CN107490346A - A kind of RFID multi-tags Network Three-dimensional measurement modeling method of view-based access control model - Google Patents

Abstract

For the demand for going out to be put in storage information gathering and goods checking of goods in modern wisdom warehouse logisticses, it is proposed a kind of RFID multi-tags Network Three-dimensional measurement modeling method of view-based access control model, the image of RFID label tag is obtained from multi-angle by using two cameras, the image of acquisition is handled using iterative Threshold segmentation and morphological method, using template matching method, the three-dimensional coordinate of RFID label tag is obtained.This method effectively reduces the complexity of algorithm, can obtain the three-dimensional coordinate of RFID label tag in real time.This invention has important theory and application value to modern wisdom warehouse logisticses.

Description

A kind of RFID multi-tags Network Three-dimensional measurement modeling method of view-based access control model

Technical field

The present invention relates to RFID technique and Internet of Things application field, and in particular to RFID multi-tag Network Three-dimensionals coordinate determines And network modelling, particularly introduce 3D vision analysis method and three-dimensional measurement modeling is carried out to RFID multi-tags network, belong to Metrology and measurement field.

Background technology

Radio frequency identification (Radio Frequency Identification, RFID) as it is a kind of it is novel it is contactless from Dynamic identification technology, obtains extensive use, particularly in intelligence in various fields such as modern logistics, intelligent transportation, the production automations In intelligent logistics, due to consideration that the efficiency of system recognition for batch goods using substantial amounts of RFID label tag, it is necessary to go out storage Information gathering and goods checking, and the modeling for RFID multi-tag networks at this stage and the identification of RFID multi-tags, distribution, Permutation and combination, positioning etc. lack a kind of effective automatic measurement and calculate means.

In 3-D view measurement modeling field, three-dimensional measurement modeling is carried out to image using single camera in existing method, Needing constantly to adjust camera orientation, obtain the subject image under same state from different perspectives, complex operation, real-time is poor, It is difficult to be applicable the higher occasion of requirement of real-time.Three-dimensional measurement modeling is carried out to image using single camera in existing literature It is fewer, and it is even more to be rarely reported that three-dimensional measurement modeling is carried out to RFID multi-tags network using the method for image.In order to meet The demand for going out to be put in storage information gathering and goods checking of goods in modern wisdom warehouse logisticses, found and calculated using image correlation theory The method that method complexity is low, amount of calculation is small, efficiency high and robustness are good carries out three-dimensional measurement modeling to RFID multi-tags network just Seem highly significant.Use level, vertical two cameras in the present invention, the image information of RFID label tag, drop are obtained from multi-angle The low method using image carries out the complexity of three-dimensional measurement modeling to RFID label tag, and method proposed by the present invention has fast Speed, high accuracy and real-time the advantages of obtaining RFID label tag three-dimensional coordinate.

In specific algorithm, it is related to iterative Threshold segmentation, Morphological scale-space method and template matching algorithm, it is iterative Threshold segmentation is more effective method in the segmentation of threshold method image, and the optimal threshold of segmentation is obtained by way of iteration, With certain adaptivity.Morphology Algorithm such as can be corroded and be expanded on the basis of Threshold segmentation at the form to image Operation is learned, to retain and extract the particular geometric feature in image, and morphological method is easy to be realized with the mode of parallel processing, Real-time is higher.Template matching algorithm is convenient so that its computational methods is simple, template is chosen, it is easy to accomplish the advantages that, it is especially suitable In the higher Internet of Things field of requirement of real-time.

The content of the invention

The present invention proposes a kind of RFID multi-tags Network Three-dimensional measurement modeling method of view-based access control model, comprises the following steps：

First step：Build test platform step, test platform by RFID reader, reading and writing device antenna, RFID label tag, RFID label tag support, control computer, servomotor, vertical camera, level camera, guide rail, rotating disk are formed, RFID label tag support Mark point is posted in bottom, and RFID reader is connected with reading and writing device antenna, and RFID reader is connected with control computer, vertical camera It is connected respectively with control computer with level camera；

Second step：RFID label tag perpendicular plan view is entered as acquisition step using vertical camera to rotating disk and RFID label tag Row IMAQ, image is handled using iterative Threshold segmentation and morphological method, and to whole RFID label tags Point is numbered；

Third step：RFID label tag radial distance extraction step, the rotating disk obtained in above-mentioned second step are vertically overlooked Two strings are taken on image, make the perpendicular bisector of string, then the intersection point of perpendicular bisector is center of turntable, chooses one of them RFID label tag point is template, and i-th of RFID label tag point is matched using template matches, obtains i-th of RFID Distance r of the label mark point to center of turntable_i, as i-th of RFID label tag radial distance；

Four steps：RFID label tag horizontal coordinate measuring process, regulation servomotor drive turntable rotation, obtained i-th The angle, θ of RFID label tag rotation_i, then θ_iWith the r obtained in above-mentioned third step_iThe level of as i-th RFID label tag point Coordinate parameter, it is (r further to obtain i-th of RFID label tag horizontal coordinate_icosθ_i, r_isinθ_i)；

5th step：RFID label tag side elevation image acquisition step, control computer control servomotor drive turntable rotation, Control computer controlled level camera carries out front and rear adjustment, makes level camera to one of label blur-free imaging, with the label For template, the vertical range h, i.e. template of measurement module central point to rotating disk vertical coordinate, make level camera to i-th of RFID Label is accurately focused, and obtains i-th of RFID label tag side elevation image, and template and i-th of RFID label tag are carried out using template matches Matching, calculate the number of pixels difference c between the central point and template center's point of i-th of RFID label tag_i；

6th step：RFID label tag vertical coordinate measuring process, according to Similar Principle of Triangle, determine each picture in image The size a of the plain length of side, according to the vertical coordinate of side elevation image tag template and i-th RFID label tag with template in vertical direction Number of pixels mathematic interpolation draw the vertical coordinate H of i-th of RFID label tag in vertical direction_i, when i-th RFID label tag Central spot is in the lower section of template center's point, H_i=h-c_i× a, when the central spot of i-th of RFID label tag is in template center's point Top, H_i=h+c_i×a；

7th step：RFID label tag three-dimensional coordinate determines step, and it is (r to determine i-th of RFID label tag three-dimensional coordinate_icosθ_i, r_isinθ_i, H_i)；

8th step：Repeat it is above-mentioned third and fourth, five, six, seven steps, measure all RFID label tags horizontal coordinate and hang down Straight coordinate, that is, obtain the three-dimensional coordinate of all RFID label tags.

A kind of RFID multi-tags Network Three-dimensional measurement modeling method of above-described view-based access control model, wherein second step institute Iterative Threshold segmentation is stated, step is as follows：

Step 1：Perpendicular plan view picture is normalized, setting iteration convergence parameter T₀, and select one initially Estimation threshold value T₁=(min g (x, y)+max g (x, y))/2, wherein (x, y) is the coordinate of pixel in image, g (x, y) For the image intensity value after normalization, min g (x, y) are g (x, y) minimum value, and max g (x, y) are g (x, y) maximum；

Step 2：With estimation threshold value T₁Split perpendicular plan view picture, perpendicular plan view picture is divided into G₁And G₂Two parts, its In, G₁So that (x, y) | g (x, y) ＞ T₁, G₂So that (x, y) | g (x, y) ＜ T₁}；

Step 3：Calculate G₁And G₂The average gray value μ of middle all pixels₁And μ₂, and new threshold value T₂=(μ₁+μ₂)/ 2；

Step 4：If | T₂-T₂| ＜ T₀, then T₂As optimal threshold, otherwise, by T₂It is assigned to T₁；

Step 5：Above step two, three, four is repeated, until obtaining optimal threshold, utilizes the optimal threshold T finally obtained₂ Row threshold division is entered to perpendicular plan view picture, obtains the binary image I of perpendicular plan view picture.

A kind of RFID multi-tags Network Three-dimensional measurement modeling method of above-described view-based access control model, wherein second step institute Morphological method is stated, step is as follows：

Step 1：Expansive working, the image after being expanded are carried out to the binary image of perpendicular plan view pictureWherein B is structural element, and I is the binary image of perpendicular plan view picture,Represent expansion, P₁After expansion Image；

Step 2：Etching operation, the image P after being corroded are carried out to image₂=P₁Θ B, wherein B are structural element, P₁ For the image after expansion, Θ represents corrosion, P₂For the image after corrosion；

Step 3：The operation of an above step one and step 2 is repeated, padding then is performed to image again, obtained To image P₃, to P₃Step 2 operation is performed, obtains the image after Morphological scale-space.

A kind of above-described view-based access control model RFID multi-tags Network Three-dimensional measurement modeling method, wherein third step and Template matches described in 5th step, step are as follows：

Step 1：A certain specific image is selected as reference template image, in the region of search of image known to point-by-point translation Reference template image, each pixel in traversal search region；

Step 2：Determine normalized-cross-correlation function An equal amount of region of search image in reference template image and original image is matched, wherein, (m, n) sits for pixel Mark, T (m, n) is reference template image,For reference template image average, M is pixel The maximum of point coordinates abscissa, N be pixel point coordinates row coordinate maximum, S^{I, j}(m, n) is region of search image,For the average of region of search image；

Step 3：Reference template image is moved into next pixel, repeats above step two, until all positions are all After matching is completed, regions of the normalized-cross-correlation function NC (i, j) more than given threshold λ is the Matching band to be found Domain.

The RFID multi-tags Network Three-dimensional measurement modeling method of above-described a kind of view-based access control model, wherein the 5th step institute State control computer controlled level camera and carry out front and rear adjustment, step is as follows：

Step 1：Level camera initial position is measured to the distance L of center of turntable₁；

Step 2：Control computer control servomotor drives turntable rotation so that i-th of RFID label tag and level camera In plumbness, the distance between i-th of RFID label tag and level camera d are calculated_i=L₁-r_i；

Step 3：Calculated level camera is accurately focused the object space distances of needs to i-th of RFID label tagIts In, l ' is distance of the level camera optical center to ccd sensor inside level camera, and f is level camera focal length；

Step 4：Level camera is accurately focused to i-th of RFID label tag needs the distance, delta L that adjusts_i=d_i-l_iIf Δ L_i More than zero, level camera moves Δ L along close to i-th of RFID label tag direction_iIf Δ L_iLess than zero, level camera is along away from i-th Individual RFID label tag direction movement Δ L_i。

The RFID multi-tags Network Three-dimensional measurement modeling method of above-described a kind of view-based access control model, wherein the 6th step institute Similar Principle of Triangle is stated, step is as follows：

Step 1：Control computer controlled level camera carries out front and rear adjustment, makes level camera clear to one of label Clear imaging, the distance of measurement label to level camera, it is designated as S, level camera optical center to level camera inside ccd sensor Distance l ', CCD pixel length of side e；

Step 2：Calculate the pixel length of side of image

Brief description of the drawings

Fig. 1：Test platform architecture figure

Fig. 2：7 RFID label tag top views

Fig. 3：1st RFID label tag horizontal coordinate instrumentation plan

Fig. 4：Iterative Threshold segmentation result figure

Fig. 5：Expansion process result figure

Fig. 6：Corrosion treatment result figure

Fig. 7：Fill result figure

Fig. 8：Morphological scale-space result figure

Fig. 9：7 RFID label tag perpendicular plan views are as template matches result figure

Figure 10：1st RFID label tag horizontal image template matches result figure

Embodiment

A kind of RFID multi-tags Network Three-dimensional measurement modeling method of view-based access control model, comprises the following steps：

First step：Test platform step is built, test platform is by 1-RFID read write lines, 2- reading and writing device antennas, 3-RFID Label, 4-RFID label supports, 5- control computers, 6- servomotors, the vertical cameras of 7-, 8- level cameras, 9- guide rails, 10- Rotating disk is formed, and mark point is posted in 4-RFID label supports bottom, and 1-RFID read write lines control with 2- reading and writing device antennas and 5- respectively Computer is connected, and the vertical cameras of 7- and 8- level cameras are connected with 5- control computers respectively, and RFID label tag is using hyperfrequency electricity Subtab-H47, read write line use Impinj Speedway Revolution R420 read write lines, and reading and writing device antenna uses Laird A9028 far field antennas, maximum RF power outputs are 30dBm, and test platform is as shown in Figure 1；

Second step：RFID label tag perpendicular plan view is entered as acquisition step using vertical camera to rotating disk and RFID label tag Row IMAQ, perpendicular plan view picture is handled using iterative Threshold segmentation and morphological method, and to all 7 RFID label tag point is numbered, and 7 RFID label tag top views are as shown in Figure 2；

Third step：RFID label tag radial distance extraction step, take on the rotating disk image obtained in above-mentioned second step Two strings, make the perpendicular bisector of string, then the intersection point of perpendicular bisector is the center of rotating disk, chooses one of RFID label tag Mark point is template, and the 1st RFID label tag point is matched using template matching algorithm, obtains the 1st RFID label tag Distance r of the mark point to center of turntable₁=198.4mm, as the 1st RFID label tag radial distance；

Four steps：RFID label tag horizontal coordinate measuring process, regulation servomotor drive turntable rotation, obtain the 1st Angle, θ=48.4 ° of RFID label tag rotation, the then r obtained in θ=48.4 ° and above-mentioned third step₁=198.4mm is the 1st The horizontal coordinate parameter of individual RFID label tag point, the horizontal two-dimension coordinate that the 1st RFID label tag is further calculated are (131.7mm, 148.4mm), the 1st RFID label tag horizontal coordinate instrumentation plan are as shown in Figure 3；

5th step：RFID label tag side elevation image acquisition step, control computer control servomotor drive turntable rotation, Control computer controlled level camera carries out front and rear adjustment, makes level camera to one of label blur-free imaging, with the label For template, the vertical range h=328.0mm, i.e. template of measurement module central point to rotating disk vertical coordinate, make level camera pair 1st RFID label tag is accurately focused, and the 1st RFID label tag side elevation image is obtained, using template matches to template and the 1st RFID Label is matched, and calculates the number of pixels difference c between the central point and template center's point of the 1st RFID label tag₁=71；

6th step：RFID label tag vertical coordinate measuring process, according to Similar Principle of Triangle, determine each picture in image The size of element is a=0.75mm, wherein, 0.75mm is the size of each pixel length of side, according to the vertical coordinate of template and the 1st RFID label tag and the number of pixels difference of template in vertical direction, and the 1st RFID label tag central point Y value are big In template center's point Y value, judgement draws the 1st RFID label tag central point heart point top in a template, so as to calculate Go out the vertical coordinate H of the 1st RFID label tag in vertical direction₁=h+c₁× a=327.85+0.75 × 71=381.1mm；

7th step：RFID label tag three-dimensional coordinate determines step, determine the 1st RFID label tag three-dimensional coordinate for (131.7, 148.4 381.1)；

8th step：Repeat it is above-mentioned third and fourth, five, six, seven steps, the horizontal two-dimension for measuring all 7 RFID label tags sits Mark and vertical coordinate, that is, the three-dimensional coordinate for obtaining all 7 RFID label tags are (131.7,148.4,381.1), (116.5, 179.2,355.9), (- 232.4,200.3,350.5), (- 168.7, -58.8,350.3), (47.5, -106.4,328.5), (174.2,40.7,340.1), (174.9, -16.7,379.9).

Described in a kind of RFID multi-tags Network Three-dimensional measurement modeling method second step of above-described view-based access control model repeatedly It is as follows for formula Threshold segmentation, step：

Step 1：Perpendicular plan view picture is normalized, setting iteration convergence parameter T₀=0.01, and select one Individual initial estimation threshold value T₁=0.5178；

Step 2：With estimation threshold value T₁=0.5178 segmentation perpendicular plan view picture, is divided into G by perpendicular plan view picture₁And G₂Two Part, wherein, G₁So that (x, y) | g (x, y) ＞ T₁, G₂So that (x, y) | g (x, y) ＜ T₁}；

Step 3：Calculate G₁And G₂The average gray value μ of middle all pixels₁=0.6615 and μ₂=0.1165, and new Threshold value T₂=(0.6615+0.1165)/2=0.3890；

Step 4：|T₂-T₁| ＜ 0.01, then T₂As optimal threshold, otherwise, by T₂It is assigned to T₁；

Step 5：Above step two, three, four is repeated, until obtaining optimal threshold, utilizes the optimal threshold T finally obtained₂ Row threshold division is entered to perpendicular plan view picture, obtains the binary image I of perpendicular plan view picture, the binaryzation of perpendicular plan view picture Image is as shown in Figure 4.

Shape described in a kind of RFID multi-tags Network Three-dimensional measurement modeling method second step of above-described view-based access control model State method, step are as follows：

Step 1：Expansive working, the image after being expanded are carried out to the binary image of perpendicular plan view pictureWherein B is structural element, and I is the binary image of perpendicular plan view picture,Represent expansion, P₁After expansion Image, the image after expansion are as shown in Figure 5；

Step 2：Etching operation, the image P after being corroded are carried out to image₂=P₁Θ B, wherein B are structural element, P₁ For the image after expansion, Θ represents corrosion, P₂For the image after corrosion, the image after corrosion is as shown in Figure 6；

Step 3：The operation of an above step one and step 2 is repeated, padding then is performed to image again, obtained To image P₃, the image after filling is as shown in fig. 7, to P₃Step 2 operation is performed, obtains the image after Morphological scale-space, form It is as shown in Figure 8 to learn processing final effect figure.

A kind of RFID multi-tags Network Three-dimensional measurement modeling method third step and the 5th of above-described view-based access control model Template matches described in step, step are as follows：

Step 1：A certain specific image is selected as reference template image, in the region of search of image known to point-by-point translation Reference template image, each pixel in traversal search region；

Step 2：Determine normalized-cross-correlation function An equal amount of region of search image in reference template image and original image is matched, wherein, (m, n) sits for pixel Mark, T (m, n) is reference template image,For reference template image average, M is pixel The maximum of coordinate abscissa, N be pixel point coordinates row coordinate maximum, S^{I, j}(m, n) is region of search image,For the average of region of search image；

Step 3：Reference template image is moved into next pixel, repeats above step two, until all positions are all After matching is completed, the region that normalized-cross-correlation function NC (i, j) is more than given threshold λ=0.75 is to be found With region, 7 RFID label tag perpendicular plan views are as template matching results figure as shown in figure 9, the 1st RFID label tag horizontal image mould Plate matching result figure is as shown in Figure 10.

Control described in a kind of RFID multi-tags Network Three-dimensional measurement step of modeling method the 5th of above-described view-based access control model Computer controlled level camera processed carries out front and rear adjustment, and step is as follows：

Step 1：Level camera initial position is measured to the distance L of center of turntable₁=1.512m；

Step 2：Control computer control servomotor drives turntable rotation so that the 1st RFID label tag and level camera In plumbness, the distance between the 1st RFID label tag and level camera d are calculated₁=1.512m-0.406m=1.106m；

Step 3：Calculated level camera is accurately focused the object space distances of needs to the 1st RFID label tagWherein, l ' is that level camera optical center passes to CCD inside level camera The distance of sensor, l '=0.00597m, f=0.006m；

Step 4：Level camera is accurately focused to the 1st RFID label tag needs the distance, delta L that adjusts₁=d₁-|l₁|= 1.106m- (1.194m)=- 0.088m, Δ L₁Less than zero, level camera moves along away from the 1st RFID label tag direction 0.088m。

Three described in a kind of RFID multi-tags Network Three-dimensional measurement step of modeling method the 6th of above-described view-based access control model The angular principle of similitude, step are as follows：

Step 1：Control computer controlled level camera carries out front and rear adjustment, makes level camera clear to one of label Clear imaging, the distance of measurement label to level camera, is designated as S=1.194m, inside level camera optical center to level camera Distance l '=0.00597m of ccd sensor, e=3.75 μm of the length of side of CCD pixels；

Step 2：Calculate the pixel length of side of image

Claims (6)

1. a kind of RFID multi-tags Network Three-dimensional measurement modeling method of view-based access control model, comprises the following steps：

First step：Test platform step is built, test platform is marked by RFID reader, reading and writing device antenna, RFID label tag, RFID Sign support, control computer, servomotor, vertical camera, level camera, guide rail, rotating disk to form, RFID label tag frame bottom patch There is mark point, RFID reader is connected with reading and writing device antenna, and RFID reader is connected with control computer, vertical camera and level Camera is connected with control computer respectively；

Second step：RFID label tag perpendicular plan view carries out figure using vertical camera as acquisition step to rotating disk and RFID label tag As collection, image is handled using iterative Threshold segmentation and morphological method, and whole RFID label tags are clicked through Line number；

Third step：RFID label tag radial distance extraction step, the rotating disk perpendicular plan view picture obtained in above-mentioned second step On take two strings, make the perpendicular bisector of string, then the intersection point of perpendicular bisector is center of turntable, chooses one of RFID mark Label mark point is template, and i-th of RFID label tag point is matched using template matches, obtains i-th of RFID label tag mark Distance r of the note point to center of turntable_i, as i-th of RFID label tag radial distance；

Four steps：RFID label tag horizontal coordinate measuring process, regulation servomotor drive turntable rotation, obtain i-th of RFID The angle, θ of label rotation_i, then θ_iWith the r obtained in above-mentioned third step_iThe horizontal coordinate of as i-th RFID label tag point Parameter, it is (r further to obtain i-th of RFID label tag horizontal coordinate_icosθ_i, r_isinθ_i)；

5th step：RFID label tag side elevation image acquisition step, control computer control servomotor drive turntable rotation, control Computer controlled level camera carries out front and rear adjustment, makes level camera to one of label blur-free imaging, using the label as mould Plate, the vertical range h, i.e. template of measurement module central point to rotating disk vertical coordinate, make level camera to i-th of RFID label tag Accurate focusing, is obtained i-th of RFID label tag side elevation image, template and i-th of RFID label tag is matched using template matches, Calculate the number of pixels difference c between the central point and template center's point of i-th of RFID label tag_i；

6th step：RFID label tag vertical coordinate measuring process, according to Similar Principle of Triangle, determine each pixel side in image Long size a, according to the vertical coordinate of side elevation image tag template and i-th of RFID label tag and the picture of template in vertical direction Plain number difference, the vertical coordinate H of i-th of RFID label tag in vertical direction is calculated_i, when in i-th of RFID label tag Heart point is in the lower section of template center's point, H_i=h-c_i× a, when the central spot of i-th of RFID label tag is in the upper of template center's point Side, H_i=h+c_i×a；

7th step：RFID label tag three-dimensional coordinate determines step, and it is (r to determine i-th of RFID label tag three-dimensional coordinate_icosθ_i, r_isinθ_i, H_i)；

8th step：Repeat it is above-mentioned third and fourth, five, six, seven steps, measure the horizontal coordinate of all RFID label tags and vertical sit Mark, that is, obtain the three-dimensional coordinate of all RFID label tags.

2. a kind of RFID multi-tags Network Three-dimensional measurement modeling method of view-based access control model according to claim 1, wherein the Iterative Threshold segmentation, step are as follows described in two steps：

Step 1：Perpendicular plan view picture is normalized, setting iteration convergence parameter T₀, and select one initial to estimate Count threshold value T₁=(min g (x, y)+max g (x, y))/2, wherein (x, y) is the coordinate of pixel in image, g (x, y) is to return Image intensity value after one change, min g (x, y) are g (x, y) minimum value, and max g (x, y) are g (x, y) maximum；

Step 2：With estimation threshold value T₁Split perpendicular plan view picture, perpendicular plan view picture is divided into G₁And G₂Two parts, wherein, G₁ So that (x, y) | g (x, y) ＞ T₁, G₂So that (x, y) | g (x, y) ＜ T₁}；

Step 3：Calculate G₁And G₂The average gray value μ of middle all pixels₁And μ₂, and new threshold value T₂=(μ₁+μ₂)/2；

Step 4：If | T₂-T₁| ＜ T₀, then T₂As optimal threshold, otherwise, by T₂It is assigned to T₁；

Step 5：Above step two, three, four is repeated, until obtaining optimal threshold, utilizes the optimal threshold T finally obtained₂To hanging down Straight overhead view image enters row threshold division, obtains the binary image I of perpendicular plan view picture.

3. a kind of RFID multi-tags Network Three-dimensional measurement modeling method of view-based access control model according to claim 1, wherein the Morphological method described in two steps, step are as follows：

Step 1：Expansive working, the image after being expanded are carried out to the binary image of perpendicular plan view pictureIts Middle B is structural element, and I is the binary image of perpendicular plan view picture,Represent expansion, P₁For the image after expansion；

Step 2：Etching operation, the image P after being corroded are carried out to image₂=P₁Θ B, wherein B are structural element, P₁To be swollen Image after swollen, Θ represent corrosion, P₂For the image after corrosion；

Step 3：The operation of an above step one and step 2 is repeated, padding then is performed to image again, obtains figure As P₃, to P₃Step 2 operation is performed, obtains the image after Morphological scale-space.

4. a kind of RFID multi-tags Network Three-dimensional measurement modeling method of view-based access control model according to claim 1, wherein the Template matches described in three steps and the 5th step, step are as follows：

Step 1：A certain specific image is selected as reference template image, point-by-point translation is known in the region of search of image joins Examine template image, each pixel in traversal search region；

Step 2：Determine normalized-cross-correlation function An equal amount of region of search image in reference template image and original image is matched, wherein, (m, n) sits for pixel Mark, T (m, n) is reference template image,For reference template image average, M is pixel The maximum of coordinate abscissa, N be pixel point coordinates row coordinate maximum, S^{I, j}(m, n) is region of search image,For the average of region of search image；

Step 3：Reference template image is moved into next pixel, repeats above step two, until all positions all match After completion, regions of the normalized-cross-correlation function NC (i, j) more than given threshold λ is the matching area to be found.

5. a kind of RFID multi-tags Network Three-dimensional measurement modeling method of view-based access control model according to claim 1, wherein the Control computer controlled level camera described in five steps carries out front and rear adjustment, and step is as follows：

Step 1：Level camera initial position is measured to the distance L of center of turntable₁；

Step 2：Control computer control servomotor drives turntable rotation so that i-th of RFID label tag is in level camera Plumbness, calculate the distance between i-th of RFID label tag and level camera d_i=L₁-r_i；

Step 3：Calculated level camera is accurately focused the object space distances of needs to i-th of RFID label tagWherein, l ' is To the distance of ccd sensor inside level camera, f is level camera focal length for level camera optical center；

Step 4：Level camera is accurately focused to i-th of RFID label tag needs the distance, delta L that adjusts_i=d_i-l_iIf Δ L_iIt is more than Zero, level camera moves Δ L along close to i-th of RFID label tag direction_iIf Δ L_iLess than zero, level camera is along away from i-th RFID label tag direction movement Δ L_i。

6. a kind of RFID multi-tags Network Three-dimensional measurement modeling method of view-based access control model according to claim 1, wherein the Similar Principle of Triangle described in six steps, step are as follows：

Step 1：Control computer controlled level camera carry out it is front and rear adjust, make level camera to one of label clearly into Picture, measurement label arrive the distance of level camera, are designated as S, level camera optical center to level camera inside ccd sensor away from From l ', the length of side e of CCD pixels；

Step 2：Calculate the pixel length of side of image