sensor；The first image connects Mouth is connected with the first image sensor and receives image sequence, the second image connection from the first image sensor Interface is connected with second imaging sensor and receives image sequence from second imaging sensor；Described image processor The two groups of described image sequences received to the first image connecting interface and the second image connecting interface are handled After generate depth map.

In one embodiment of the invention, the first control instruction is sent to the application and connected by the application processing unit Interface；Described image processor generates the second control instruction according to first control instruction and divides second control instruction It is not sent to the first image connecting interface and the second image connecting interface.

In one embodiment of the invention, described image connecting interface includes that the first image connecting interface and the second image connect Connection interface, described image acquisition unit include including the first imaging sensor and the second imaging sensor；The application processing is single Member is connected with the first image sensor and receives image sequence from the first image sensor；The second image connection Interface is connected with second imaging sensor and receives image sequence from second imaging sensor；Described image processor Depth map is generated after handling the described image sequence that the second image connecting interface receives；The application connects The depth map is sent to described using processing unit by mouth.

In one embodiment of the invention, the figure that will be received from the first image sensor using processing unit It is sent to after being handled as sequence described using connecting interface；Described image processor is received to from the application connecting interface To image sequence and generate depth map after being handled from the image sequence that the second image connecting interface receives；It is described The depth map is sent to using connecting interface described using processing unit.

In one embodiment of the invention, the application connecting interface receives the first control from the application processing unit and refers to It enables, described image processor generates the second control instruction according to first control instruction, and the second image connecting interface will Second control instruction is sent to second imaging sensor.

In one embodiment of the invention, the application connecting interface receives the first control from the application processing unit and refers to It enables, the depth image processing unit receives the first control instruction from the application processing unit and referred to according to first control It enables and generates the second control instruction；Described image processor generates the second control instruction according to first control instruction, and described the Second control instruction is sent to the first image sensor, the second image connecting interface by one image connecting interface Second control instruction is sent to second imaging sensor.

In one embodiment of the invention, described image connecting interface includes the first image connecting interface, the second image company Connection interface and third image connecting interface, described image acquisition unit include including the first imaging sensor, the second image sensing Device and third imaging sensor；The first image sensor and second imaging sensor be RGB image sensor, In MONO imaging sensor or structure light image sensor or the first image sensor and second imaging sensor One is RGB image sensor, another is MONO imaging sensor；The 3rd sensor be structure light image sensor or TOF imaging sensor.

In one embodiment of the invention, the first image connecting interface, the second image connecting interface and described Any of third image connecting interface and the first image sensor, second imaging sensor and the third figure Obtain image sequence as any of sensor is connected, and from the connected imaging sensor, the application processing unit and Remaining two imaging sensors are connected and obtain image sequence from described two imaging sensors simultaneously.

In one embodiment of the invention, the first image connecting interface, the second image connecting interface and described Any two and the first image sensor, second imaging sensor and the third figure in third image connecting interface As any two in sensor are connected from connected two imaging sensors acquisition image sequence；Processing unit is applied from described It is connected with remaining two imaging sensors and obtains image sequence from described two imaging sensors simultaneously.

In one embodiment of the invention, the application connecting interface receives image sequence from the application processing unit； Described image processor is to from the image sequence received using connecting interface and the figure received from image connecting interface Depth map is generated after being handled as sequence；The depth map is sent to the application and handles list by the application connecting interface Member.

In one embodiment of the invention, the first image connecting interface, the second image connecting interface and described Third image connecting interface respectively corresponds and the first image sensor, second imaging sensor and the third image It is connected in sensor and corresponding from the first image sensor, second imaging sensor and the third imaging sensor Obtain image sequence；Described image processor is to from the first image connecting interface, the second image connecting interface and institute It states after three groups of image sequences that third image connecting interface receives are handled and generates depth map；The application connecting interface will The depth map is sent to described using processing unit.

In one embodiment of the invention, the first control instruction is sent to the application and connected by the application processing unit Interface；Described image processor generates the second control instruction according to first control instruction and divides second control instruction It is not sent in the first image connecting interface, the second image connecting interface and the third image connecting interface extremely It is one few.

As described above, depth map processing unit and depth map processing unit of the invention has the advantages that

It is realized by depth map processing unit and application processing unit to the double controls of image acquisition units in the present invention, two Person not only can individually control image acquisition units, but also can cooperate, and be adopted by application processing unit to control image Collection unit is acquired image data, then carries out depth map processing to image data by depth map processing unit, to effectively mention The efficiency that high depth map obtains, improves system performance.

Detailed description of the invention

To describe the technical solutions in the embodiments of the present invention more clearly, make required in being described below to embodiment Attached drawing is briefly described, it should be apparent that, drawings in the following description are only some embodiments of the invention, for For those of ordinary skill in the art, without creative efforts, it can also be obtained according to these attached drawings other Attached drawing.

Fig. 1 is shown as the whole principle assumption diagram of depth map processing unit of the invention.

The signal control that Fig. 2~Fig. 3 is shown as when depth map processing unit of the invention connects an imaging sensor is shown It is intended to.

The signal control that Fig. 4~Fig. 8 is shown as when depth map processing unit of the invention connects two imaging sensors is shown It is intended to.

The signal control that Fig. 9~Figure 17 is shown as when depth map processing unit of the invention connects three imaging sensors is shown It is intended to.

Component label instructions

100 depth map processing units

110 depth image processing units

120 image acquisition units

121 first imaging sensors

122 second imaging sensors

123 third imaging sensors

130 apply processing unit

Specific embodiment

Illustrate embodiments of the present invention below by way of specific specific example, those skilled in the art can be by this specification Other advantages and efficacy of the present invention can be easily understood for disclosed content.The present invention can also pass through in addition different specific realities The mode of applying is embodied or practiced, the various details in this specification can also based on different viewpoints and application, without departing from Various modifications or alterations are carried out under spirit of the invention.It should be noted that in the absence of conflict, following embodiment and implementation Feature in example can be combined with each other.

Fig. 1 is please referred to Figure 17.It should be clear that this specification structure depicted in this specification institute accompanying drawings, ratio, size etc., are only used To cooperate the revealed content of specification, so that those skilled in the art understands and reads, being not intended to limit the invention can The qualifications of implementation, therefore do not have technical essential meaning, the tune of the modification of any structure, the change of proportionate relationship or size It is whole, in the case where not influencing the effect of present invention can be generated and the purpose that can reach, it should all still fall in disclosed skill Art content obtains in the range of capable of covering.Meanwhile in this specification it is cited as "upper", "lower", "left", "right", " centre " and The term of " one " etc. is merely convenient to being illustrated for narration, rather than to limit the scope of the invention, relativeness It is altered or modified, under the content of no substantial changes in technology, when being also considered as the enforceable scope of the present invention.

The purpose of the present embodiment is that a kind of depth map processing unit and depth map processing unit are provided, it is existing for solving All operations of the processing of depth map require to initiate and handle by AP (using processing unit) in technology, reduce image and adopt The problem of collecting the efficiency handled, also reducing system performance.Depth map processing unit and depth of the invention described in detail below Spend figure processing unit principle and embodiment, make those skilled in the art do not need creative work be appreciated that it is of the invention Depth map processing unit and depth map processing unit.

Fig. 1 is the embodiment schematic diagram of depth map processing unit of the present invention.Specifically, as shown in Figure 1, this implementation Example is provided the embodiment provides a kind of depth map processing unit 100, and the depth map processing unit 100 is applied to In one intelligent electronic device, for example, applied to smart phone, tablet computer, game machine etc. it is any have take pictures or camera function Electronic equipment.

Specifically, the depth map processing unit 100 includes: image acquisition units 120, depth image processing unit 110 With application processing unit 130 (AP).Wherein, image acquisition units 120 are the electronic component with acquisition image/video function, Such as photographic head or camera.Image acquisition units 120 can receive external control instruction, and be collected according to external control instruction Or setting image acquisition parameter, internal optical component is adjusted, and obtain image/video.In addition, image acquisition units 120 can be with It is generated according to external control instruction and exports relevant data.The depth image processing unit 110 and described image acquisition are single Member 120 is connected, and receives image sequence from described image acquisition unit 120；The depth image processing unit 110 and the application Processing unit 130 is connected, and depth map is generated after handling the described image sequence received and sends the depth map To the application processing unit 130.

In some embodiments, the depth image processing unit 110 is that can control image acquisition units 120, and locate Manage the electronic component of control instruction and image/video data.Specifically, the depth image processing unit 110 has at instruction Manage function and data processing function." instruction processing function " refers to the control instruction handled for controlling image acquisition units 120, or Person generates the ability that can control the control instruction of image acquisition units 120；And " data processing function " refers to processing Image Acquisition The data that unit 120 generates, or generate the ability of data relevant to the data that image acquisition units 120 generate.Using place Managing unit 130 is the electronic component that can control image acquisition units 120 and the depth image processing unit 110.

In some embodiments, the depth image processing unit 110 includes digital signal processor and cache module.Institute Stating digital signal processor can be any hardware module for having digital information processing function, such as Digital Signal Processor (abbreviation DSP).The cache module is to provide various data for the depth image processing unit 110 to store Hardware store module (such as flash, RAM, ROM, Cache etc.).The application processing unit 130 includes main control module and storage Module, the main control module can be any hardware module (such as CPU, DSP etc.) with calculation processing ability.The storage mould Block is the hardware store module to provide the function of various data storages using processing unit 130.Can be using processing unit 130 Application processor (Application Processor, abbreviation AP), central processing unit (CentralProcessing Unit, letter Claim CPU) or System on Chip/SoC (System on Chip, abbreviation SoC).

In some embodiments, it by control instruction that is described being generated using processing unit 130 or sending out, can be described as " the first control instruction " also includes for controlling including the instruction and relevant various acquisition parameters for controlling camera The instruction of depth image processing unit 110 and relevant various information.The control issued from depth image processing unit 110 refers to Order can be considered as " the second control instruction ", including the instruction and relevant various acquisition parameters for controlling camera.Change sentence It talks about, the second control instruction can be according to the generation of the first control instruction.Second control instruction also may include part or All the first control instructions, including the instruction generated according to the first control instruction, including the finger unrelated with the first control instruction The various combinations of order or above-mentioned several instructions.For example, depth image processing unit 110 can carry out the first control instruction Repeat, copy, addition, modification, replacement, delete etc. it is various operation and generate the second control instruction, can not also according to first control System instructs and is individually created the second control instruction.

Obtain depth map in the present embodiment, can use kinds of schemes: 1) image acquisition units 120 include: two common Imaging sensor (RGB sensor or Mono sensor)；2) image acquisition units 120 include: a TOF sensor； 3) image acquisition units 120 include: one or two structure lights sensor；4) image acquisition units 120 include: two common Sensor adds TOF senor or structure light sensor.

TOF sensor and structure light sensor requires additional light emitting source cooperation.

Image taking sensor is transmitted to depth image processing unit 110, depth image as image input source, by image sequence Processing unit 110 finally calculates the depth map that can be exported by certain computational algorithm.That is, in this present embodiment, The calculating of depth map is completed in depth image processing unit 110.

The process that the calculating of depth map is completed in the depth image processing unit 110 is as follows:

It is digital picture, including two-way digital picture, two-way digital picture to the depth image processing unit 110 input Sequence, single channel image sequence.The generation source of input includes RGB sensor, Mono sensor, IR sensor, TOF sensor Deng.The digital picture for being transferred to depth image processing unit 110 is preferably raw image.Raw image is most normal if it is RGB image What is seen is Baeyer arrangement (Bayer Pattern), it is also possible to it is other arrangement modes, in order to facilitate depth map generalization, Generally traditional RGB image or YUV image are converted by these arrangements.If raw image is that monochromatic sensor is generated, Not needing conversion then can directly use.General algorithm is that disparity map is first calculated according to input picture, and disparity map can be simple The reverse for being considered depth map.The basic step for generating disparity map by two common image sensors is as follows: polar curve correction When dual input, need to carry out polar curve correction to image.

1) it pre-processes: some pretreatments is carried out to input picture, according to different use-cases, specific processing be will be different, Common processing has denoising, demosaicing, scaling, color space conversion etc..

2) matching cost calculates (matching cost computation): the method that common cost calculates has SSD, The calculated result of the windows cost calculation method such as SAD, these methods is very big with the value relationship of pixel itself.For dual camera system System takes the photograph head system more, the exposure (gain) of each camera and deviates (bias) and is not quite similar, for such system, one As using to exposing and deviate insensitive cost, such as census transformation.Cost matching is carried out along polar curve direction.Finally Generate matching cost figure identical with depth levels.

3) cost polymerization and disparity map calculate: polymerizeing to matching cost, polymerizing windows, can also either fixed window To be the window of change in size.Each the smallest parallax value of pixel cost is calculated after cost is polymerize.By this step Available preliminary disparity map.

4) post-process: this step optimizes disparity map.Delete partial error depth, filling cavity.According to image object The parallax boundary of the edge optimization disparity map of body.After above procedure is handled, the depth levels of general depth map are fewer, deep Spend existing relatively rough of chart.In some applications, for example robot navigation and target following, less parallax grade can also expire Sufficient demand.But rendering based on image etc. is applied, and has higher requirement to parallax grade, what this will generate preceding step Disparity map does process of refinement, usually carries out the method for sub-pix disparity estimation.

In this present embodiment, the depth image processing unit 110 (Pre-ISP) mainly completes the calculating of depth map, raw At depth map, the image sequence of all or part of imaging sensor (sensor) transmission is received.AP (APPLICATIONPROCESSOR) depth map that primary recipient generates does further practical application, and AP is also possible to control figure As sensor and the image sequence of receiving portion imaging sensor transmission.

In this present embodiment, the depth image processing unit 110 is by the depth map and from described image acquisition unit 120 received image sequences are sent to the application processing unit 130 simultaneously.

Several situations of the imaging sensor to depth map processing unit 100 comprising different number carry out specifically below It is bright.

In an embodiment, as shown in Figures 2 and 3, described image acquisition unit 120 includes an imaging sensor；Institute Stating imaging sensor is RGB image sensor, MONO imaging sensor, structure light image sensor or TOF imaging sensor.

Depth image processing unit 110 receives the image sequence of imaging sensor, and controls the 3A of imaging sensor.Depth Generation depth map is transmitted to using processing unit 130 after image processing unit 110 carries out a series of processing to image sequence.

In an embodiment, as shown in Fig. 2, the first control instruction is sent to the figure by the application processing unit 130 As acquisition unit 120, or as shown in figure 3, the first control instruction is sent to the depth map by the application processing unit 130 As processing unit 110；The depth image processing unit 110 receives the first control instruction simultaneously from the application processing unit 130 The second control instruction is generated according to first control instruction；The depth image processing unit 110 refers to second control Order is sent to described image acquisition unit 120.

In an embodiment, as shown in Figure 4 and Figure 5, described image acquisition unit 120 includes the first imaging sensor 121 With the second imaging sensor 122；The depth image processing unit 110 respectively with the first image sensor 121 and described Second imaging sensor 122 is connected and receives simultaneously from the first image sensor 121 and second imaging sensor 122 Image sequence；The depth image processing unit 110 generates depth after handling the two groups of described image sequences received Scheme and the depth map is sent to the application processing unit 130.

In an embodiment, as shown in figure 4, the first control instruction is respectively sent to institute by the application processing unit 130 State the first imaging sensor 121 and second imaging sensor 122.

Wherein, as shown in figure 4, the application processing unit 130 can be simultaneously from the first image sensor 121 and institute It states the second imaging sensor 122 and receives image sequence.

That is, the depth image processing unit 110 receives the first imaging sensor 121 simultaneously and the second image passes The image sequence of sensor 122 carries out 3A to the first imaging sensor 121 and the second imaging sensor 122 using processing unit 130 Control.After the depth image processing unit 110 carries out a series of processing to two groups of image sequences, generation depth map, which is transferred to, is answered With processing unit 130, or the data and depth map of the first imaging sensor 121 and the second imaging sensor 122 are transmitted simultaneously To using processing unit 130.

In an embodiment, as shown in figure 5, the first control instruction is sent to the depth by the application processing unit 130 Spend image processing unit 110；The depth image processing unit 110 receives the first control from the application processing unit 130 and refers to It enables and the second control instruction is generated according to first control instruction；The depth image processing unit 110 is controlled described second System instruction is respectively sent to the first image sensor 121 and second imaging sensor 122.

As shown in figure 5, depth image processing unit 110 receives the first imaging sensor 121 and the second image sensing simultaneously The image sequence of device 122, depth image processing unit 110 also to the first imaging sensor 121 and the second imaging sensor 122 into Row 3A control.After depth image processing unit 110 carries out a series of processing to two groups of image sequences, generation depth map, which is transferred to, is answered With processing unit 130, or the data and depth map of the first imaging sensor 121 and the second imaging sensor 122 are transmitted simultaneously To using processing unit 130.

In an embodiment, the first image sensor 121 and second imaging sensor 122 are RGB image Sensor, MONO imaging sensor or structure light image sensor or the first image sensor 121 and second figure One is RGB image sensor in picture sensor 122, another is MONO imaging sensor, structure light image sensor or TOF Imaging sensor.

In an embodiment, as shown in fig. 6, described image acquisition unit 120 includes the first imaging sensor 121 and second Imaging sensor 122；The first image sensor 121 is RGB image sensor or MONO imaging sensor；Second figure As sensor 122 is RGB image sensor, MONO imaging sensor, structure light image sensor or TOF imaging sensor.

The application processing unit 130 is connected with the first image sensor 121 and from the first image sensor 121 receive image sequence；The depth image processing unit 110 is connected with second imaging sensor 122 and from described Two imaging sensors 122 receive image sequence；The depth image processing unit 110 carries out the described image sequence received Depth map is generated after processing and the depth map is sent to the application processing unit 130.

In an embodiment, as shown in fig. 7, the application processing unit 130 will connect from the first image sensor 121 The image sequence received is sent to the depth image processing unit 110 after being handled；The depth image processing unit 110 To from the image sequence received using processing unit 130 and the image received from second imaging sensor 122 Sequence generates depth map and the depth map is sent to the application processing unit 130 after being handled.

In an embodiment, as shown in fig. 6, the first control instruction is respectively sent to institute by the application processing unit 130 State the first imaging sensor 121 and second imaging sensor 122.

Or as shown in fig. 7, the first control instruction is respectively sent to the first image by the application processing unit 130 Sensor 121 and the depth image processing unit 110；The depth image processing unit 110 applies processing unit from described 130 receive the first control instruction and generate the second control instruction according to first control instruction；The depth image processing is single Second control instruction is sent to second imaging sensor 122 by member 110.

Or as shown in figure 8, the first control instruction is sent to the depth image processing by the application processing unit 130 Unit 110；The depth image processing unit 110 is from the application processing unit 130 the first control instruction of reception and according to institute It states the first control instruction and generates the second control instruction；The depth image processing unit 110 distinguishes second control instruction It is sent to the first image sensor 121 and second imaging sensor 122.

As shown in fig. 7, depth image processing unit 110 receives the image sequence of the second imaging sensor 122, and control the The 3A of two imaging sensors 122.The image sequence of the first imaging sensor 121 is received using processing unit 130, and controls first The 3A of imaging sensor 121.Depth image processing unit 110 carries out the image sequence of the second imaging sensor 122 a series of After processing, generates depth map and be transferred to using processing unit 130.The first imaging sensor can be combined using processing unit 130 The depth map that 121 image sequences and depth image processing unit 110 generate, is further optimized depth map.

In an embodiment, as shown in Fig. 9 to Figure 17, described image acquisition unit 120 includes the first imaging sensor 121, the second imaging sensor 122 and third imaging sensor 123；The first image sensor 121 and second image Sensor 122 is RGB image sensor, MONO imaging sensor or structure light image sensor or the first image One is RGB image sensor in sensor 121 and the first image sensor 121, another is MONO imaging sensor； The 3rd sensor is structure light image sensor or TOF imaging sensor.

In an embodiment, as shown in Figures 9 to 11, the depth image processing unit 110 is passed with the first image Any one in sensor 121, second imaging sensor 122 and the third imaging sensor 123 is connected and from the phase Even imaging sensor obtain image sequence, the application processing unit 130 be connected with remaining two imaging sensors and together When from the described two imaging sensors obtain image sequences.

Wherein, in an embodiment, it is described the image sequence received is handled using processing unit 130 after send To the depth image processing unit 110；The depth image processing unit 110 is received to from the application processing unit 130 To image sequence with handled from the image sequence that the imaging sensor being connected receives after generate depth map and will be described Depth map is sent to the application processing unit 130.

In an embodiment, as shown in Figure 12 to Figure 14, the depth image processing unit 110 is passed with the first image Sensor 121, second imaging sensor 122 are connected with any two in the third imaging sensor 123, at the same from this Two imaging sensors obtain image sequence；The application processing unit 130 be connected with a remaining imaging sensor and from The imaging sensor obtains image sequence.

Wherein, in an embodiment, the image sequence that will be received using processing unit 130 is sent after being handled To the depth image processing unit 110；The depth image processing unit 110 is received to from the application processing unit 130 To image sequence with from the image sequence that two imaging sensors being connected receive handled after generate depth map and will The depth map is sent to the application processing unit 130.

As shown in figure 14, depth image processing unit 110 receives the first imaging sensor 121 and the second imaging sensor 122 image sequence, into excessively a series of processing after generate depth map and be transmitted to using processing unit 130, person transmits the first figure simultaneously It is given as the data and depth map of sensor 121 and the second imaging sensor 122 and applies processing unit 130.Using processing unit 130 The image sequence of third imaging sensor 123 is received, more sparse depth map is obtained, in conjunction with depth image processing unit 110 More complete depth map can be generated in the depth map of generation.

In an embodiment, as shown in Figure 15 to Figure 17, the depth image processing unit 110 respectively with first figure Picture sensor 121, second imaging sensor 122 are connected with the third imaging sensor 123, and simultaneously from described first Imaging sensor 121, second imaging sensor 122 and the third imaging sensor 123 receive image sequence；It is described Depth image processing unit 110 generates depth map and by the depth after handling the three groups of described image sequences received Figure is sent to the application processing unit 130.

Wherein, in an embodiment, as shown in figure 15, the first control instruction is sent to by the application processing unit 130 The depth image processing unit 110；The depth image processing unit 110 receives first from the application processing unit 130 Control instruction simultaneously generates the second control instruction according to first control instruction；The depth image processing unit 110 will be described Second control instruction is respectively sent to the first image sensor 121, second imaging sensor 122 and the third figure As sensor 123.

Or in an embodiment, as shown in figure 16, the application processing unit 130 sends the first control instruction respectively To the first image sensor 121, second imaging sensor 122 and the third imaging sensor 123.

Alternatively, the first control instruction is respectively sent to any one imaging sensor and institute by the application processing unit 130 State depth image processing unit 110；The depth image processing unit 110 receives the first control from the application processing unit 130 System instruction simultaneously generates the second control instruction according to first control instruction；The depth image processing unit 110 is by described Two control instructions are sent to remaining two imaging sensors.

First control instruction is respectively sent to any two imaging sensor and the depth by the application processing unit 130 Spend image processing unit 110；The depth image processing unit 110 receives the first control from the application processing unit 130 and refers to It enables and the second control instruction is generated according to first control instruction；The depth image processing unit 110 is controlled described second System instruction is sent to a remaining imaging sensor.

Or as shown in figure 17, the first control instruction is sent at the depth image by the application processing unit 130 Manage unit 110 and the second imaging sensor 122, third imaging sensor 123；The depth image processing unit 110 is from described The first control instruction is received using processing unit 130 and the second control instruction is generated according to first control instruction；The depth It spends image processing unit 110 and second control instruction is respectively sent to the first image sensor 121.

The embodiment of the present invention also provides a kind of depth image processing unit 110, including image processor, and image connects Mouthful and apply connecting interface；Described image connecting interface is connected with described image acquisition unit 120, from described image acquisition unit 120 receive image sequence；Described image processor carries out processing to the image sequence received and generates depth map；The application connects Connection interface is connected with the application processing unit 130, and the depth map is sent to the application processing unit 130.

In an embodiment, the application connecting interface is received by the depth map and from described image acquisition unit 120 Image sequence be sent to the application processing unit 130 simultaneously.

In an embodiment, described image connecting interface is one, and described image acquisition unit 120 includes that an image passes Sensor；Described image sensor is that RGB image sensor, MONO imaging sensor, structure light image sensor or TOF image pass Sensor.

In an embodiment, the first control instruction is sent to described using connecting interface by the application processing unit 130 Or the application processing unit 130 first control instruction is sent to it is described using connecting interface；Described image processor root The second control instruction is generated according to first control instruction and second control instruction is sent to described image connecting interface.

In an embodiment, described image connecting interface includes the first image connecting interface and the second image connecting interface, Described image acquisition unit 120 includes the first imaging sensor 121 and the second imaging sensor 122；The first image connection Interface be connected with the first image sensor 121 and from the first image sensor 121 receive image sequence, described second Image connecting interface is connected with second imaging sensor 122 and receives image sequence from second imaging sensor 122； Figure described in described image processor receive to the first image connecting interface and the second image connecting interface two groups Depth map is generated after being handled as sequence.

In an embodiment, the first control instruction is sent to described using connecting interface by the application processing unit 130； Described image processor generates the second control instruction according to first control instruction and sends out second control instruction respectively It send to the first image connecting interface and the second image connecting interface.

In an embodiment, described image connecting interface includes the first image connecting interface and the second image connecting interface, Described image acquisition unit 120 includes including the first imaging sensor 121 and the second imaging sensor 122；The application processing Unit 130 is connected with the first image sensor 121 and receives image sequence from the first image sensor 121；It is described Second image connecting interface is connected with second imaging sensor 122 and receives image from second imaging sensor 122 Sequence；The described image sequence that described image processor receives the second image connecting interface generates deep after handling Degree figure；The depth map is sent to the application processing unit 130 by the application connecting interface.

In an embodiment, the image that will be received from the first image sensor 121 using processing unit 130 Sequence is sent to described using connecting interface after being handled；Described image processor is received to from the application connecting interface Image sequence and generate depth map after being handled from the image sequence that the second image connecting interface receives；It is described to answer The depth map is sent to the application processing unit 130 with connecting interface.

In an embodiment, the application connecting interface receives the first control instruction, institute from the application processing unit 130 It states image processor and the second control instruction is generated according to first control instruction, the second image connecting interface is by described the Two control instructions are sent to second imaging sensor 122.

In an embodiment, the application connecting interface receives the first control instruction, institute from the application processing unit 130 Depth image processing unit 110 is stated to receive the first control instruction from the application processing unit 130 and control according to described first Instruction generates the second control instruction；Described image processor generates the second control instruction according to first control instruction, described Second control instruction is sent to the first image sensor 121 by the first image connecting interface, and second image connects Second control instruction is sent to second imaging sensor 122 by connection interface.

In an embodiment, described image connecting interface include the first image connecting interface, the second image connecting interface and Third image connecting interface, described image acquisition unit 120 include including the first imaging sensor 121, the second imaging sensor 122 and third imaging sensor 123；The first image sensor 121 and second imaging sensor 122 are RGB figure As sensor, MONO imaging sensor or structure light image sensor or the first image sensor 121 and described second One is RGB image sensor in imaging sensor 122, another is MONO imaging sensor；The 3rd sensor is knot Structure optical image sensor or TOF imaging sensor.

In an embodiment, the first image connecting interface, the second image connecting interface and the third image Any of connecting interface and the first image sensor 121, second imaging sensor 122 and the third image Any of sensor 123 is connected, and obtains image sequence from the connected imaging sensor, described to apply processing unit 130 are connected with remaining two imaging sensors and obtain image sequence from described two imaging sensors simultaneously.

In an embodiment, the first image connecting interface, the second image connecting interface and the third image Any two and the first image sensor 121, second imaging sensor 122 and the third image in connecting interface Any two in sensor 123 are connected from connected two imaging sensors acquisition image sequence；It is handled from the application single Member 130 is connected with remaining two imaging sensors and obtains image sequence from described two imaging sensors simultaneously.

In an embodiment, the application connecting interface receives image sequence from the application processing unit 130；The figure As processor is to from the image sequence received using connecting interface and the image sequence received from image connecting interface Depth map is generated after being handled；The depth map is sent to the application processing unit 130 by the application connecting interface.

In an embodiment, the first image connecting interface, the second image connecting interface and the third image Connecting interface is respectively corresponded to be passed with the first image sensor 121, second imaging sensor 122 and the third image It is connected in sensor 123 and corresponding from the first image sensor 121, second imaging sensor 122 and the third figure As sensor 123 obtains image sequence；Described image processor connects to from the first image connecting interface, second image Three groups of image sequences that connection interface and the third image connecting interface receive generate depth map after being handled；The application The depth map is sent to the application processing unit 130 by connecting interface.

In an embodiment, the first control instruction is sent to described using connecting interface by the application processing unit 130； Described image processor generates the second control instruction according to first control instruction and sends out second control instruction respectively Send at least one into the first image connecting interface, the second image connecting interface and the third image connecting interface It is a.

In conclusion being realized by depth map processing unit and application processing unit 130 to Image Acquisition list in the present invention The double control of member, the two not only can individually control image acquisition units, but also can cooperate, by applying processing unit 130 are acquired image data to control image acquisition units, then carry out depth map to image data by depth map processing unit Processing improves system performance to effectively increase the efficiency of depth map acquisition.So the present invention effectively overcome it is existing Various shortcoming in technology and have high industrial utilization value.

The above-described embodiments merely illustrate the principles and effects of the present invention, and is not intended to limit the present invention.It is any ripe The personage for knowing this technology all without departing from the spirit and scope of the present invention, carries out modifications and changes to above-described embodiment.Cause This, includes that institute is complete without departing from the spirit and technical ideas disclosed in the present invention for usual skill in technical field such as At all equivalent modifications or change, should be covered by the claims of the present invention.

Claims (40)

1. a kind of depth map processing unit, which is characterized in that the depth map processing unit includes: image acquisition units, depth Image processing unit and apply processing unit；

The depth image processing unit is connected with described image acquisition unit, receives image sequence from described image acquisition unit Column；

The depth image processing unit is connected with the application processing unit, handles the described image sequence received Depth map is generated afterwards and is sent to the depth map described using processing unit.

2. depth map processing unit according to claim 1, it is characterised in that: the depth image processing unit will be described It depth map and is sent to simultaneously from the received image sequence of described image acquisition unit described using processing unit.

3. depth map processing unit according to claim 1 or 2, it is characterised in that: described image acquisition unit includes one A imaging sensor；Described image sensor be RGB image sensor, MONO imaging sensor, structure light image sensor or TOF imaging sensor.

4. depth map processing unit according to claim 3, it is characterised in that: the application processing unit is controlled first Instruction is sent to described image acquisition unit.

5. depth map processing unit according to claim 3, it is characterised in that: the application processing unit is controlled first Instruction is sent to the depth image processing unit；The depth image processing unit receives first from the application processing unit Control instruction simultaneously generates the second control instruction according to first control instruction；The depth image processing unit is by described second Control instruction is sent to described image acquisition unit.

6. depth map processing unit according to claim 1 or 2, it is characterised in that: described image acquisition unit includes the One imaging sensor and the second imaging sensor；The depth image processing unit respectively with the first image sensor and institute The second imaging sensor is stated to be connected and receive image sequence from the first image sensor and second imaging sensor simultaneously Column；The depth image processing unit generates depth map and will be described after handling the two groups of described image sequences received Depth map is sent to described using processing unit.

7. depth map processing unit according to claim 6, it is characterised in that: the application processing unit is controlled first Instruction is respectively sent to the first image sensor and second imaging sensor.

8. depth map processing unit according to claim 6, it is characterised in that: the application processing unit is simultaneously from described First imaging sensor and second imaging sensor receive image sequence.

9. depth map processing unit according to claim 6, it is characterised in that: the application processing unit is controlled first Instruction is sent to the depth image processing unit；The depth image processing unit receives first from the application processing unit Control instruction simultaneously generates the second control instruction according to first control instruction；The depth image processing unit is by described second Control instruction is respectively sent to the first image sensor and second imaging sensor.

10. according to depth map processing unit described in claim 7~9 any claim, it is characterised in that: first figure As sensor and second imaging sensor are RGB image sensor, MONO imaging sensor or structure light image sensing One is RGB image sensor in device or the first image sensor and second imaging sensor, another is MONO imaging sensor, structure light image sensor or TOF imaging sensor.

11. depth map processing unit according to claim 1 or 2, it is characterised in that: described image acquisition unit includes the One imaging sensor and the second imaging sensor；The application processing unit is connected with the first image sensor and from described First imaging sensor receives image sequence；The depth image processing unit is connected with second imaging sensor and from institute It states the second imaging sensor and receives image sequence；The depth image processing unit to the described image sequence received at Depth map is generated after reason and is sent to the depth map described using processing unit.

12. depth map processing unit according to claim 11, it is characterised in that: the application processing unit will be from described The image sequence that first imaging sensor receives is sent to the depth image processing unit after being handled；The depth map As processing unit is to receiving from the image sequence received using processing unit and from second imaging sensor Image sequence generates depth map and is sent to the depth map described using processing unit after being handled.

13. depth map processing unit according to claim 11, it is characterised in that: the application processing unit is controlled first System instruction is respectively sent to the first image sensor and second imaging sensor.

14. depth map processing unit according to claim 11, it is characterised in that: the application processing unit is controlled first System instruction is sent to the depth image processing unit；The depth image processing unit receives the from the application processing unit One control instruction simultaneously generates the second control instruction according to first control instruction；The depth image processing unit is by described Two control instructions are respectively sent to the first image sensor and second imaging sensor.

15. depth map processing unit described in 2~14 any claims according to claim 1, it is characterised in that: described first Imaging sensor is RGB image sensor or MONO imaging sensor；Second imaging sensor be RGB image sensor, MONO imaging sensor, structure light image sensor or TOF imaging sensor.

16. depth map processing unit according to claim 1 or 2, it is characterised in that: described image acquisition unit includes the One imaging sensor, the second imaging sensor and third imaging sensor；The first image sensor and second image Sensor is RGB image sensor, MONO imaging sensor or structure light image sensor or the first image sensing One is RGB image sensor in device and second imaging sensor, another is MONO imaging sensor；The third passes Sensor is structure light image sensor or TOF imaging sensor.

17. depth map processing unit according to claim 16, it is characterised in that: the depth image processing unit and institute State the first imaging sensor, second imaging sensor is connected with any one in the third imaging sensor and from this Connected imaging sensor obtains image sequence, and the application processing unit is connected and simultaneously with remaining two imaging sensors Image sequence is obtained from described two imaging sensors.

18. depth map processing unit according to claim 17, it is characterised in that: the application processing unit is to receiving Image sequence handled after be sent to the depth image processing unit；The depth image processing unit is answered from described The image sequence received with processing unit with handled from the image sequence that the imaging sensor being connected receives after generate The depth map is simultaneously sent to described using processing unit by depth map.

19. depth map processing unit according to claim 16, it is characterised in that: the depth image processing unit and institute State the first imaging sensor, second imaging sensor is connected with any two in the third imaging sensor, simultaneously Image sequence is obtained from two imaging sensors；The application processing unit be connected with a remaining imaging sensor and from The imaging sensor obtains image sequence.

20. depth map processing unit according to claim 19, it is characterised in that: the application processing unit will receive Image sequence handled after be sent to the depth image processing unit；The depth image processing unit is answered from described After the image sequence received with processing unit is handled with from the image sequence that two imaging sensors being connected receive It generates depth map and is sent to the depth map described using processing unit.

21. depth map processing unit according to claim 16, it is characterised in that: the depth image processing unit difference It is connected with the first image sensor, second imaging sensor and the third imaging sensor, and simultaneously from described First imaging sensor, second imaging sensor and the third imaging sensor receive image sequence；The depth Image processing unit generates depth map and sends the depth map after handling the three groups of described image sequences received Processing unit is applied to described.

22. depth map processing unit described in 7,19 or 21 according to claim 1, it is characterised in that: described to apply processing unit First control instruction is sent to the depth image processing unit；The depth image processing unit handles single from the application Member receives the first control instruction and generates the second control instruction according to first control instruction；The depth image processing unit Second control instruction is respectively sent to the first image sensor, second imaging sensor and the third figure As sensor.

23. depth map processing unit described in 7,19 or 21 according to claim 1, it is characterised in that: described to apply processing unit First control instruction is respectively sent to the first image sensor, second imaging sensor and the third image to pass Sensor.

24. a kind of depth image processing unit, it is characterised in that: including image processor, image connecting interface and application connection Interface；

Described image connecting interface is connected with described image acquisition unit, receives image sequence from described image acquisition unit；

Described image processor carries out processing to the image sequence received and generates depth map；

The application connecting interface is connected with the application processing unit, and the depth map is sent to the application and handles list Member.

25. depth image processing unit according to claim 24, it is characterised in that: the application connecting interface will be described It depth map and is sent to simultaneously from the received image sequence of described image acquisition unit described using processing unit.

26. the depth image processing unit according to claim 24 or 25, it is characterised in that: described image connecting interface is One, described image acquisition unit includes an imaging sensor；Described image sensor is RGB image sensor, MONO figure As sensor, structure light image sensor or TOF imaging sensor.

27. depth image processing unit according to claim 26, it is characterised in that: the application processing unit is by first Control instruction is sent to described using connecting interface.

28. depth image processing unit according to claim 26, the application processing unit sends out the first control instruction It send to described using connecting interface；Described image processor according to first control instruction generates the second control instruction and by institute It states the second control instruction and is sent to described image connecting interface.

29. the depth image processing unit according to claim 24 or 25, described image connecting interface includes the first image Connecting interface and the second image connecting interface, described image acquisition unit include the first imaging sensor and the second image sensing Device；The first image connecting interface is connected with the first image sensor and receives image from the first image sensor Sequence, the second image connecting interface, which is connected with second imaging sensor and receives from second imaging sensor, to be schemed As sequence；Described image processor two groups that the first image connecting interface and the second image connecting interface are received Described image sequence generates depth map after being handled.

30. depth image processing unit according to claim 29, it is characterised in that: the application processing unit is by first Control instruction is sent to described using connecting interface；Described image processor generates the second control according to first control instruction It instructs and second control instruction is respectively sent to the first image connecting interface and the second image connecting interface.

31. the depth image processing unit according to claim 24 or 25, it is characterised in that: described image connecting interface packet Include the first image connecting interface and the second image connecting interface, described image acquisition unit include include the first imaging sensor and Second imaging sensor；The application processing unit is connected with the first image sensor and from the first image sensor Receive image sequence；The second image connecting interface is connected with second imaging sensor and from second image sensing Device receives image sequence；At the described image sequence that described image processor receives the second image connecting interface Depth map is generated after reason；The depth map is sent to described using processing unit by the application connecting interface.

32. depth image processing unit according to claim 31, it is characterised in that: the application processing unit will be from institute State be sent to after the image sequence that the first imaging sensor receives is handled it is described using connecting interface；Described image processing Device is to from the image sequence received using connecting interface and the image sequence received from the second image connecting interface Column generate depth map after being handled；The depth map is sent to described using processing unit by the application connecting interface.

33. depth image processing unit according to claim 31, it is characterised in that: the application connecting interface is from described The first control instruction is received using processing unit, described image processor generates the second control according to first control instruction and refers to It enables, second control instruction is sent to second imaging sensor by the second image connecting interface.

34. depth image processing unit according to claim 31, it is characterised in that: the application connecting interface is from described The first control instruction is received using processing unit, the depth image processing unit receives the first control from the application processing unit System instruction simultaneously generates the second control instruction according to first control instruction；Described image processor refers to according to first control It enables and generates the second control instruction, second control instruction is sent to the first image and passed by the first image connecting interface Second control instruction is sent to second imaging sensor by sensor, the second image connecting interface.

35. the depth image processing unit according to claim 24 or 25, it is characterised in that: described image connecting interface packet The first image connecting interface, the second image connecting interface and third image connecting interface are included, described image acquisition unit includes packet Include the first imaging sensor, the second imaging sensor and third imaging sensor；The first image sensor and described second Imaging sensor is RGB image sensor, MONO imaging sensor or structure light image sensor or the first image One is RGB image sensor in sensor and second imaging sensor, another is MONO imaging sensor；Described Three sensors are structure light image sensor or TOF imaging sensor.

36. depth image processing unit according to claim 35, it is characterised in that: the first image connecting interface, It is any of the second image connecting interface and the third image connecting interface and the first image sensor, described Any of second imaging sensor and described third imaging sensor are connected, and obtain figure from the connected imaging sensor As sequence, the application processing unit is connected with remaining two imaging sensors and simultaneously from described two imaging sensor Obtain image sequence.

37. depth image processing unit according to claim 35, it is characterised in that: the first image connecting interface, Any two in the second image connecting interface and the third image connecting interface with the first image sensor, it is described Second imaging sensor is connected with any two in the third imaging sensor to be obtained from two connected imaging sensors Image sequence；It is connected from the application processing unit with remaining two imaging sensors and is passed simultaneously from described two images Sensor obtains image sequence.

38. the depth image processing unit according to claim 36 or 37, it is characterised in that: the application connecting interface from The application processing unit receives image sequence；Described image processor is to from the image sequence received using connecting interface It arranges and generates depth map after being handled from the image sequence that image connecting interface receives；The application connecting interface will be described Depth map is sent to described using processing unit.

39. depth image processing unit according to claim 35, it is characterised in that: the first image connecting interface, The second image connecting interface and the third image connecting interface respectively correspond and the first image sensor, described It is connected in two imaging sensors and the third imaging sensor and corresponding from the first image sensor, second image Sensor and the third imaging sensor obtain image sequence；Described image processor connects to from the first image Three groups of image sequences that mouth, the second image connecting interface and the third image connecting interface receive are raw after being handled At depth map；The depth map is sent to described using processing unit by the application connecting interface.

40. according to depth image processing unit described in claim 36,37 or 39, it is characterised in that: the application processing is single First control instruction is sent to described using connecting interface by member；Described image processor is generated according to first control instruction Second control instruction is simultaneously respectively sent to the first image connecting interface, second image company by the second control instruction At least one of connection interface and the third image connecting interface.