CN109144452A - A kind of naked eye 3D display system and method based on 3D MIcrosope image - Google Patents
A kind of naked eye 3D display system and method based on 3D MIcrosope image Download PDFInfo
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- CN109144452A CN109144452A CN201811023186.7A CN201811023186A CN109144452A CN 109144452 A CN109144452 A CN 109144452A CN 201811023186 A CN201811023186 A CN 201811023186A CN 109144452 A CN109144452 A CN 109144452A
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- G06—COMPUTING; CALCULATING OR COUNTING
- G06F—ELECTRIC DIGITAL DATA PROCESSING
- G06F3/00—Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
- G06F3/14—Digital output to display device ; Cooperation and interconnection of the display device with other functional units
- G06F3/1454—Digital output to display device ; Cooperation and interconnection of the display device with other functional units involving copying of the display data of a local workstation or window to a remote workstation or window so that an actual copy of the data is displayed simultaneously on two or more displays, e.g. teledisplay
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Abstract
The naked eye 3D display system and method based on 3D MIcrosope image that the embodiment of the invention discloses a kind of, system include image capture device, naked eye 3D display equipment, multiple body area networks, multiple body area network coordinators, multiple mobile terminals, a server and at least one processing terminal;Show that equipment shows the 3D MIcrosope image of image capture device transmission, mobile terminal obtains the biological information of body area network acquisition by body area network coordinator, server constructs database according to biological information, and processing terminal is according to data inquiry request, calling database to obtain visual information.Implement the embodiment of the present invention, improve user to the visual effect of 3D MIcrosope image, while can be to the monitoring of multiple user health situations to be measured, moreover it is possible to the database of biological information building be handled to obtain visual information, and visualized.
Description
Technical field
The present invention relates to 3D display technical fields, and in particular to a kind of naked eye 3D display system based on 3D MIcrosope image
And its method.
Background technique
3D visual imaging technology has been widely used in military affairs, traffic, hydraulic engineering, ecological Studies and urban planning
Equal fields, produce many products also based on the technology.Wherein, the basic principle of naked eye 3D imaging technique is that right and left eyes is allowed to distinguish
The image with level error is seen, to simulate the case where true environment human eye watches extraneous picture.But it not yet incites somebody to action at present
Naked eye 3D technology is applied to the scheme of human health status monitoring.
Summary of the invention
Being designed to provide for the embodiment of the present invention is a kind of based on the naked eye 3D display system of 3D MIcrosope image and its side
Method to promote user to the visual effect of 3D MIcrosope image, while can be monitored human health status, and carry out visual
Change and shows.
To achieve the above object, in a first aspect, the embodiment of the invention provides a kind of naked eyes based on 3D MIcrosope image
3D display system, including image capture device and naked eye 3D display equipment, described image acquisition equipment is for obtaining 3D microscope
Image, and described image is sent to the naked eye 3D display equipment and is shown.
Implement the naked eye 3D display system based on 3D MIcrosope image of the embodiment of the present invention, naked eye 3D display equipment can be shown
Show the 3D MIcrosope image that image capture device obtains, improves user to the visual effect of 3D MIcrosope image.
Second aspect, the naked eye 3D display system based on 3D MIcrosope image that the embodiment of the invention provides a kind of, including
Image capture device, naked eye 3D display equipment, multiple body area networks, multiple body area network coordinators, multiple mobile terminals, a service
Device and at least one processing terminal;
Described image is sent to the naked eye 3D display for obtaining 3D MIcrosope image by described image acquisition equipment
Equipment is shown;
Each body area network corresponds to each user to be measured, and the body area network is used to acquire the body letter of user to be measured
Breath;
The body area network coordinator is carried out wireless communication with the body area network and mobile terminal, and the mobile terminal passes through institute
It states body area network coordinator and obtains the biological information;
The mobile terminal and the server communication, the mobile terminal are used for the biological information of multiple users to be measured
It is uploaded to the server, the server constructs database according to the biological information of multiple users to be measured;
The processing terminal is communicated with the server, for receiving the data inquiry request of user, according to described
Data inquiry request calls the database to be inquired to obtain query text from the server, to the query text
It is pre-processed, the pre-processed results of query text is segmented to obtain controlled dictionary, constructed according to the controlled dictionary empty
Between vector, according to the space vector implement cluster and complete Cluster Evaluation obtain data inquiry request keyword;
The processing terminal is also used to be parsed according to the keyword and preset processing rule, and inquiry to be carried out
The data presented are visualized, the result set of inquiry are switched to the data structure for being used to indicate computer graphical, and pass through figure
Rendering engine renders the data structure, and the result after rendering is visualized.
As a kind of preferred embodiment of the application, the body area network is distributed in multiple sensors of human body, the biography
Sensor includes pulse transducer, respiration transducer, blood pressure sensor, blood oxygen transducer and temperature sensor, the body letter
Breath includes pulse data, respiratory rate, blood pressure data, oximetry data and temperature data.
As a kind of preferred embodiment of the application, the mobile terminal includes SIM card card slot, and the body area network is coordinated
Device is set in the SIM card card slot.
As a kind of preferred embodiment of the application, the processing terminal is specifically used for:
Unrelated word denoising is carried out to the query text, obtains the field with fields corresponding to the query text
Dictionary.
As a kind of preferred embodiment of the application, the processing terminal is specifically used for: according to belonging to query text
Field dictionary is segmented;
It is trained using the query text after participle, obtains training pattern;
Alternative keywords belonging to each of each query text are substituted into the training pattern of target domain, are obtained every
The term vector of several dimensions of alternative keywords belonging in a query text.
As a kind of preferred embodiment of the application, the processing terminal is specifically used for:
Arbitrarily select k alternative keywords as initial cluster center from n alternative keywords;
Centric keyword is obtained according to the mean value of each cluster alternative keywords, is calculated in each alternative keywords and these
The distance of heart keyword, and according to minimum range, corresponding keyword is divided again again;
Obtain the mean value of each cluster keyword;
The word nearest from centroid distance is taken out, using the word as the final keyword according to inquiry request.
The third aspect, the naked eye 3D display method based on 3D MIcrosope image that the embodiment of the invention provides a kind of are applicable in
In the naked eye 3D display system based on 3D MIcrosope image as described in second aspect, which comprises
Described image acquires equipment and obtains 3D MIcrosope image, and described image information is sent to the naked eye 3D display
Equipment is shown;
The server obtains the biological information of the body area network multiple users to be measured collected, and according to the body
Information architecture database;
The processing terminal receives the data inquiry request of user, according to the data inquiry request from the server
It calls the database to be inquired to obtain query text, the query text is pre-processed, to the pre- of query text
Processing result is segmented to obtain controlled dictionary, constructs space vector according to the controlled dictionary, real according to the space vector
It applies cluster and completes the keyword that Cluster Evaluation obtains data inquiry request;
The processing terminal is parsed according to the keyword and preset processing rule, and inquiry is visualized
The result set of inquiry is switched to the data structure for being used to indicate computer graphical, and is drawn by figure rendering by the data of presentation
It holds up and the data structure is rendered, the result after rendering is visualized.
Implement the naked eye 3D display system and method based on 3D MIcrosope image of the embodiment of the present invention, naked eye 3D display
Equipment displayable image acquires the 3D MIcrosope image that equipment obtains, and improves user to the visual effect of 3D MIcrosope image.
In addition, multiple body area networks obtain the biological information of multiple users to be measured, the biological information warp of multiple users to be measured in the present embodiment
Network coordinator and mobile terminal are uploaded to server to form database, to be realized by server to multiple users to be measured
The monitoring of health status, and processing terminal calls database to realize the number to biological information according to the data inquiry request of user
According to being handled, visual information is obtained, and visualized.
Detailed description of the invention
It, below will be to specific in order to illustrate more clearly of the specific embodiment of the invention or technical solution in the prior art
Embodiment or attached drawing needed to be used in the description of the prior art are briefly described.In all the appended drawings, similar element
Or part is generally identified by similar appended drawing reference.In attached drawing, each element or part might not be drawn according to actual ratio.
Fig. 1 is the structural representation for the naked eye 3D display system based on 3D MIcrosope image that first embodiment of the invention provides
Figure.
Specific embodiment
Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete
Site preparation description, it is clear that described embodiments are some of the embodiments of the present invention, instead of all the embodiments.Based on this hair
Embodiment in bright, every other implementation obtained by those of ordinary skill in the art without making creative efforts
Example, shall fall within the protection scope of the present invention.
The naked eye 3D display system based on 3D MIcrosope image that the embodiment of the invention provides a kind of, including Image Acquisition are set
Described image is sent to institute for obtaining 3D MIcrosope image by standby and naked eye 3D display equipment, described image acquisition equipment
Naked eye 3D display equipment is stated to be shown.
Implement the naked eye 3D display system based on 3D MIcrosope image of the embodiment of the present invention, naked eye 3D display equipment can be shown
Show the 3D MIcrosope image that image capture device obtains, improves user to the visual effect of 3D MIcrosope image.
Referring to FIG. 1, being the naked eye 3D display system based on 3D MIcrosope image provided by first embodiment of the invention
Structural schematic diagram.As shown, the display system includes including image capture device 100, naked eye 3D display equipment 200, more
Domain of individuals net 300, multiple body area network coordinators 400,500, servers 600 of multiple mobile terminals and at least one processing
Terminal 700.
Image capture device 100, naked eye 3D display equipment 200, multiple body area networks 300, multiple body area network coordinators 400,
500, servers 600 of multiple mobile terminals and at least one processing terminal 700.
Described image acquisition equipment 100 is carried out wireless communication with naked eye 3D display equipment 200;Described image acquires equipment and uses
In acquisition 3D MIcrosope image, and described image is sent to the naked eye 3D display equipment 200 and is shown.Specifically, scheme
As acquisition equipment includes but are not limited to camera.
Each body area network 300 corresponds to each user to be measured, and the body area network 300 is used to acquire the body of user to be measured
Body information;The body area network is distributed in multiple sensors of human body, the sensor include pulse transducer, respiration transducer,
Blood pressure sensor, blood oxygen transducer and temperature sensor, the biological information include pulse data, respiratory rate, blood pressure number
According to, oximetry data and temperature data.
The body area network coordinator 400 is carried out wireless communication with the body area network 300 and mobile terminal 500, the movement
Terminal 500 obtains the biological information by the body area network coordinator 400.The body area network coordinator 400 connects including SIM card
Mouth, SIM card protocol resolution module, based on the wireless transport module and antenna from master agreement, SIM card protocol resolution module respectively with
SIM card interface and based on data communication is carried out from the wireless transport module of master agreement, based on the wireless transport module from master agreement
Also communicated with antenna.The body area network coordinator 400 can be compatible with the low power consumption transmission of different type sign information, hardware
It is small in size for nano SIM card form, it is portable.The mobile terminal 500 includes SIM card card slot, the body area network coordinator
400 are set in the SIM card card slot.The body area network coordinator 400 can be parsed by SIM card interface protocol and be realized with movement eventually
The sign information transmission at end 500 and further network transmission, more convenient market expansion and application.Wherein, mobile terminal 500
Include but are not limited to mobile phone or wrist-watch.
The mobile terminal 500 is communicated with the server 600, and the mobile terminal 500 is used for multiple users to be measured
Biological information be uploaded to the server 600, the server 600 constructs data according to the biological information of multiple users to be measured
Library.For example, body area network 1 acquires the biological information 1 of user 1, mobile terminal 1 obtains biological information 1 by body area network coordinator 1,
And it is uploaded to server;Similarly, body area network 2 acquires the biological information 2 of user 2, and mobile terminal 2 is obtained by body area network coordinator 2
Biological information 2 is taken, and is uploaded to server;In this way, the biological information of multiple users can be got at server, to can realize
Monitoring to user health situation also achieves and summarizes to multiple user's body information, facilitates the subsequent number based on after summarizing
According to being handled.
The processing terminal 700 is communicated with the server 600, for receiving the data inquiry request of user, root
The database is called to be inquired to obtain query text from the server 600 according to the data inquiry request, to institute
It states query text to be pre-processed, the pre-processed results of query text is segmented to obtain controlled dictionary, according to described controlled
Dictionary constructs space vector, implements cluster according to the space vector and completes the pass that Cluster Evaluation obtains data inquiry request
Keyword;
The processing terminal 700 is also used to be parsed according to the keyword and preset processing rule, and inquiry is wanted
The result set of inquiry, is switched to the data structure for being used to indicate computer graphical, and pass through by the data for carrying out visualization presentation
Graphics rendering engine renders the data structure, and the result after rendering is visualized.
Embodiment for a better understanding of the invention is below described in detail the specific workflow of processing terminal 700:
S11 obtains the data inquiry request of user, obtains query text according to the request of data, to the inquiry text
This is pre-processed, and is segmented to obtain controlled dictionary to the pre-processed results of query text, is constructed according to the controlled dictionary
Space vector implements cluster according to the space vector and completes the keyword that Cluster Evaluation obtains data inquiry request;
Directly using text as query text if being wherein text if the data inquiry request that user is input, if user is defeated
The data inquiry request entered is voice, then is converted into after text by voice as query text.Then to the query text
It is pre-processed, the pretreatment includes: the field dictionary for preparing analyzed text, the corresponding fields of the text;Nothing
Word denoising is closed, word segmentation processing is carried out to text according to fields dictionary, finds out text entities, the text combination field after participle
Dictionary is filtered and rejects unrelated and word, constructs controlled dictionary.
Space vector is constructed according to the controlled dictionary, dimension should be maintained at 10 dimensions hereinafter, to be promoted in subsequent step
The performance of algorithm specifically includes following sub-step:
To each document in the document, segmented according to document fields dictionary;
Using the document training Word2Vec model after participle, the Word2Vec model of fields dictionary is obtained;
The Word2Vec model that alternative keywords belonging to each of each document are substituted into the target domain, obtains
The term vector of several dimensions of alternative keywords belonging in each document, the specific method is as follows:
Since each word corresponds to a term vector, v is dimension, it is assumed that
The similarity of two words is proportional to the product of corresponding term vector, it may be assumed that sin (v1, v2)=v1·v2;
Multiple word v1~vnComposition a fields dictionary indicated with C, whereinReferred to as institute
Belong to the center vector of domain term;
Occurs alternative keywords A in fields dictionary, the probability of A is proportional to energy factors e- E (A, c), whereE=-
AC, therefore:Wherein V is entire lexical space, i.e., document is whole, introducing function: σ (x)=
1/1(1+e-x), show that: P (G/C)=σ (- (H-G) C) then proceedes to the recursive calculating of fractionation lexical space and goes down, last
Need to calculate the vector difference of each keyword similar portion, wherein each child node indicates an alternative keywords, Mei Gezhong
Center of the vector of intermediate node G or H as all subvectors.
Cluster in the present invention is then existed to hyperspace word cluster when there is designated key word number using algorithm
Use the number as clusters number in algorithm;If defaulting keyword number is 5, described without designated key word number
Algorithm description is as follows:
Keyword thesaurus number k and data acquisition system comprising n alternative keywords;Output: meet target function value most
K small clustering algorithm process:
Arbitrarily select k alternative keywords as initial cluster center from n alternative keywords;
Centric keyword is obtained according to the mean value of each cluster alternative keywords, is calculated in each alternative keywords and these
The distance of heart keyword, and according to minimum range, corresponding keyword is divided again again;
The mean value of each cluster keyword, the i.e. mean value of centric keyword are recalculated, repeats the step until target letter
Number no longer changes.
The Cluster Evaluation in the present invention, comprising the following steps:
Fuzzy word is rejected, the word point to multiple centroid distance equilibriums can be rejected in treatment process;
In each cluster, according to algorithmic formula:It is calculated.Wherein: Q is that the word exists
The weight of dictionary, n are Spatial Dimension number, XiFor this i-th dimension angle value, XizFor the i-th dimension angle value of center of mass point.L is finally to repair
Final distance after ordering, taking the smallest word of the value is the representative keyword in the classification;
The word nearest from centroid distance is taken out, the word is as final keyword.
Since clustering algorithm will receive the influence of unit scales, the dimension values of the point can be standardized, that is, marked first
In addition value=(mean value of one component of value before standardization)/component standard deviation after standardization selects the good of clustering algorithm measurement
Place is that this algorithm will not be influenced by dimension, and the distance between two o'clock is unrelated with the measurement unit of initial data;By normalized number
According to identical with centralization data the distance between calculated 2 points of (i.e. the difference of initial data and mean value), while the method measures
Distance can also exclude the interference of the correlation between variable.
Further, Cluster Evaluation specific algorithm is as follows:
It is k to selected keyword number, it is random first that document content is subjected to Preliminary division, then use iteration side
Method is attempted to improve and be divided by constantly moving cluster centre:
Equipment selects keyword set X={ x1, x2..., xn, K centric keyword is z respectively1, z2..., zk, use w
(iz=1,2 ..., k) indicates k classification of word cluster, just like giving a definition:
Define the Euclidean distance between 1 two alternative keywords are as follows:
Define the arithmetic average for the alternative keywords that 2 belong to same field are as follows:
Define 3 objective functions are as follows:
Obtain mass center away from formula by defining 1.2.3 are as follows:
The word nearest from centroid distance is taken out, i.e. the smallest word of L value is as final keyword;
Weight of this word in the dictionary of field is promoted, dictionary is optimized.
S12 is parsed according to the keyword and preset processing rule, and inquiry to be carried out the number of visualization presentation
According to the result set of inquiry switching to the data structure for being used to indicate computer graphical, and by graphics rendering engine to described
Data structure is rendered, and the result after rendering is visualized.
It wherein, further include generating three dimensional coordinate space before being visualized the result after rendering, further,
Generating three dimensional coordinate space includes setting three-dimensional space background color and coordinate system parameters (reference axis and grid surface).Due to three
There is no the standard of length in dimension space, first set a full-length L=200, is generated according to this standard and data three-dimensional
Coordinate space:
Judge whether data provide entire three-dimensional space background color data, is the color then provided using data, otherwise
Using system default color, the default color can be set according to actual needs, it is not limited here.
Obtain X [min, max, number], Y [min, max, number] in data, Z [min, max, number] reference axis
Information: judgement obtains three number [X of min and max maximum absolute value in tri- axis of X, Y and Z respectively1,Y1,Z1], it is set respectively to three axis
Set a Length Weight [XW, YW, ZW]。
Length Weight [the X of three axis is calculated according to full-length LW, YW, ZW], then three axis are scaled respectively according to weight,
Generate the X-axis in coordinate system, Y-axis, Z axis;Grid surface is generated according to the number in the data of three axis, as X [number] (is indicated
[0, X1] segmentation): XY axis indicate plane draw be parallel to Y-axis by number equal part in section [- X1, X1] in
Line intersects with the bisector for being parallel to X-axis for XY grid surface.
Wherein, weight WK=K1/L.(K=X, Y, Z)
According to above-mentioned steps, tri- axis of X, Y and Z=full-length L is generated, but respectively indicates [- X1, X1], [- Y1,
Y1], [- Z1, Z1] coordinate system, and according to segments number generate XY, XZ, YZ grid surface (face wherein XZ, YZ default
Do not show), ultimately generate three dimensional coordinate space.
The data received are subjected to a series of processing:
According to weight [XW, YW, ZW] coordinate (P of each point in scaled datai=[xi, yi, zi]) in three dimensions
Coordinate Ewp:
Coordinate Ewp=[XWxi, YWyi, ZWzi], (i=1,2,3 ..., N).Wherein N is the number of data point.
Judge the parameter of the number N initialization points of data point.If N is less than default value 1000, then using system default
(data provide the face then provided using data for size (being defaulted as side length as 5 cube) and transparency (being defaulted as 1), color
Color);If N is greater than 1000, points are deleted according to the density in unit range:
Determine coordinate space isodisperse e, after three-dimensional space e equal part, every part is range Ri(i=1,2,3 .., e) is determined
Each range RiThe radix b of interior point.Isodisperse e can value be 8,64,512.It is 512 that isodisperse e, which takes default value, in this example, base
It is 10 that number b, which takes default value,.
Data intercept is in unit range RiThe set data of interior all pointsi, point set dataiThe number of interior point is DLi, meter
Calculate unit range RiThe density d of interior pointi。
Density di=DLi/ b, (i=1,2,3 ..., e).
According to range RiInterior dot density diThe degree of taper of point in determination range:
When the density d of pointiWhen greater than 1, range RiInterior point is reduced to 8;Work as density diLess than 1 and when being greater than 0.6, range
RiInterior point is reduced to 6;Density diThe then not number of reduced point less than 0.6.Reduced point is by RiInterior point set dataiIt deletes more
Remaining point, and only Yu 8 or 6.Specifically by point set datai8 or 6 equal parts take first point data of every equal part.
Computer capacity RiThe transparency O of interior pointiWith size Si:
Wherein S is default size a little.
(point is more intensive for the different transparencies and size that data point is treated as most 4096 points according to above-mentioned steps
The size of position point is smaller and transparency is lower) new data set.
Data after above-mentioned handle well are shown in the three-dimensional system of coordinate initialized, finally entire scene exists
It is rendered in given container.Wherein rendering is with " frame " for unit, and each second rendering 60 frame of highest, the rendering of each frame can all obtain
The time for taking previous frame to render, enable the transition that view is smooth, to realize the displaying of the three-dimensional scatter plot.
It is rolled before only needing mouse roller when with user's interactive controlling, reduces entire view scene, when scene narrows down to centainly
Position when no longer reduce;It is rolled after mouse roller, amplifies entire view scene, equally no longer put when being amplified to certain position
Greatly;Left mouse button and movement are pinned, 360 degree can be controlled, upper and lower 180 degree rotates entire scene;Right mouse button and movement are pinned,
Entire scene can be translated;When user's control operation, each frame can equally obtain previous frame render time, so that entire view
The operations such as scaling, rotation, translation can be smooth transition, the final control realized to view scene operates.
Implement the naked eye 3D display system and method based on 3D MIcrosope image of the embodiment of the present invention, naked eye 3D display
Equipment displayable image acquires the 3D MIcrosope image that equipment obtains, and improves user to the visual effect of 3D MIcrosope image.
In addition, multiple body area networks obtain the biological information of multiple users to be measured, the biological information warp of multiple users to be measured in the present embodiment
Network coordinator and mobile terminal are uploaded to server to form database, to be realized by server to multiple users to be measured
The monitoring of health status, and processing terminal calls database to realize the number to biological information according to the data inquiry request of user
According to being handled, visual information is obtained, and visualized.
Correspondingly, on the basis of naked eye 3D display system provided by above-described embodiment based on 3D MIcrosope image,
The naked eye 3D display method based on 3D MIcrosope image that the embodiment of the invention also provides a kind of, this method are suitable for base above-mentioned
In the naked eye 3D display system of 3D MIcrosope image.Method includes the following steps:
S101, described image acquires equipment and obtains 3D MIcrosope image, and described image information is sent to the naked eye
3D display equipment is shown.
S102, body area network obtain the biological information of multiple users to be measured.
Biological information is transmitted to mobile terminal by body area network coordinator by S103, body area network.
Biological information is uploaded to server by S104, mobile terminal, and server constructs database according to biological information.
S105, processing terminal receive the data inquiry request of user, obtain keyword according to data inquiry request.
Specifically, processing terminal receives the data inquiry request of user, according to the data inquiry request from the service
It calls the database to be inquired to obtain query text at device, query text is pre-processed, to the pre- of query text
Processing result is segmented to obtain controlled dictionary, according to controlled dictionary construct space vector, according to space vector implement cluster with
And complete the keyword that Cluster Evaluation obtains data inquiry request;
S106, processing terminal obtains visualized data according to keyword, and is shown.
Specifically, processing terminal is parsed according to keyword and preset processing rule, and inquiry is visualized
The result set of inquiry is switched to the data structure for being used to indicate computer graphical, and is drawn by figure rendering by the data of presentation
It holds up and the data structure is rendered, the result after rendering is visualized.
It should be noted that the detailed process about step S105 and S106, please refers to the description of previous embodiment, herein
It repeats no more.
Implement the naked eye 3D display method based on 3D MIcrosope image of the embodiment of the present invention, naked eye 3D display equipment can be shown
Show the 3D MIcrosope image that image capture device obtains, improves user to the visual effect of 3D MIcrosope image.In addition, this reality
It applies in example, multiple body area networks obtain the biological information of multiple users to be measured, and the biological information of multiple users to be measured is through the network coordination
Device and mobile terminal are uploaded to server to form database, to be realized by server to multiple user health situations to be measured
Monitoring, and processing terminal according to the data inquiry request of user call database to realize at the data to biological information
Reason, obtains visual information, and visualized.
The above description is merely a specific embodiment, but scope of protection of the present invention is not limited thereto, any
Those familiar with the art in the technical scope disclosed by the present invention, can readily occur in various equivalent modifications or replace
It changes, these modifications or substitutions should be covered by the protection scope of the present invention.Therefore, protection scope of the present invention should be with right
It is required that protection scope subject to.
Claims (9)
1. a kind of naked eye 3D display system based on 3D MIcrosope image, which is characterized in that including image capture device and naked eye
Described image is sent to the naked eye 3D for obtaining 3D MIcrosope image by 3D display equipment, described image acquisition equipment
Display equipment is shown.
2. a kind of naked eye 3D display system based on 3D MIcrosope image, which is characterized in that including image capture device, naked eye 3D
Show equipment, multiple body area networks, multiple body area network coordinators, multiple mobile terminals, a server and at least one processing
Terminal;
Described image information is sent to the naked eye 3D display for obtaining 3D MIcrosope image by described image acquisition equipment
Equipment is shown;
Each body area network corresponds to each user to be measured, and the body area network is used to acquire the biological information of user to be measured;
The body area network coordinator is carried out wireless communication with the body area network and mobile terminal, and the mobile terminal passes through the body
Domain net coordinator obtains the biological information;
The mobile terminal and the server communication, the mobile terminal are used to upload the biological information of multiple users to be measured
To the server, the server constructs database according to the biological information of multiple users to be measured;
The processing terminal is communicated with the server, for receiving the data inquiry request of user, according to the data
Inquiry request calls the database to be inquired to obtain query text from the server, carries out to the query text
Pretreatment, segments the pre-processed results of query text to obtain controlled dictionary, according to the controlled dictionary construct space to
Amount implements cluster according to the space vector and completes the keyword that Cluster Evaluation obtains data inquiry request;
The processing terminal is also used to be parsed according to the keyword and preset processing rule, and inquiry to be carried out visual
Change the data presented, the result set of inquiry is switched to the data structure for being used to indicate computer graphical, and render by figure
Engine renders the data structure, and the result after rendering is visualized.
3. the naked eye 3D display system based on 3D MIcrosope image as claimed in claim 2, which is characterized in that the body area network
Multiple sensors of human body are distributed in, the sensor includes pulse transducer, respiration transducer, blood pressure sensor, blood oxygen biography
Sensor and temperature sensor, the biological information include pulse data, respiratory rate, blood pressure data, oximetry data and body
Warm data.
4. the naked eye 3D display system based on 3D MIcrosope image as claimed in claim 2, which is characterized in that described mobile whole
End includes SIM card card slot, and the body area network coordinator is set in the SIM card card slot.
5. the naked eye 3D display system based on 3D MIcrosope image as claimed in claim 2, which is characterized in that described mobile whole
End includes mobile phone or smartwatch.
6. the naked eye 3D display system based on 3D MIcrosope image as claimed in claim 2, which is characterized in that the processing is eventually
End is specifically used for:
Unrelated word denoising is carried out to the query text, obtains the domain term with fields corresponding to the query text
Library.
7. the naked eye 3D display system based on 3D MIcrosope image as claimed in claim 6, which is characterized in that the processing is eventually
End is specifically used for:
It is segmented according to the fields dictionary of query text;
It is trained using the query text after participle, obtains training pattern;
Alternative keywords belonging to each of each query text are substituted into the training pattern of target domain, each look into is obtained
The term vector of several dimensions of alternative keywords belonging to asking in text.
8. such as the described in any item naked eye 3D display systems based on 3D MIcrosope image of claim 2-7, which is characterized in that its
It is characterized in that, the processing terminal is specifically used for:
Arbitrarily select k alternative keywords as initial cluster center from n alternative keywords;
Centric keyword is obtained according to the mean value of each cluster alternative keywords, each alternative keywords is calculated and these centers is closed
The distance of keyword, and according to minimum range, corresponding keyword is divided again again;
Obtain the mean value of each cluster keyword;
The word nearest from centroid distance is taken out, using the word as the final keyword according to inquiry request.
9. a kind of naked eye 3D display method based on 3D MIcrosope image is suitable for micro- based on 3D as claimed in claim 2
The naked eye 3D display system of mirror image, which is characterized in that the described method includes:
Described image acquires equipment and obtains 3D MIcrosope image, and described image information is sent to the naked eye 3D display equipment
It is shown;
The server obtains the biological information of the body area network multiple users to be measured collected, and according to the biological information
Construct database;
The processing terminal receives the data inquiry request of user, is called from the server according to the data inquiry request
The database is inquired to obtain query text, is pre-processed to the query text, the pretreatment to query text
As a result it is segmented to obtain controlled dictionary, space vector is constructed according to the controlled dictionary, is implemented according to the space vector poly-
Class and the keyword for completing Cluster Evaluation acquisition data inquiry request;
The processing terminal is parsed according to the keyword and preset processing rule, inquires the visualization of being carried out presentation
Data, the result set of inquiry switchs to the data structure for being used to indicate computer graphical, and pass through graphics rendering engine pair
The data structure is rendered, and the result after rendering is visualized.
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