CN106502794A - A kind of efficient rendering intent of the 3 d effect graph rendered based on high in the clouds - Google Patents

Abstract

The invention provides a kind of efficient rendering intent of the 3 d effect graph rendered based on high in the clouds, including：S1, the Size Dwelling Design module design house type scheme, and send rendering task image data to the data exchange management module, and rendering task data is activation is given the rendering task scheduler by the data exchange management module；S2, the rendering task scheduler receives the rendering task image data and the picture to be rendered in the rendering task image data is divided into n blocks picture region according to picture allocation strategy and specifies corresponding rendering task by each piece of picture region, form n item rendering tasks, the efficient rendering intent of the 3 d effect graph that should be rendered based on high in the clouds can be accelerated speed picture in the case of former rendering data is constant and render process, render time when minimizing is rendered for the picture of each layout structure, accelerate the transmission speed for rendering picture, user can be carried out personalized designs and render rear seamless integration with the distribution of each task to the picture that renders of oneself.

Description

A kind of efficient rendering intent of the 3 d effect graph rendered based on high in the clouds

Technical field

The present invention relates to graphics rendering techniques field, more particularly to a kind of efficient wash with watercolours of 3 d effect graph rendered based on high in the clouds Dyeing method.

Background technology

With virtual reality technology rise with perfect, a lot of enterprises are gradually promoted using virtual reality technology and are sought Pin product.Wherein, the client for carrying out house Size Dwelling Design using 3D technology is also more and more.With a large amount of growths of usage amount, Substantial amounts of image rendering demand is produced, and then very big pressure is produced to rendering server；But to a certain extent, every wash with watercolours The rendering capability of dye server is certain, in this case, if rendering for a drawing renders work simply by one Realize as station, then the inefficiency for rendering, and every design sketch have different structure compositions, such as door and window, floor, furniture and Light fixture, these structures render needs front portion structure render complete on the basis of carry out rendering for next structure again, So render and cause substantial amounts of time to waste, it is impossible to reach efficiently render, the high-quality purpose for rendering.

The image rendering of existing virtual reality, suffers from the drawback that：

(1) separate unit render machine render time long；

(2) time that user's queuing is rendered is significantly increased；

(3) user renders easy time-out；

(4) render picture excessive, only rendered with a rendering platform work station, directly result in needs more times Enter picture to render；

(5) picture is rendered excessive, an equipment is rendered, and causes network transmission to slow down；

Therefore, those skilled in the art need badly work out a kind of former rendering data constant in the case of accelerate fast picture and render Process, render time when minimizing is rendered for the picture of each layout structure are accelerated the transmission speed for rendering picture, are used Family can to oneself to render the 3 d effect graph rendered based on high in the clouds that combines after picture carries out personalized designs and distribution efficient Rendering intent.

Content of the invention

The technical problem to be solved in the present invention is to provide a kind of efficient rendering intent of 3 d effect graph rendered based on high in the clouds, The efficient rendering intent of the 3 d effect graph that should be rendered based on high in the clouds can be accelerated speed picture in the case of former rendering data is constant and be rendered Process, render time when minimizing is rendered for the picture of each layout structure are accelerated the transmission speed for rendering picture, are used Family can be carried out personalized designs and render rear seamless integration with the distribution of each task to the picture that renders of oneself.

For solving above-mentioned technical problem, the invention provides a kind of efficient side of rendering of 3 d effect graph rendered based on high in the clouds Method, it is characterised in that：If provide terminal, data exchange tool, rendering task scheduler and storage center server and Dry render work station, the terminal is connected with the data exchange tool, and the data exchange tool is rendered with described Task dispatcher connects, and the rendering task scheduler and the management node module, the storage center server and renders Task dispatcher connects, and the management node module is connected with the workbench that renders, the three-dimensional effect rendered based on high in the clouds Fruit is schemed efficient rendering intent and comprises the following steps：

S1, the Size Dwelling Design module design house type scheme, and send rendering task image data and hand over to the data Management module is changed, rendering task data is activation is given the rendering task scheduler by the data exchange management module；

S2, the rendering task scheduler receive the rendering task image data and by the rendering task image data In picture to be rendered n blocks picture region is divided into according to picture allocation strategy and is specified by each piece of picture region corresponding Rendering task, forms n item rendering tasks, and the rendering task scheduler is rendered according to rendering task queue policies are by n items Task carries out queue according to the corresponding workbench that renders, and the rendering task is sent to described by the rendering task scheduler again N item rendering task rendering tasks are sent to corresponding wash with watercolours by node administration by management node module, the management node module Dye workbench, described render workbench according to rendering task picture is rendered；

S3, described render workbench and will render the picture that completes be sent to the rendering task scheduler, described rendering is appointed Business scheduler renders the picture for completing to n to carry out being integrally formed a totality according to picture integrated strategy and renders the figure for completing Piece；

S4, the rendering task scheduler will render the picture that completes and be sent to the storage center server to be deposited Storage, the storage center server form file-sharing with some work stations that render；

Wherein, the rendering task scheduler is configured with picture allocation strategy, picture integrated strategy and rendering task queue Strategy.

Preferably, the rendering task scheduler includes rendering data receiver module, rendering data sending module, storage mould Block, processing module and data queue's management module is rendered,

Step S2 realizes that step includes：

The rendering data receiver module receives the rendering task image data and by the rendering task image data Processing module is rendered described in being sent to, the processing module that renders receives the rendering task image data and appoints described rendering Picture to be rendered in business image data is divided into n blocks picture region and by each piece of picture region according to picture allocation strategy Corresponding rendering task is specified, n item rendering tasks are formed, described for n items rendering task is sent to institute by the processing module that renders Data queue's management module is stated, data queue's management module is according to rendering task queue policies to the n items rendering task Queue is carried out according to the corresponding workbench that renders, the rendering task is sent to the management section by data queue's module again N item rendering tasks rendering task is sent to by node administration and corresponding renders work by point module, the management node module Platform, the workbench that renders are rendered to picture according to corresponding rendering task.

Preferably, step S3 realizes that step includes：

Described render workbench and will render the picture that completes be sent to the rendering data receiver module, the rendering data Receiver module will render the image data that completes be sent to described render processing module, n is rendered by the processing module that renders The picture for completing carries out being integrally formed a totality according to picture integrated strategy and renders the picture that completes.

Preferably, the rendering task queue policies are：According to layout structure and image segmentation function pair Size Dwelling Design figure Piece is split, and described image segmentation function is：

Wherein：σ²For the gray variance in the i of region, R is cut zone quantity；c_eIt is the bound term relevant with marginal texture； w₁、w₂For authority credentials,

M and N are the profile side line length of picture region after segmentation；

c_k(k=1 ..., 5) represent 5 kinds of edge penalty items respectively；c₁Discontinuous for local gray level Property coefficient, c₂For the fineness system of edge contour, c₃For the smooth property coefficient of edge contour, c₄Connection for edge contour Property coefficient, c₅For marginal point number system number.

Preferably, the management node module drives strategy and state change to drive according to periodic harvest strategy, order Strategy is allocated to rendering task, and the periodic harvest strategy includes：Per the cycle at regular intervals, each node is to which The nearest loading condition of his node report；The periodic harvest strategy includes：According to the state of system, when node becomes transmission Request is sent to other nodes when node or recipient node；The state change drives strategy to include：Change over time, section Point issues the status information of oneself when system load state changes.

Preferably, also provide and the management node module and render the dispatching management module that work station is connected, the pipe Reason node module includes the renewal load information list for monitoring load information elements and the monitoring load information elements closed loop connection Unit and the transmission load information elements for updating load information elements connection, the monitoring load information elements are appointed to rendering The information of business node is monitored and the information of monitoring is timely transmitted to the renewal load information elements, the renewal load Information unit is upgraded in time to the information of rendering task node and the information of renewal is fed back to the monitoring load in time The information of the rendering task node of renewal is sent to the transmission load information by information unit, the renewal load information elements The rendering task nodal information for updating is sent the dispatching management module by unit, the transmission load information elements.

Preferably, the dispatching management module includes the load of balanced load unit and the balanced load unit connection Queued units and the load collector unit of the load queued units connection, the wash with watercolours that the transmission load information elements will update Dye task node information is sent to the load collector unit, the rendering task nodal information that the load collector unit will be collected It is sent to the load queued units to rank, the load queued units will pass through the rendering task node for processing of queuing up again Information sends the balanced load unit and carries out mission bit stream balance, and the balanced load unit is again by after information balance Rendering task is sent to the correspondingly rendering platform.

After employing said method, the Size Dwelling Design module designs house type scheme, and sends rendering task picture Data to the data exchange management module, appointed by the data exchange management module to described rendering by rendering task data is activation Business scheduler；The rendering task scheduler receives the rendering task image data and by the rendering task image data Picture to be rendered n blocks picture region is divided into according to picture allocation strategy and specifies corresponding wash with watercolours by each piece of picture region Dye task, forms n item rendering tasks, and the rendering task scheduler is rendered according to rendering task queue policies are by n items appoints Business carries out queue according to the corresponding workbench that renders, and the rendering task is sent to the pipe by the rendering task scheduler again N item rendering task rendering tasks are sent to corresponding rendering by node administration by reason node module, the management node module Workbench, described render workbench according to rendering task picture is rendered；Described render workbench and will render complete Picture be sent to the rendering task scheduler, the rendering task scheduler renders the picture for completing according to picture to n Integrated strategy is carried out being integrally formed a totality and renders the picture for completing；The rendering task scheduler will render the picture for completing It is sent to the storage center server to be stored, the storage center server forms text with some work stations that render Part is shared, and the efficient rendering intent of the 3 d effect graph that should be rendered based on high in the clouds can be accelerated speed in the case of former rendering data is constant and be schemed Piece renders process, and render time when minimizing is rendered for the picture of each layout structure accelerates the transmission for rendering picture Speed, user can be carried out personalized designs and render rear seamless integration with the distribution of each task to the picture that renders of oneself.

Description of the drawings

Fig. 1 is a kind of execution flow chart of the efficient rendering intent of 3 d effect graph rendered based on high in the clouds of the present invention；

Fig. 2 is a kind of efficient rendering intent of 3 d effect graph rendered based on high in the clouds corresponding with the execution flow chart of Fig. 1 Block mold schematic diagram.

Specific embodiment

In order that the objects, technical solutions and advantages of the present invention become more apparent, below in conjunction with drawings and Examples, right The present invention is further elaborated.It should be appreciated that specific embodiment described herein is only used for explaining the present invention, not For limiting the present invention.

Embodiment 1

Refer to Fig. 1 and Fig. 2, Fig. 1 be the present invention a kind of efficient rendering intent of 3 d effect graph rendered based on high in the clouds Execution flow chart, Fig. 2 is a kind of based on 3 d effect graph that high in the clouds render efficiently rendered corresponding with the execution flow chart of Fig. 1 The block mold schematic diagram of method.

The invention discloses a kind of efficient rendering intent of the 3 d effect graph rendered based on high in the clouds, there is provided terminal, Data exchange tool, rendering task scheduler and storage center server and some render work station, the terminal with The data exchange tool connection, the data exchange tool are connected with the rendering task scheduler, and the rendering task is adjusted Degree device is connected with the management node module, the storage center server and rendering task scheduler, the management node mould Block is connected with the workbench that renders, and the efficient rendering intent of the 3 d effect graph rendered based on high in the clouds is comprised the following steps：

S1, the Size Dwelling Design module design house type scheme, and send rendering task image data and hand over to the data Management module is changed, rendering task data is activation is given the rendering task scheduler by the data exchange management module；

S2, the rendering task scheduler receive the rendering task image data and by the rendering task image data In picture to be rendered n blocks picture region is divided into according to picture allocation strategy and is specified by each piece of picture region corresponding Rendering task, forms n item rendering tasks, and the rendering task scheduler is rendered according to rendering task queue policies are by n items Task carries out queue according to the corresponding workbench that renders, and the rendering task is sent to described by the rendering task scheduler again N item rendering task rendering tasks are sent to corresponding wash with watercolours by node administration by management node module, the management node module Dye workbench, described render workbench according to rendering task picture is rendered；

S3, described render workbench and will render the picture that completes be sent to the rendering task scheduler, described rendering is appointed Business scheduler renders the picture for completing to n to carry out being integrally formed a totality according to picture integrated strategy and renders the figure for completing Piece；

S4, the rendering task scheduler will render the picture that completes and be sent to the storage center server to be deposited Storage, the storage center server form file-sharing with some work stations that render；

Wherein, the rendering task scheduler is configured with picture allocation strategy, picture integrated strategy and rendering task queue Strategy.

The rendering task scheduler includes rendering data receiver module, rendering data sending module, memory module, renders Processing module and data queue's management module,

Step S2 realizes that step includes：

The rendering data receiver module receives the rendering task image data and by the rendering task image data Processing module is rendered described in being sent to, the processing module that renders receives the rendering task image data and appoints described rendering Picture to be rendered in business image data is divided into n blocks picture region and by each piece of picture region according to picture allocation strategy Corresponding rendering task is specified, n item rendering tasks are formed, described for n items rendering task is sent to institute by the processing module that renders Data queue's management module is stated, data queue's management module is according to rendering task queue policies to the n items rendering task Queue is carried out according to the corresponding workbench that renders, the rendering task is sent to the management section by data queue's module again N item rendering tasks rendering task is sent to by node administration and corresponding renders work by point module, the management node module Platform, the workbench that renders are rendered to picture according to corresponding rendering task.

Step S3 realizes that step includes：

Described render workbench and will render the picture that completes be sent to the rendering data receiver module, the rendering data Receiver module will render the image data that completes be sent to described render processing module, n is rendered by the processing module that renders The picture for completing carries out being integrally formed a totality according to picture integrated strategy and renders the picture that completes.

In the present embodiment, the rendering task queue policies are：According to layout structure and image segmentation function pair house type Design picture is split, and described image segmentation function is：

Wherein：σ²For the gray variance in the i of region, R is cut zone quantity；c_eIt is the bound term relevant with marginal texture； w₁、w₂For authority credentials,

M and N are the profile side line length of picture region after segmentation；

c_k(k=1 ..., 5) represent 5 kinds of edge penalty items respectively；c₁Discontinuous for local gray level Property coefficient, c₂For the fineness system of edge contour, c₃For the smooth property coefficient of edge contour, c₄Connection for edge contour Property coefficient, c₅For marginal point number system number.

In the present embodiment, the management node module drives strategy and state to become according to periodic harvest strategy, order Change and drive strategy to be allocated rendering task, the periodic harvest strategy includes：Per the cycle at regular intervals, each section Point is to the nearest loading condition of other node reports；The periodic harvest strategy includes：According to the state of system, when node into For sending node or recipient node when send request to other nodes；The state change drives strategy to include：Over time The status information of oneself is issued in change, node when system load state changes.

Embodiment 2

The present embodiment is provided on the basis of embodiment 1, also and the management node module and renders what work station was connected Dispatching management module, the management node module include monitoring load information elements and the monitoring load information elements closed loop The renewal load information elements of connection and the transmission load information elements for updating load information elements connection, the monitoring Load information elements are monitored to the information of rendering task node and the information of monitoring are timely transmitted to described renewal and load Information unit, the renewal load information elements information of rendering task node is upgraded in time and by update information and When feed back to the monitoring load information elements, the information of the rendering task node for updating is sent out by the renewal load information elements The transmission load information elements are given, the rendering task nodal information for updating is sent described by the transmission load information elements Dispatching management module.

The dispatching management module includes the load queuing list of balanced load unit and the balanced load unit connection Unit and the load collector unit of the load queued units connection, the rendering task that the transmission load information elements will update Nodal information is sent to the load collector unit, and the rendering task nodal information of collection is sent to by the load collector unit The load queued units are ranked, and the rendering task nodal information for passing through process of queuing up is sent out by the load queued units again The balanced load unit is sent to carry out mission bit stream balance, rendering after information balance is appointed by the balanced load unit again Business is sent to the correspondingly rendering platform.

After employing said method, the Size Dwelling Design module designs house type scheme, and sends rendering task picture Data to the data exchange management module, appointed by the data exchange management module to described rendering by rendering task data is activation Business scheduler；The rendering task scheduler receives the rendering task image data and by the rendering task image data Picture to be rendered n blocks picture region is divided into according to picture allocation strategy and specifies corresponding wash with watercolours by each piece of picture region Dye task, forms n item rendering tasks, and the rendering task scheduler is rendered according to rendering task queue policies are by n items appoints Business carries out queue according to the corresponding workbench that renders, and the rendering task is sent to the pipe by the rendering task scheduler again N item rendering task rendering tasks are sent to corresponding rendering by node administration by reason node module, the management node module Workbench, described render workbench according to rendering task picture is rendered；Described render workbench and will render complete Picture be sent to the rendering task scheduler, the rendering task scheduler renders the picture for completing according to picture to n Integrated strategy is carried out being integrally formed a totality and renders the picture for completing；The rendering task scheduler will render the picture for completing It is sent to the storage center server to be stored, the storage center server forms text with some work stations that render Part is shared；The efficient rendering intent of the 3 d effect graph that should be rendered based on high in the clouds can be accelerated speed in the case of former rendering data is constant and be schemed Piece renders process, and render time when minimizing is rendered for the picture of each layout structure accelerates the transmission for rendering picture Speed, user can be carried out personalized designs and render rear seamless integration with the distribution of each task to the picture that renders of oneself.

Simultaneously, it should be appreciated that these are only the preferred embodiments of the present invention, it is impossible to therefore limit the patent of the present invention Scope, equivalent structure or equivalent implementation method that every utilization description of the invention and accompanying drawing content are made, or directly or indirectly Other related technical fields are used in, are included within the scope of the present invention.

Claims (7)

1. the efficient rendering intent of a kind of 3 d effect graph rendered based on high in the clouds, it is characterised in that：Terminal, data are provided Exchange tool, rendering task scheduler and storage center server and some render work station, the terminal with described Data exchange tool connects, and the data exchange tool is connected with the rendering task scheduler, the rendering task scheduler Be connected with the management node module, the storage center server and rendering task scheduler, the management node module with Described render workbench connection, the efficient rendering intent of the 3 d effect graph rendered based on high in the clouds is comprised the following steps：

S1, the Size Dwelling Design module design house type scheme, and send rendering task image data to the data exchange pipe Rendering task data is activation is given the rendering task scheduler by reason module, the data exchange management module；

S2, the rendering task scheduler receive the rendering task image data and by the rendering task image data Picture to be rendered is divided into n blocks picture region and specifies by each piece of picture region according to picture allocation strategy and renders accordingly Task, forms n item rendering tasks, and the rendering task scheduler is according to rendering task queue policies by described for n items rendering task Queue is carried out according to the corresponding workbench that renders, the rendering task is sent to the management by the rendering task scheduler again N item rendering tasks rendering task is sent to by node administration and corresponding renders work by node module, the management node module Make platform, described render workbench according to rendering task picture is rendered；

S3, described render workbench and will render the picture that completes be sent to the rendering task scheduler, the rendering task is adjusted Degree device renders the picture for completing to n to carry out being integrally formed a totality according to picture integrated strategy and renders the picture for completing；

S4, the rendering task scheduler will render the picture that completes and be sent to the storage center server and stored, institute State storage center server file-sharing is formed with some work stations that render；

Wherein, the rendering task scheduler is configured with picture allocation strategy, picture integrated strategy and rendering task queue policies.

2. the efficient rendering intent of the 3 d effect graph rendered based on high in the clouds according to claim 1, it is characterised in that：Described Rendering task scheduler includes rendering data receiver module, rendering data sending module, memory module, renders processing module and number According to queue management module,

Step S2 realizes that step includes：

The rendering data receiver module receives the rendering task image data and sends the rendering task image data Processing module is rendered to described, the processing module that renders receives the rendering task image data and by the rendering task figure Picture to be rendered in sheet data is divided into n blocks picture region according to picture allocation strategy and specifies by each piece of picture region Corresponding rendering task, forms n item rendering tasks, and described for n items rendering task is sent to the number by the processing module that renders According to queue management module, data queue's management module according to rendering task queue policies to the n items rendering task according to The corresponding workbench that renders carries out queue, and the rendering task is sent to the management node mould by data queue's module again N item rendering tasks rendering task is sent to by node administration and corresponding renders workbench, institute by block, the management node module State and render workbench and picture is rendered according to corresponding rendering task.

3. the efficient rendering intent of the 3 d effect graph rendered based on high in the clouds according to claim 2, it is characterised in that：Described Step S3 realizes that step includes：

Described render workbench and will render the picture that completes be sent to the rendering data receiver module, the rendering data is received Module will render the image data that completes be sent to described render processing module, described render processing module n rendered complete Picture carry out being integrally formed a totality according to picture integrated strategy and render the picture that completes.

4. the efficient rendering intent of the 3 d effect graph rendered based on high in the clouds according to claim 1, it is characterised in that：Described Rendering task queue policies are：Split according to layout structure and image segmentation function pair Size Dwelling Design picture, described image Segmentation function is：

$E=w_1\left(\underset{i=1}{\overset{R}{\Σ}}{\mathrm{\σ}}_i^2\right)+w^2{c}_e$

Wherein：σ²For the gray variance in the i of region, R is cut zone quantity；c_eIt is the bound term relevant with marginal texture；w₁、w₂ For authority credentials,

M and N are the profile side line length of picture region after segmentation；

c_k(k=1 ..., 5) represent 5 kinds of edge penalty items respectively；c₁For local gray level discontinuity system Number, c₂For the fineness system of edge contour, c₃For the smooth property coefficient of edge contour, c₄Connectedness system for edge contour Number, c₅For marginal point number system number.

5., according to the efficient rendering intent of the arbitrary described 3 d effect graph rendered based on high in the clouds of Claims 1-4, its feature exists In：The management node module drives strategy and state change to drive strategy to appoint to rendering according to periodic harvest strategy, order Business is allocated, and the periodic harvest strategy includes：Per cycle at regular intervals, each node to other node reports most Near loading condition；The periodic harvest strategy includes：According to the state of system, when node becomes sending node or receives section Request is sent to other nodes during point；The state change drives strategy to include：Change over time, node is in system load The status information of oneself is issued when state changes.

6., according to the efficient rendering intent of the arbitrary described 3 d effect graph rendered based on high in the clouds of Claims 1-4, its feature exists In：Also provide and the management node module and render the dispatching management module that work station is connected, the management node module bag Include monitoring load information elements and the monitoring load information elements closed loop connection renewal load information elements and described more The transmission load information elements of new load information elements connection, information of the monitoring load information elements to rendering task node It is monitored and the information of monitoring is timely transmitted to the renewal load information elements, the renewal load information elements is to wash with watercolours The information of dye task node is upgraded in time and the information of renewal is fed back to the monitoring load information elements in time, described Update load information elements and the information of the rendering task node of renewal is sent to the transmission load information elements, the transmission The rendering task nodal information for updating is sent the dispatching management module by load information elements.

7. the efficient rendering intent of the 3 d effect graph rendered based on high in the clouds according to claim 6, it is characterised in that：Described Dispatching management module includes load queued units and the load of balanced load unit and the balanced load unit connection The rendering task nodal information of renewal is sent to by the load collector unit of queued units connection, the transmission load information elements The load collector unit, it is single that the rendering task nodal information of collection is sent to the load queuing by the load collector unit Unit ranks, and the rendering task nodal information for passing through process of queuing up is sent the balanced load by the load queued units again Unit carries out mission bit stream balance, and the rendering task after information balance is sent to corresponding institute by the balanced load unit again State rendering platform.