CN109919141A - A kind of recognition methods again of the pedestrian based on skeleton pose - Google Patents

Abstract

A kind of recognition methods again of the pedestrian based on skeleton pose constructs target pedestrian template comprising steps of obtaining pedestrian image；Acquired image frames detect all pedestrian images being successively partitioned into image under various postures by skeleton；All pedestrian images and framework information being partitioned into are carried out according to target line human skeleton template size normalised；Local characteristic region segmentation is successively carried out to all pedestrian images according to pedestrian's framework information, Slant Rectify is carried out to the local characteristic region of all pedestrians, is obtained and the consistent local feature image set of target pedestrian template posture；Target pedestrian's Local Feature Fusion identification model is established, COMPREHENSIVE CALCULATING goes out the similarity of all pedestrians of target pedestrian template and real-time detection, realizes accurately identifying for target pedestrian.The present invention be able to achieve bend under the more people's scenes of complex environment, the pedestrian under the influence of the abnormal posture in part such as limbs inclination effectively identifies, promote pedestrian's recognition accuracy.

Description

A kind of recognition methods again of the pedestrian based on skeleton pose

Technical field

The invention belongs to pedestrian's identification technology field, specifically a kind of pedestrian based on skeleton pose side of identification again Method.

Background technique

Pedestrian identifies that (Person re-identification) is again in the video image by different cameras shooting again Identify target pedestrian.Unlike pedestrian tracking, pedestrian identify again can be realized under complex environment it is long-term cross-border Target is tracked, therefore very big effect can be played in monitoring field.For example the pedestrian of monitor video tracks again, when police does Computer can lock suspect automatically when case, without artificial time-consuming and laborious observation identification.

It is usually matched using single features currently, the pedestrian according to pedestrian's characteristic matching identifies again, effect is often not Ideal, main reason is that single feature can only express a part of attribute of target, it tends to be difficult to meet magnanimity monitor video Target under data accurately identifies and continuously tracks demand.In addition, traditional can not with the recognition methods that whole body is an entirety The local feature of prominent pedestrian, encountering the case where blocking will lead to target important feature information and loses so as to cause under discrimination Drop, and common regional area extracts and similarity mode can cause to match there is a situation where regional area can not be aligned Existing ambiguity thus greatly reduces discrimination.

Summary of the invention

In order to solve the above technical problems, the present invention provides a kind of recognition methods again of the pedestrian based on skeleton pose.

In order to solve the above-mentioned technical problem, the present invention takes following technical scheme:

A kind of recognition methods again of the pedestrian based on skeleton pose, comprising the following steps:

The image including target pedestrian frontal upright posture is obtained by monitor video or camera, passes through skeleton detection point Target pedestrian image and target pedestrian's local characteristic region image are cut out, so that target pedestrian's template is constructed, target pedestrian's mould Plate includes target pedestrian image template, target line human skeleton template and target pedestrian's local feature image set template；

The picture frame in monitor video or camera is acquired, pedestrian's framework information is extracted, is successively divided by skeleton detection All pedestrian images in image under various postures out, posture include normally, bend over, limbs inclination；

All pedestrian images and framework information being partitioned into are carried out according to target line human skeleton template size normalised；

Local characteristic region segmentation is successively carried out to all pedestrian images according to pedestrian's framework information, to the office of all pedestrians Portion's characteristic area carries out Slant Rectify, obtains and the consistent local feature image set of target pedestrian template posture；

Target pedestrian local feature image set template is matched with the local feature image set of each pedestrian, and is established Target pedestrian's Local Feature Fusion identification model, it is similar to all pedestrians' of real-time detection that COMPREHENSIVE CALCULATING goes out target pedestrian template Degree realizes accurately identifying for target pedestrian.

The target line human skeleton template acquisition methods be using depth convolutional neural networks to the image of acquisition at Reason, obtains 18 framework characteristic key points, is labeled as P_i={ (x_i,y_i) | i=0,1 ... 17 }, 18 framework characteristic key points Including at eye, right eye, left ear, auris dextra, mouth, chest neck, left shoulder, left elbow, left hand, right shoulder, right elbow, the right hand, left hip, left knee, a left side Foot, right hip, right knee and right crus of diaphragm.

The size normalization procedure of the framework information are as follows: respectively according to target line human skeleton's template B₀Row is detected Human skeleton B₁Body joint point coordinate information, calculate B₀And B₁Lower part of the body leg skeleton and the space of upper body trunk skeleton are long in skeleton Degree and, for characterizing pedestrian's skeleton height；

To B₀Skeleton height length and B₁Skeleton height length carry out ratio calculation and obtain K, and will have been detected according to K Pedestrian image zooms to target pedestrian's image template size, obtain completing it is size normalised after pedestrian image

It is described to use the skeleton dividing method based on framework information, to target pedestrian image template and carry out dimensional standard The pedestrian image of change carries out regional area segmentation, obtains several targets pedestrian topography's template and pedestrian's regional area figure Picture, local area image are expressed as R_i, wherein i=0,1 ... m.

The local characteristic region to pedestrian carries out Slant Rectify, specifically:

A vertical reference axis is established in target pedestrian topography's template and the pedestrian's local area image detected, For image Y direction, target pedestrian topography's template and vertical reference axis angulation are denoted as θ⁰, pedestrian's regional area Image and vertical reference axis angulation are denoted as θ¹, θ⁰With θ¹Difference be denoted asThen by pedestrian's regional area The angle of image rotation Δ θ simultaneously carries out background and cuts out, the body local characteristic area after being corrected.

It is described that target pedestrian local feature image set template is matched with the local feature image set of each pedestrian, tool Body are as follows:

Characteristic matching is carried out to target pedestrian image template and pedestrian's local area image, it is similar to obtain local features Spend S_ij, wherein i=1 ... m indicates some regional area, and it is similar that j=1 ... n indicates that different feature matching methods obtains Degree is as a result, establish pedestrian's local feature similarity fusion matrix S:

Several local feature similarities are fused to comprehensive characteristics similarity, fusion calculation formula is as follows:

F=(S λ)^T·ω

In above formula, different feature weights is distributed for different feature matching methods, λ is characterized weight matrix λ,

Different regional area weights is distributed for each regional area, ω is regional area weight matrix,

Then F=(S λ)^Tω expansion are as follows:

It realizes that target pedestrian template carries out similar differentiation to all pedestrian images one by one according to comprehensive characteristics similarity F, selects The highest pedestrian of similarity in pedestrian image is selected, identification is completed.

It is described that characteristic matching is carried out to target pedestrian image template and pedestrian's local area image, obtain local features Similarity specifically:

The color characteristic and LBP textural characteristics in target pedestrian local feature image set template and pedestrian image are extracted, point The feature vector x of target pedestrian's local area image template Xing Cheng not characterized₀With the feature vector x of pedestrian's local area image₁； Then, the convolution feature vector y of characterization target pedestrian local area image template is obtained by depth convolutional neural networks₀With row The convolution feature vector y of people's local area image₁, then calculate separately feature vector x₀With x₁, y₀With y₁Between COS distance, distance It is smaller to illustrate that feature vector similarity is higher, this feature vector similarity higher i.e. current pedestrian's local area image and target Pedestrian's local area image template is more similar.

The invention has the benefit that

Using human skeleton detection method, pedestrian's fine granularity local characteristic region can be precisely extracted, and according to skeleton pose Pedestrian's characteristic area correction to be detected has been carried out, so that pedestrian's local characteristic region to be detected is consistent with target template, has been mentioned Risen complex environment bend over, target signature template and pedestrian's characteristic matching to be detected under the influence of the abnormal posture in part such as limbs inclination Accuracy, while constructing pedestrian's local feature similarity matrix and phase is carried out to target pedestrian and the feature of pedestrian each in monitoring image Like degree COMPREHENSIVE CALCULATING, to realize accurately identifying for target pedestrian.Pedestrian under the more people's scenes of complex environment is able to achieve effectively to identify, Pedestrian's recognition accuracy again is promoted, there is certain practical value.

Detailed description of the invention

Fig. 1 algorithm flow chart；

Fig. 2 pedestrian's recognition principle block diagram again；

Fig. 3 skeleton segmentation figure；

Fig. 4 target skeleton regional area correction chart；

Fig. 5 regional area color, texture feature extraction Matching Model；

Fig. 6 local features Matching Model；

Fig. 7 skeleton pattern；

The chest Fig. 8 regional area framework information；

Fig. 9 pixel rotates schematic diagram.

Specific embodiment

To further understand the features of the present invention, technological means and specific purposes achieved, function, below with reference to Present invention is further described in detail with specific embodiment for attached drawing.

As shown in attached drawing 1-9, present invention discloses a kind of recognition methods again of the pedestrian based on skeleton pose, including following step It is rapid:

S1 obtains the image including target pedestrian frontal upright posture by camera, is partitioned into mesh by skeleton detection Pedestrian image and target pedestrian's local characteristic region image are marked, to construct target pedestrian's template, target pedestrian's template includes Target pedestrian image template, target line human skeleton template and target pedestrian's local feature image set template.It is artificial in video Target pedestrian is calibrated, while choosing targeted attitude in a certain frame is the image of frontal upright as target pedestrian's template M₀。

S2 acquires the picture frame in monitor video or camera, extracts pedestrian's framework information, is successively divided by skeleton detection Cut out all pedestrian images in image under various postures, posture include it is normal, bend over, the limb actions such as limbs inclination.Under Pedestrian image described in the text indicates to be the image detected.In the present embodiment, using depth convolutional neural networks to mesh Mark pedestrian's template M₀Pedestrian's template M is detected₁Skeleton joint point positioned, and according to skeleton joint pixel confidence to pass Node is attached.And visual modeling is carried out to pedestrian's skeleton using OpenPose, skeleton pattern is as shown in fig. 7, this 18 Framework characteristic key point include eye, right eye, left ear, auris dextra, mouth, at chest neck, left shoulder, left elbow, left hand, right shoulder, right elbow, the right side Hand, left hip, left knee, left foot, right hip, right knee and right crus of diaphragm.

S3 carries out dimensional standard to all pedestrian images and framework information being partitioned into according to target line human skeleton template Change.Respectively according to target line human skeleton's template B₀Pedestrian's skeleton B is detected₁Body joint point coordinate information, calculate B₀And B₁Bone In frame the space length of lower part of the body leg skeleton and upper body trunk skeleton and, for characterizing pedestrian's skeleton height；To B₀Skeleton body High length and B₁Skeleton height length carry out ratio calculation and obtain K, and target line is zoomed to for pedestrian image has been detected according to K People's image template size, obtain completing it is size normalised after pedestrian image.

S4 successively carries out local characteristic region segmentation to all pedestrian images according to pedestrian's framework information, to all pedestrians Local characteristic region carry out Slant Rectify, obtain with the consistent local feature image set of target pedestrian template posture.

S5 matches target pedestrian local feature image set template with the local feature image set of each pedestrian, and Target pedestrian's Local Feature Fusion identification model is established, COMPREHENSIVE CALCULATING goes out all pedestrians' of target pedestrian template and real-time detection Similarity realizes accurately identifying for target pedestrian.

In addition, successively carrying out local characteristic region segmentation, detailed process to pedestrian image are as follows: include according in framework information Body joint point coordinate skeleton is split, it is then that pedestrian image is corresponding with pedestrian's framework local region, obtain pedestrian office Portion area image R_i, wherein i=0,1 ... m.Pedestrian image is divided into 10 regions, pedestrian's local area image is expressed as R_ij (x, y, w, h), wherein i=0,1 ... 9, successively represent head, chest, left large arm, left forearm, right large arm, right forearm, left thigh, Left leg, right large arm, right thigh, j=0,1, respectively indicate target pedestrian image and pedestrian image.The center of gravity of local area image It is expressed as G (x, y), the width of local area image and high respectively w, h.For example, the regional area template in chest is R_2j(x,y,w, H), as shown in FIG. 7 and 8, can be obtained by P1 (x1, y1), P5 (x5, y5), P8 (x8, y8), P11 (x11, y11) coordinate information, Framework information specific formula for calculation is as follows:

Wherein:

After obtaining pedestrian's local area image, Slant Rectify, detailed process are also carried out are as follows:

As shown in figure 4, in local template R_ijIn establish a vertical reference axis L L, in target pedestrian topography template R_i0θ is denoted as with L angulation_i0, target template regional area R_i1θ is denoted as with L angulation_i1。θ_i0With θ_i1Difference note For Δ θ_i

The rotation of image is exactly to rotate to each pixel.Since the coordinate origin of image is in the upper left corner of image, We are turned by coordinate, using the center of image as coordinate origin.Assuming that the width of original image is w, a height of h, (x₀,y₀) it is former sit In mark a bit, convert coordinate after point be (x₁,y₁), then it can be obtained:

Pixel rotates schematic diagram as shown in figure 9, by point (x₀,y₀) rotate to point (x₁,y₁), then be easy to get to:

x₁=r × cos (b-a)

y₁=r × sin (b-a)

Postrotational pixel coordinate is obtained in coordinate system after conversion, as long as these coordinates are reconverted into former coordinate system ?.(b-a) is exactly Δ θ in above-mentioned formula_i, then pedestrian topography rotation Δ θ will have been detected_iAngle people after carry on the back again Correction purpose is cut out and then reached to scape.

A vertical reference axis is established in target pedestrian topography's template and the pedestrian's local area image detected, For image Y direction, target pedestrian topography's template and vertical reference axis angulation are denoted as θ⁰, pedestrian's regional area Image and vertical reference axis angulation are denoted as θ¹, θ⁰With θ¹Difference be denoted asThen by pedestrian's regional area The angle of image rotation Δ θ simultaneously carries out background and cuts out, the body local characteristic area after being corrected.

It is described that target pedestrian local feature image set template is matched with the local feature image set of each pedestrian, tool Body are as follows:

Characteristic matching is carried out to target pedestrian image template and pedestrian's local area image, it is similar to obtain local features Spend S_ij, wherein i=1 ... m indicates some regional area, and it is similar that j=1 ... n indicates that different feature matching methods obtains Degree is as a result, it also can also be certainly other that feature matching method, which includes color characteristic matching process, textural characteristics matching process, Feature matching method will not enumerate herein, establish pedestrian's local feature similarity fusion matrix S:

Several local feature similarities are fused to comprehensive characteristics similarity, fusion calculation formula is as follows:

F=(S λ)^T·ω

In above formula, different feature weights is distributed for different feature matching methods, λ is characterized weight matrix λ,

Different regional area weights is distributed for each regional area, ω is regional area weight matrix,

Then F=(S λ)^Tω expansion are as follows:

It realizes that target pedestrian template carries out similar differentiation to all pedestrian images one by one according to comprehensive characteristics similarity F, selects The highest pedestrian of similarity in pedestrian image is selected, identification is completed.

It is described that characteristic matching is carried out to target pedestrian image template and pedestrian's local area image, obtain local features Similarity specifically:

The color characteristic and LBP textural characteristics in target pedestrian local feature image set template and pedestrian image are extracted, point The feature vector x of target pedestrian's local area image template Xing Cheng not characterized₀With the feature vector x of pedestrian's local area image₁； Then, the convolution feature vector y of characterization target pedestrian local area image template is obtained by depth convolutional neural networks₀With row The convolution feature vector y of people's local area image₁, then calculate separately feature vector x₀With x₁, y₀With y₁Between COS distance, distance It is smaller to illustrate that feature vector similarity is higher, this feature vector similarity higher i.e. current pedestrian's local area image and target Pedestrian's local area image template is more similar.

x_jBy the Y using color image, first three rank color moment of U, V, three attributes of totally nine components and textural characteristics Composition.Wherein color moment feature expression are as follows:

Wherein, tri- Color Channel components of i Y, U, V, p_i,jIndicate gray scale in i-th of Color Channel component of color image For the probability that the pixel of j occurs, N indicates the number of pixel in image.

Three attributes of textural characteristics are as follows: energy S_E, contrast S_ConWith entropy S_qExpression formula are as follows:

Wherein, p (i, j | d, θ) is indicated on the direction θ, is separated by certain pixel distance d, gray value is respectively the picture of i and j Frequency of the member to appearance.

Artificial feature vector x_jWith convolution feature vector y_jIt may be expressed as:

x₀(x₀₁,x₀₂,…x_0m),

y₀(y₀₁,y₀₂,…y_0n),

x₁(x₁₁,x₁₂,…x_1m),

y₁(y₁₁,y₁₂,…y_1n),

Wherein, x_jIt is the n dimension artificial feature vector being made of color and textural characteristics, wherein n=9, (x₀₁,x₀₂,…x₀₁₂) =(μ_Y,σ_Y,s_Y…,S_E,S_con,S_Q)。

COS distance formula are as follows:

Wherein i=0 ... 9 indicates some regional area, S_i0It represents target pedestrian's local area image template and has detected row COS distance between the artificial feature vector of people's local area image, S_i1It represents target pedestrian's local area image template and has examined Survey the COS distance between the convolution feature vector of pedestrian's local area image.

According to Fig. 6 local features Matching Model, pedestrian's local feature similarity matrix S is constructed:

Due to using multi-mode characteristic matching, so distributing weight according to the significance level of two kinds of features, a power is obtained Weight matrix λ:

Similarity of a certain regional area in Fusion Features is acquired according to λ.Then, based on regional area fusion With model, according to weight matrix ω shared by 10 regional areas:

Weighting, which is asked, merges the similarity that similarity obtains final whole body.Similarity fusion calculation formula are as follows:

F=(S λ)^Tω,

Finally, realizing that target pedestrian template has detected pedestrian image and carry out one by one with all according to comprehensive characteristics similarity F Similar differentiation, the highest pedestrian of similarity in preferred image, to realize that target pedestrian identifies again.

It should be noted that these are only the preferred embodiment of the present invention, it is not intended to restrict the invention, although ginseng According to embodiment, invention is explained in detail, for those skilled in the art, still can be to aforementioned reality Technical solution documented by example is applied to modify or equivalent replacement of some of the technical features, but it is all in this hair Within bright spirit and principle, any modification, equivalent replacement, improvement and so on should be included in protection scope of the present invention Within.

Claims (7)

1. a kind of recognition methods again of the pedestrian based on skeleton pose, comprising the following steps:

The image including target pedestrian frontal upright posture is obtained by monitor video or camera, is partitioned by skeleton detection Target pedestrian image and target pedestrian's local characteristic region image, so that target pedestrian's template is constructed, target pedestrian's template packet Include target pedestrian image template, target line human skeleton template and target pedestrian's local feature image set template；

The picture frame in monitor video or camera is acquired, pedestrian's framework information is extracted, figure is successively partitioned by skeleton detection All pedestrian images as under various postures, posture include normally, bend over, limbs inclination；

All pedestrian images and framework information being partitioned into are carried out according to target line human skeleton template size normalised；

Local characteristic region segmentation is successively carried out to all pedestrian images according to pedestrian's framework information, it is special to the part of all pedestrians It levies region and carries out Slant Rectify, obtain and the consistent local feature image set of target pedestrian template posture；

Target pedestrian local feature image set template is matched with the local feature image set of each pedestrian, and establishes target Pedestrian's Local Feature Fusion identification model, COMPREHENSIVE CALCULATING go out the similarity of all pedestrians of target pedestrian template and real-time detection, Realize accurately identifying for target pedestrian.

2. the recognition methods again of the pedestrian based on skeleton pose according to claim 1, which is characterized in that the target pedestrian Skeleton template acquisition methods are to be handled using image of the depth convolutional neural networks to acquisition, obtain 18 framework characteristics and close Key point is labeled as P_i={ (x_i,y_i) | i=0,1 ... 17 }, 18 framework characteristic key points include eye, right eye, left ear, auris dextra, At mouth, chest neck, left shoulder, left elbow, left hand, right shoulder, right elbow, the right hand, left hip, left knee, left foot, right hip, right knee and right crus of diaphragm.

3. the recognition methods again of the pedestrian based on skeleton pose according to claim 2, which is characterized in that the skeleton letter The size normalization procedure of breath are as follows: respectively according to target line human skeleton's template B₀Pedestrian's skeleton B is detected₁Body joint point coordinate Information calculates B₀And B₁In skeleton the space length of lower part of the body leg skeleton and upper body trunk skeleton and, for characterizing pedestrian's skeleton Height；

To B₀Skeleton height length and B₁Skeleton height length carry out ratio calculation and obtain K, and pedestrian will have been detected according to K Image scaling to target pedestrian's image template size, obtain completing it is size normalised after pedestrian image.

4. the recognition methods again of the pedestrian based on skeleton pose according to claim 3, which is characterized in that described use is based on The skeleton dividing method of framework information to target pedestrian image template and has carried out size normalised pedestrian image progress part Region segmentation, obtains several targets pedestrian topography's template and pedestrian's local area image, local area image are expressed as R_i, wherein i=0,1 ... m.

5. the recognition methods again of the pedestrian based on skeleton pose according to claim 4, which is characterized in that described to pedestrian's Local characteristic region carries out Slant Rectify, specifically:

A vertical reference axis is established in target pedestrian topography's template and the pedestrian's local area image detected, for figure As Y direction, target pedestrian topography's template and vertical reference axis angulation are denoted as θ⁰, pedestrian's local area image θ is denoted as with vertical reference axis angulation¹, θ⁰With θ¹Difference be denoted asThen by pedestrian's local area image It rotates the angle of Δ θ and carries out background and cut out, the body local characteristic area after being corrected.

6. the recognition methods again of the pedestrian based on skeleton pose according to claim 5, which is characterized in that described to target line People's local feature image set template is matched with the local feature image set of each pedestrian, specifically:

Characteristic matching is carried out to target pedestrian image template and pedestrian's local area image, obtains local features similarity S_ij, wherein i=1 ... m indicates that some regional area, j=1 ... n indicate the similarity result that different feature matching methods obtains, Feature matching method includes color characteristic matching process, textural characteristics matching process, establishes the fusion of pedestrian's local feature similarity Matrix S:

Several local feature similarities are fused to comprehensive characteristics similarity, fusion calculation formula is as follows:

F=(S λ)^T·ω

In above formula, different feature weights is distributed for different feature matching methods, λ is characterized weight matrix λ,

Different regional area weights is distributed for each regional area, ω is regional area weight matrix,

Then F=(S λ)^Tω expansion are as follows:

Realize that target pedestrian template carries out similar differentiation, selection row to all pedestrian images one by one according to comprehensive characteristics similarity F The highest pedestrian of similarity in people's image completes identification.

7. the recognition methods again of the pedestrian based on skeleton pose according to claim 6, which is characterized in that described to target line People's image template and pedestrian's local area image carry out characteristic matching, obtain local features similarity specifically:

The color characteristic and LBP textural characteristics in target pedestrian local feature image set template and pedestrian image are extracted, respectively shape At the feature vector x of characterization target pedestrian local area image template₀With the feature vector x of pedestrian's local area image₁；Then, The convolution feature vector y of characterization target pedestrian local area image template is obtained by depth convolutional neural networks₀With pedestrian office The convolution feature vector y of portion's area image₁, then calculate separately feature vector x₀With x₁, y₀With y₁Between COS distance, apart from smaller Illustrate that feature vector similarity is higher, this feature vector similarity higher i.e. current pedestrian's local area image and target pedestrian Local area image template is more similar.