CN110569100A - Transition animation playing control system - Google Patents

Abstract

the invention relates to the technical field of engineering project visualization, in particular to a transitional animation playing control system, which comprises: the engineering map preloading module is used for preloading high-grade engineering map display information when an engineering information viewing instruction is obtained; the playing time calculation module is used for extracting the preloading progress of the preloaded high-grade engineering map display information when the engineering map amplification instruction is obtained, calculating and generating the residual time required for loading the high-grade engineering map display information, and then calculating and generating the playing time of the transition animation according to the residual time; and the playing control module is used for acquiring the playing time of the transitional animation and controlling the playing time of the transitional animation according to the playing time of the transitional animation. The invention can dynamically calculate and update the playing time of the transition animation, thereby giving consideration to the display effect and the service efficiency of the transition animation of the system.

Description

Transition animation playing control system

Technical Field

The invention relates to the technical field of engineering project visualization, in particular to a transitional animation playing control system.

Background

With the increasing of national economy, city construction is rapidly advanced, and the method is particularly important for displaying and managing city engineering projects. The traditional engineering project display and management method has the characteristics of information lag, low informatization degree and the like, and restricts the development of the engineering progress management level. And the engineering projects have a lot of technologies, but most of the technologies are based on two-dimensional plane drawings, and the complex construction drawings given by the technologies are difficult to understand for general personnel, so that the understanding of a decision layer and a management layer on the engineering projects is not intuitive.

In order to solve the above problems, the prior art adopts an engineering visualization technology, that is, a three-dimensional model of an engineering project is embedded into an engineering map, and the engineering project is visually displayed in the engineering map. For example, chinese patent publication No. CN104143125A discloses an engineering map display method, which includes: obtaining a display amplification instruction of a user for the displayed first-level engineering map; selecting second-level engineering map data to be displayed from at least one second-level engineering map data according to the display and amplification instruction; and loading the data of the second-level engineering map to be displayed, and displaying the second-level engineering map. According to the scheme, the problem that real-time dynamic loading is needed to compare the requirements of the performance of the equipment is avoided by loading the second-level engineering map data at one time.

However, in the actual use process, a plurality of levels of engineering maps with different scales may be included, and taking an engineering map of a city as an example, the engineering map of a city includes a first-level engineering map capable of summarizing the city, a second-level engineering map (the second-level engineering map is a local enlarged map of the first-level engineering map) displaying each area of the city, a third-level engineering map (the third-level engineering map is a local enlarged map of the second-level engineering map) displaying each street of the city, and a fourth-level engineering map (the fourth-level engineering map is a local enlarged map of the third-level engineering map) capable of displaying a specific engineering. The engineering maps of all levels are added up to dozens of maps or even hundreds of maps, and if the method of loading all the engineering map display information at one time is adopted, a large amount of useless memory is occupied, so that the system operation speed is low.

therefore, in the prior art, the loading mode of the engineering map is "loading on demand", that is, the engineering map (overview map) of one level is displayed first, and the system loads the display information of the engineering map of the next level and the like only after the user inputs the zoom-in instruction according to the need. When the low-level engineering map is switched to the high-level engineering map, the process for loading the display information of the engineering map is called a transition period, the transition period is a display blank period (without display content), and transition animation is inserted into the transition period in order to improve the overall display effect.

The playing time of the transition animation is related to the loading time of the next level of the engineering map display information, namely the playing time of the transition animation is obtained by adding the loading time of the engineering map display information to the preset buffering time (the buffering time is used as insurance time). In the actual use process, the loading time of the engineering map display information is related to the operation processing capacity of the system, namely the stronger the operation processing capacity of the system is, the shorter the loading time of the transition animation is, which means that the loading time of the transition animation in the same system is basically constant, and the preset buffer time is a constant value, so that the playing time of the transition animation is always long, and although the display effect of the transition animation of the system can be ensured, the service efficiency of the system is influenced by the transition animation with the too long playing time.

Disclosure of Invention

Aiming at the defects of the prior art, the technical problems to be solved by the invention are as follows: how to provide a transition animation playing control system capable of dynamically calculating and updating the playing time of the transition animation so as to take the transition animation display effect and the service efficiency of the system into consideration.

in order to solve the technical problems, the invention adopts the following technical scheme:

a transitional animation playback control system comprising:

The system comprises an engineering map preloading module, a map display module and a map display module, wherein the engineering map preloading module is used for preloading high-grade engineering map display information when an engineering information viewing instruction is obtained, and the high-grade engineering map display information refers to engineering map display information with one grade higher than a current engineering map;

The playing time calculation module is used for extracting the preloading progress of the preloaded high-grade engineering map display information when the engineering map amplification instruction is obtained, calculating and generating the residual time required for loading the high-grade engineering map display information, and then calculating and generating the playing time of the transition animation according to the residual time;

And the playing control module is used for acquiring the playing time of the transitional animation and controlling the playing time of the transitional animation according to the playing time of the transitional animation.

In the scheme, the engineering map preloading module can preload the engineering map of the next level when a user checks the engineering information, so that the loading time of the engineering map can be shortened when the user amplifies the engineering map (really loads the engineering map of the next level); the playing time calculation module can calculate the remaining time for loading the engineering map according to the preloading progress of the engineering map of the next level, and then calculate the playing time of the transitional animation according to the remaining time; and finally, the playing control module controls the playing time of the transitional animation. In the scheme, the playing time of the transition animation can be dynamically calculated according to the preloading progress, so that the playing time of the transition animation can be dynamically adjusted by the system, namely, the playing time of the transition animation is shortened as much as possible on the premise of ensuring the display effect of the transition animation, and the service efficiency of the system is improved. Therefore, the transition animation playing control system can dynamically calculate and update the playing time of the transition animation, and therefore the transition animation display effect and the service efficiency of the system can be considered.

Preferably, in the playing control module, first the playing time of the transition animation is obtained, then the pre-stored playing information of the transition animation with the playing time being the same as the playing time of the transition animation is called, and finally the transition animation in the playing information of the transition animation is played.

Therefore, the playing control module can call the playing information of the transitional animation with the playing time same as the playing time of the transitional animation, and the display effect of the transitional animation can be ensured through the playing information of the transitional animation.

preferably, in the play control module: firstly, obtaining the playing time of the transition animation, then calling the pre-stored playing information of the transition animation, and adjusting the playing speed of the transition animation in the playing information of the transition animation, so that the playing time of the transition animation in the playing information of the transition animation is the same as the playing time of the transition animation, and finally, the transition animation in the playing information of the transition animation.

Therefore, the playing control module can adjust the playing speed of the transition animation in the playing information of the transition animation, so that the display effect of the transition animation can be ensured.

Preferably, in the engineering map preloading module, an engineering information viewing instruction is firstly obtained, and the engineering information viewing instruction comprises an engineering information viewing position and a current engineering map grade; then loading high-grade engineering map display information with the engineering information viewing position as an engineering map center, wherein the high-grade engineering map display information refers to engineering map display information with one grade higher than the current engineering map; and finally, generating the preloading progress information of the high-grade engineering map display information in real time according to the loading completion degree of the high-grade engineering map display information.

Therefore, when the user views the engineering information, the engineering map preloading module preloads the engineering map display information of the next level, and after the user views the engineering information, the user may need to continuously research the engineering, so that the engineering map needs to be amplified to view more engineering details, and the service efficiency of the system can be effectively improved through the preloading of the engineering map.

Preferably, in the playing time calculation module, an engineering map amplification instruction and an engineering information viewing instruction are firstly acquired, wherein the engineering map amplification instruction comprises an engineering map amplification position and a current engineering map grade; and then judging whether the engineering map amplification position is the same as the engineering information checking position in the engineering information checking instruction, if so: extracting the preloading progress information of the display information of the high-level engineering map, calculating the residual time required for loading the display information of the high-level engineering map, and finally calculating the playing time of the generated transition animation according to the residual time and the preset buffer time; if not: and calculating the loading time required for loading the display information of the engineering map which takes the amplified position of the engineering map as the center of the engineering map and has a grade higher than the grade of the current engineering map by one grade according to the current network condition, and finally calculating the playing time of the generated transition animation according to the loading time and the preset buffering time.

the playing time calculation module in the scheme firstly judges whether the position (project) which needs to be enlarged by the user is the position (project) which is checked in advance when the user enlarges the project map, if so: continuing to load the engineering map display information on the basis of preloading, so that the loading time of the engineering map display information is shorter, the playing time of the transitional animation can be shortened, and if not: the display information of the engineering map is loaded normally, and the playing time of the transition animation is unchanged. Therefore, dynamic calculation and updating of the playing time of the transitional animation are achieved, the playing time of the transitional animation is inversely proportional to the time of a user for checking the engineering information, namely the longer the time of the user for checking the engineering information is, the shorter the playing time of the transitional animation is (the playing time is equal to the buffer time after the engineering map is loaded), and the display effect and the service efficiency of the transitional animation of the system can be considered in an auxiliary mode.

Preferably, the transition animation playback control system further includes:

The system comprises an engineering map loading module, a display module and a display module, wherein the engineering map loading module is used for acquiring an engineering map amplification instruction and an engineering information viewing instruction, and the engineering map amplification instruction comprises an engineering map amplification position and a current engineering map grade; and then judging whether the engineering map amplification position is the same as the engineering information checking position in the engineering information checking instruction, if so: extracting the preloading progress information of the high-grade engineering map display information, and continuously loading the high-grade engineering map display information until complete high-grade engineering map display information is generated; if not: loading the engineering map display information which takes the enlarged position of the engineering map as the center of the engineering map and has a grade higher than the grade of the current engineering map by one grade.

in this scheme, engineering map loading module can judge at first whether user need enlarge position (engineering) for the position (engineering) that look over before when loading next grade engineering map, if: continuing to load the engineering map display information on the basis of preloading, so that the loading time of the engineering map display information is shorter, and if not: the engineering map display information is loaded normally. Therefore, when the project checked by the user is the same as the project needing to be amplified, the loading time of the project map can be effectively shortened, the switching speed of the project map can be increased, and the service efficiency of the system can be effectively improved.

Preferably, the transition animation playback control system further includes:

the temporary storage module of the engineering map is used for acquiring and storing the displayed or displaying information of the engineering map;

The system comprises an engineering map extraction module, a map search module and a map search module, wherein the engineering map extraction module is used for acquiring an engineering map reduction instruction, and the engineering map reduction instruction comprises an engineering map reduction position and a current engineering map grade; and extracting the engineering map display information which takes the reduced position of the engineering map as the center of the engineering map and has a grade lower than that of the current engineering map by one grade from the temporary storage module of the engineering map.

Therefore, the displayed or displaying information of the engineering map is stored, when a user needs to reduce the engineering map (return to the upper-level engineering map), reloading is not needed, and the engineering map is extracted from the temporary engineering map storage module, so that the engineering map can be switched seamlessly (without a loading process), and the service efficiency of the system can be effectively improved.

Preferably, the transition animation playback control system further includes:

And the engineering information checking module is used for inputting an engineering information checking instruction by a user, wherein the engineering information checking instruction comprises an engineering information checking position and the current engineering map grade.

Therefore, the user can check the engineering information of the corresponding engineering by inputting the engineering information checking instruction, so that the user can acquire the engineering information as required, and the use experience of the user is improved.

Preferably, the transition animation playback control system further includes:

The engineering map switching module is used for inputting an engineering map switching instruction by a user, wherein the engineering map switching instruction comprises an engineering map magnifying instruction and an engineering map reducing instruction; the engineering map amplifying instruction comprises an engineering map amplifying position and a current engineering map grade; the engineering map reduction instruction comprises an engineering map reduction position and a current engineering map grade.

Therefore, the user can switch to the corresponding engineering map by inputting the engineering map switching instruction, so that the user can acquire information as required, and the use experience of the user is improved.

Drawings

for purposes of promoting a better understanding of the objects, aspects and advantages of the invention, reference will now be made in detail to the present invention as illustrated in the accompanying drawings, in which:

FIG. 1 is a logic block diagram of a transitional animation playback control system in an embodiment.

Detailed Description

The following is further detailed by the specific embodiments:

Example (b):

the embodiment discloses a transition animation playing control system.

as shown in fig. 1: a transition animation playing control system comprises an operation display terminal and a server, wherein the operation display terminal is connected with the server through an existing wireless communication module in a network mode.

Specifically, the method comprises the following steps:

operation display terminal

The operation display terminal is an existing tablet computer and comprises a touch display screen for displaying and operating.

An operation display terminal comprising:

and the engineering information checking module is used for inputting an engineering information checking instruction by a user and sending the engineering information checking instruction to the server. The project information viewing instruction comprises a project information viewing position and a current project map grade. In this embodiment, the engineering information viewing instruction may be input by clicking or long-pressing the touch screen.

And the engineering map switching module is used for inputting an engineering map switching instruction by a user and sending the engineering map switching instruction to the server. The engineering map switching instruction comprises an engineering map zooming instruction and an engineering map zooming instruction; the engineering map amplifying instruction comprises an engineering map amplifying position and a current engineering map grade; the engineering map reduction instruction comprises an engineering map reduction position and a current engineering map grade. In this embodiment, the engineering map switching instruction may be input by double-clicking the touch display screen.

And the engineering map display module is used for receiving the engineering map display information sent by the server and displaying the corresponding engineering map according to the engineering map display information.

And the engineering information display module is used for receiving the engineering information display information sent by the server and displaying the corresponding engineering information according to the engineering information display information.

And the playing control module is used for acquiring the playing time of the transitional animation and controlling the playing time of the transitional animation according to the playing time of the transitional animation.

in a specific implementation process, the playing control module firstly obtains the playing time of the transition animation, then calls the pre-stored playing information of the transition animation with the playing time same as the playing time of the transition animation from the storage module, and finally plays the transition animation in the playing information of the transition animation.

In a specific implementation process, the play control module comprises: firstly, acquiring the playing time of a transition animation, calling prestored transition animation playing information with fixed playing time from a storage module, and adjusting the playing speed of the transition animation in the transition animation playing information to ensure that the playing time of the transition animation in the transition animation playing information is the same as the playing time of the transition animation; and finally, playing the transition animation in the information by the transition animation.

Second, server

The server is a tower server.

a server, comprising:

The storage module is used for receiving and storing an engineering information viewing instruction and an engineering map switching instruction which are sent by the operation display terminal, and is also used for storing transitional animation playing information with fixed playing time length and transitional animation playing information with each playing time length; and the engineering map display information of each grade and the engineering information display information of each engineering are also stored.

The system comprises an engineering map pre-loading module and a map display module, wherein the engineering map pre-loading module is used for pre-loading high-grade engineering map display information when an engineering information viewing instruction is obtained, and the high-grade engineering map display information refers to engineering map display information with one grade higher than the current engineering map.

In a specific implementation process, in the engineering map preloading module, an engineering information viewing instruction is firstly obtained, wherein the engineering information viewing instruction comprises an engineering information viewing position and a current engineering map grade; then loading high-grade engineering map display information with the engineering information viewing position as an engineering map center, wherein the high-grade engineering map display information refers to engineering map display information with one grade higher than the current engineering map; and finally, generating the preloading progress information of the high-grade engineering map display information in real time according to the loading completion degree of the high-grade engineering map display information.

And the playing time calculation module is used for extracting the preloading progress of the preloaded high-grade engineering map display information when the engineering map amplification instruction is obtained, calculating and generating the residual time required by loading the high-grade engineering map display information, and then calculating and generating the playing time of the transition animation according to the residual time.

In a specific implementation process, in the playing time calculation module, an engineering map amplification instruction and an engineering information viewing instruction are firstly acquired, wherein the engineering map amplification instruction comprises an engineering map amplification position and a current engineering map grade; and then judging whether the engineering map amplification position is the same as the engineering information checking position in the engineering information checking instruction, if so: extracting the preloading progress information of the display information of the high-level engineering map, calculating the residual time required for loading the display information of the high-level engineering map, and finally calculating the playing time of the generated transition animation according to the residual time and the preset buffer time; if not: and calculating the loading time required for loading the display information of the engineering map which takes the amplified position of the engineering map as the center of the engineering map and has a grade higher than the grade of the current engineering map by one grade according to the current network condition, and finally calculating the playing time of the generated transition animation according to the loading time and the preset buffering time.

the system comprises an engineering map loading module, a display module and a display module, wherein the engineering map loading module is used for acquiring an engineering map amplification instruction and an engineering information viewing instruction, and the engineering map amplification instruction comprises an engineering map amplification position and a current engineering map grade; and then judging whether the engineering map amplification position is the same as the engineering information checking position in the engineering information checking instruction, if so: extracting the preloading progress information of the high-grade engineering map display information, and continuously loading the high-grade engineering map display information until complete high-grade engineering map display information is generated; if not: loading engineering map display information which takes the amplified position of the engineering map as the center of the engineering map and has a grade higher than that of the current engineering map by one grade; and transmitting the loaded engineering map display information to the operation display terminal.

And the temporary storage module of the engineering map is used for acquiring and storing the displayed or displaying information of the engineering map.

The system comprises an engineering map extraction module, a map search module and a map search module, wherein the engineering map extraction module is used for acquiring an engineering map reduction instruction, and the engineering map reduction instruction comprises an engineering map reduction position and a current engineering map grade; and extracting the engineering map display information which takes the reduced position of the engineering map as the center of the engineering map and has a grade lower than that of the current engineering map by one grade from the engineering map temporary storage module, and sending the extracted engineering map display information to the operation display terminal.

The engineering information loading module is used for acquiring an engineering information viewing instruction, and the engineering information viewing instruction comprises an engineering information viewing position; and then loading the engineering information display information of the engineering corresponding to the engineering information viewing position from the storage module, and sending the loaded engineering information display information to the operation display terminal.

the foregoing is merely an example of the present invention, and common general knowledge in the field of known specific structures and characteristics is not described herein in any greater extent than that known in the art at the filing date or prior to the priority date of the application, so that those skilled in the art can now appreciate that all of the above-described techniques in this field and have the ability to apply routine experimentation before this date can be combined with one or more of the present teachings to complete and implement the present invention, and that certain typical known structures or known methods do not pose any impediments to the implementation of the present invention by those skilled in the art. It should be noted that, for those skilled in the art, without departing from the structure of the present invention, several changes and modifications can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent. The scope of the claims of the present application shall be determined by the contents of the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.

Claims (9)

1. A transitional animation playback control system, comprising:

the system comprises an engineering map preloading module, a map display module and a map display module, wherein the engineering map preloading module is used for preloading high-grade engineering map display information when an engineering information viewing instruction is obtained, and the high-grade engineering map display information refers to engineering map display information with one grade higher than a current engineering map;

the playing time calculation module is used for extracting the preloading progress of the preloaded high-grade engineering map display information when the engineering map amplification instruction is obtained, calculating and generating the residual time required for loading the high-grade engineering map display information, and then calculating and generating the playing time of the transition animation according to the residual time;

And the playing control module is used for acquiring the playing time of the transitional animation and controlling the playing time of the transitional animation according to the playing time of the transitional animation.

2. The transitional animation playback control system as claimed in claim 1, wherein: in the playing control module, firstly, the playing time of the transition animation is obtained, then the pre-stored playing information of the transition animation with the playing time same as that of the transition animation is called, and finally the transition animation in the playing information of the transition animation is played.

3. the transitional animation playback control system as claimed in claim 1, wherein: the play control module is provided with: firstly, obtaining the playing time of the transition animation, then calling the pre-stored transition animation playing information with fixed playing time, and adjusting the playing speed of the transition animation in the transition animation playing information, so that the playing time of the transition animation in the transition animation playing information is the same as the playing time of the transition animation, and finally, the transition animation in the transition animation playing information.

4. The transitional animation playback control system as claimed in claim 1, wherein: in the engineering map preloading module, firstly, an engineering information viewing instruction is obtained, wherein the engineering information viewing instruction comprises an engineering information viewing position and a current engineering map grade; then loading high-grade engineering map display information with the engineering information viewing position as an engineering map center, wherein the high-grade engineering map display information refers to engineering map display information with one grade higher than the current engineering map; and finally, generating the preloading progress information of the high-grade engineering map display information in real time according to the loading completion degree of the high-grade engineering map display information.

5. The transitional animation playback control system as claimed in claim 4, wherein: in the playing time calculation module, an engineering map amplification instruction and an engineering information viewing instruction are firstly acquired, wherein the engineering map amplification instruction comprises an engineering map amplification position and a current engineering map grade; and then judging whether the engineering map amplification position is the same as the engineering information checking position in the engineering information checking instruction, if so: extracting the preloading progress information of the display information of the high-level engineering map, calculating the residual time required for loading the display information of the high-level engineering map, and finally calculating the playing time of the generated transition animation according to the residual time and the preset buffer time; if not: and calculating the loading time required for loading the display information of the engineering map which takes the amplified position of the engineering map as the center of the engineering map and has a grade higher than the grade of the current engineering map by one grade according to the current network condition, and finally calculating the playing time of the generated transition animation according to the loading time and the preset buffering time.

6. the transitional animation playback control system as claimed in claim 5, further comprising:

the system comprises an engineering map loading module, a display module and a display module, wherein the engineering map loading module is used for acquiring an engineering map amplification instruction and an engineering information viewing instruction, and the engineering map amplification instruction comprises an engineering map amplification position and a current engineering map grade; and then judging whether the engineering map amplification position is the same as the engineering information checking position in the engineering information checking instruction, if so: extracting the preloading progress information of the high-grade engineering map display information, and continuously loading the high-grade engineering map display information until complete high-grade engineering map display information is generated; if not: loading the engineering map display information which takes the enlarged position of the engineering map as the center of the engineering map and has a grade higher than the grade of the current engineering map by one grade.

7. The transitional animation playback control system as claimed in claim 6, further comprising:

The temporary storage module of the engineering map is used for acquiring and storing the displayed or displaying information of the engineering map;

The system comprises an engineering map extraction module, a map search module and a map search module, wherein the engineering map extraction module is used for acquiring an engineering map reduction instruction, and the engineering map reduction instruction comprises an engineering map reduction position and a current engineering map grade; and extracting the engineering map display information which takes the reduced position of the engineering map as the center of the engineering map and has a grade lower than that of the current engineering map by one grade from the temporary storage module of the engineering map.

8. the transitional animation playback control system as claimed in claim 7, further comprising:

And the engineering information checking module is used for inputting an engineering information checking instruction by a user, wherein the engineering information checking instruction comprises an engineering information checking position and the current engineering map grade.

9. The transitional animation playback control system as claimed in claim 8, further comprising:

The engineering map switching module is used for inputting an engineering map switching instruction by a user, wherein the engineering map switching instruction comprises an engineering map magnifying instruction and an engineering map reducing instruction; the engineering map amplifying instruction comprises an engineering map amplifying position and a current engineering map grade; the engineering map reduction instruction comprises an engineering map reduction position and a current engineering map grade.