JP2001306449A - Method and system for distributing data - Google Patents

Abstract

PROBLEM TO BE SOLVED: To transmit data, especially three-dimensional data, by lightening the data corresponding to a data distribution rate between a data distribution system and a terminal or the data throughput of the terminal. SOLUTION: The system for distributing data stored in a data storage part 20 to respective terminals is provided with a data request receiving part 31 for receiving data requests from terminals 5a, 5b, a terminal discrimination part 32 for discriminating the sort of a terminal outputting a data request or a data distribution environment to the terminal, a data lightening part 33 for fetching data corresponding to the data request from the storage part 20 and lightening the data in accordance with the discriminated result of the discrimination part 32, and a data transmission part 34 for transmitting the lightened data to the terminal.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to, for example, a data distribution system or a data distribution system for distributing data from a server to a client terminal. And a data distribution system for reducing the weight of the data.

[0002]

2. Description of the Related Art In recent years, in the field of Web contents on the Internet, the amount of information available to users has expanded to an enormous amount, and the format of information is also limited to text, images, videos, audios, and three-dimensional graphics. The difference is increasing.

On the other hand, a system for handling various types of data in various environments has not been developed yet. In particular, it is expected that a system capable of easily handling three-dimensional CAD data in various environments in the field of engineering will be realized. Have been.

[0004] That is, terminals on the information receiving side connected to the Internet are various from high-performance computers for business use to personal computers and mobile phones.
The connection environment also varies widely, such as digital lines, analog lines, and wireless lines. Despite this, in the conventional data distribution, data of the same size is transmitted when a data request is received from the terminal device.

[0005]

However, the amount of three-dimensional shape data is enormous, and it is not practical to transmit the three-dimensional shape data to a user terminal without any processing.

[0006] The present invention has been made in view of such circumstances, and reduces the weight of data, particularly three-dimensional shape data, in accordance with the data distribution rate with the terminal and the processing capability of the terminal data. An object of the present invention is to provide a data transmission system and a data transmission system that can transmit data.

[0007]

According to a first main aspect of the present invention, there is provided a system for distributing data stored in a data storage unit to a terminal. A data request receiving step of receiving a request, a terminal determining step of determining a type of a terminal that has made a data request or a data distribution environment to this terminal, and extracting data corresponding to the data request from a data storage unit, And a data transmission step of transmitting the reduced data to the terminal in accordance with the result of the determination.

According to such a configuration, for example, when distributing various digital contents to a terminal such as a mobile phone or a personal computer through the Internet, it depends on the data distribution rate between the terminal and the terminal and the processing capability of the terminal data. Thus, the data can be reduced in weight and transmitted.
This has the effect that data can be reliably and quickly delivered to terminals.

According to one embodiment, the data stored in the data storage unit includes three-dimensional shape data. In this case, the lightening step includes converting the three-dimensional shape data into a two-dimensional image. It is preferable to include a two-dimensional lightening step of converting the data into data, and a curve modeling lightening step of converting the three-dimensional shape data into curve model data. In this case, the two-dimensional lightening step is performed when the three-dimensional shape data cannot be displayed due to the type of the terminal or the data distribution environment.

According to such a configuration, three-dimensional shape data having a particularly large data amount can be effectively reduced in weight.

According to one embodiment, the two-dimensional lightening step creates a two-dimensional image when the three-dimensional shape arranged in a three-dimensional space is viewed from a certain position, and converts the image into the two-dimensional image. The adjustment is made according to the display resolution of the terminal. According to one embodiment, the curve-modeling / light-weighting step includes a step of reducing a data amount by simplifying a shape described by the curve model data to an extent that there is no problem in display. Including.

According to such a configuration, the data amount and weight can be reduced more effectively.

According to one embodiment, the curve modeling / lightening step calculates lattice polygon data based on the three-dimensional shape data and rounding information to be added to the lattice polygon data. And outputting the data together with the rounding information to reduce the amount of data.

According to such a weight reduction method, for example, I
In the case of three-dimensional shape data expressed in the GES format, the data amount can be reduced to about 1/100.

[0015] According to a second main aspect of the present invention, there is provided a method for distributing data stored in a data storage unit to a terminal. Or, a data request receiving step of receiving a data request from a terminal, a data request receiving step of receiving a data request from the terminal, and a type of the data requesting terminal or data to the terminal. A data distribution method is provided, comprising: a terminal determination step of determining a distribution environment; and a data transmission step of extracting lightened data from a data storage unit in accordance with the determination result and transmitting the data to the terminal.

According to such a configuration, in response to a data distribution request from a user, it is possible to distribute weight-reducing data according to the type and distribution environment of the requesting terminal.

According to a third main aspect of the present invention, a data storage means for storing data, a data request receiving means for receiving a data request from a terminal, and a type of the terminal or this terminal based on the data request. Terminal determining means for determining a data distribution environment to the server; data responsive to the data request; data fetching means for extracting data from a data storage unit; and lightening the data in accordance with the determination result by the terminal determining means. And a data transmission unit for transmitting the reduced data to the terminal.

According to such a configuration, a distribution system that executes the data distribution system according to the first main aspect can be realized.

According to a fourth main aspect of the present invention, there is provided a system for distributing data stored in a data storage unit to a terminal, wherein the data storage unit stores a predetermined data in a terminal type or a terminal type. And a data request receiving means for receiving a data request from a terminal, and the type of the terminal that has made the data request or the data distribution environment to this terminal. A data distribution system is provided, comprising: a terminal determining means for determining; and data transmitting means for extracting lightening data from a data storage unit in accordance with the determination result and transmitting the data to the terminal.

According to such a configuration, a distribution system that executes the data distribution system according to the third main aspect can be realized.

The other features and remarkable effects of the present invention will be more clearly understood from the following embodiments of the present invention and the accompanying drawings.

[0022]

Embodiments of the present invention will be described below with reference to the drawings.

As shown in FIG. 1, the data distribution system 1 is installed on a Web server 2 connected to the Internet 3. The data distribution system 1 is configured to be able to exchange information with the terminals 5a and 5b of the user 4 via the Internet network 3. The terminals 5a and 5b of the user 4 shown in this figure are a personal computer and a mobile phone, respectively. Here, even if only the mobile phone 5b is used as an example, the data transfer speed is various, and the data display capability is also different. The present invention provides a system capable of reducing the weight of data including the three-dimensional CAD data 6 and distributing the data to the terminals 5a and 5b in accordance with the environment of such a terminal. For this reason, this system is configured as shown in FIG.

(System Configuration) This system 1 comprises a communication router 10, an operator input / output device 11, and a CP.
An information storage unit 15 and a program storage unit 16 are connected to a bus 14 to which U12, RAM 13, and the like are connected.

The information storage unit 15 stores transmission data including at least three-dimensional shape data.
0 and a discrimination table storage unit 21 for discriminating the type and connection environment of the terminal on the receiving side based on the data request received from the terminal, and determining a lightening method for lightening the data.
And a data request log storage unit 23 for storing a data request from the terminal.

The data storage unit 20 stores three-dimensional CAD data as three-dimensional shape data, for example, in the IGES format. As is well known, in the IGES format, a three-dimensional shape is represented by a NURBS (Non Uniform).
m Rational B-Spline) It is expressed by a curve, a curved surface, a trimmed curved surface, etc., and a detailed shape can be expressed.

As shown in FIG. 3, the discrimination table 21 is a list in which, for example, environment information included in a data request from a terminal, a terminal type (connection environment) on the receiving side, and a weight reduction method are associated with each other. Consists of a table. Generally, the environment information includes type information of an OS and a browser of a terminal, and information for identifying a gateway server. Therefore, in this embodiment, the known environment information is stored in the discrimination table 21 in advance in association with the terminal type and the weight reduction method.

Here, the terminal type includes, for example, the type of the terminal itself such as a mobile phone and a PC, as well as the type of communication environment such as an operation system (OS) and a connection line. In general, current mobile phone terminals do not have three-dimensional rendering capability, and data transfer states also vary according to mobile phones and line types. Therefore, a method for reducing the data weight is determined and stored in advance according to the terminal type.

The method of reducing the weight includes, for example, two-dimensionalization and curve modeling. For example, when the terminal type is a mobile phone, two-dimensionalization is selected as a weight saving method.
In the case of a personal computer connected to a digital line, curve modeling is selected as a method for reducing the weight. Note that, even with the same two-dimensionalization or curve modeling, it is necessary to adjust the resolution and simplify the data in accordance with the display capability of the terminal. And so on so that they can be distinguished.

Further, the data request log storage unit 23
A data request from a terminal is stored as a log.

On the other hand, in addition to the main program 30, the program storage section 16 receives a data request from a terminal and stores the data request in the data request log storage section 31 and applies the data request to the discrimination table 21. By doing so, a terminal discriminating unit 32 for discriminating the type of the terminal or a data distribution environment to this terminal, and fetching data corresponding to the data request from the data storage unit 20 according to the discrimination result by the terminal discriminating unit 32 The terminal includes a data lightening unit 33 for reducing the weight of the data and a data transmitting unit 34 for transmitting the lightened data to the terminal.

The data lightening unit 33 includes a two-dimensional lightening unit 36 for converting three-dimensional shape data into two-dimensional image data, and a curve-modeling lightening unit for converting three-dimensional shape data into a curve model. 37. The lightening unit 33 selectively activates one of the two-dimensional lightening unit 36 and the curve modeling lightening unit 37 based on the lightening method determined by the determination table, The data is configured to be lightweight.

Here, the curve modeling lightening unit 37
Has a function of generating a curved surface model that can be interpolated from the three-dimensional contours stored in the data storage unit 20. That is, the curve modeling / lightening unit 37 is, for example, an IG
Three-dimensional shapes described in ES format, STEP format, etc.
By converting to a curve model that can be interpolated with a free-form surface, the amount of data is reduced. And this curve model data is
The data is output together with a display program to be displayed on the user's terminal. The curved surface modeling / lightening unit 33 determines the degree of detail of the curved surface model, that is, the size of the data in accordance with the result of the lightening level discrimination by the discriminating unit 32, and then forms the curved surface model. ing.

The two-dimensional lightening unit 36 creates a two-dimensional image when the three-dimensional shape arranged in the three-dimensional space is viewed from a certain position, and converts this image into a display resolution of the terminal. It has a function to adjust according to the performance.

Each component stored in the program storage unit 16 is called by the CPU 12 on the RAM 13 and executed on a computer system. Hereinafter, a more detailed configuration of each component will be described together with the actual operation of this system.

(System Operation) FIG. 4 is a flowchart showing the operation of the system.

First, in step S1, when a data transmission request is received from the user, the data request receiving unit 31 sets the environment included in the data request depending on the transmission environment of the terminal. The information is taken out and passed to the terminal discriminating unit 32. Here, the environment information added depending on the transmission environment of the terminal includes server information added by the server (gateway server) of the access point and environment variables added by the user's browser. For example, if the user browses the Web using Internet Explorer (trade name) installed on a personal computer using Windows NT as the OS and issues an information request through the browser, the data request receiving unit 31 determines "HTTP_USER_AGENT".
= Mozilla / 4.0 compatible
e; MSIE 5.0; Windows NT (registered trademark); DigExt ". For example, when browsing the Web using a mobile phone, such an environment variable is not added.

Next, in step S2, the terminal discriminating unit 3
2 applies the received environment information to the discrimination table 21, thereby discriminating the terminal type and deciding a data reduction method. In other words, if the user's terminal is a mobile phone or palmtop mobile terminal that does not have a three-dimensional rendering capability, a two-dimensional lightweighting method is selected,
In other cases, a curve modeling and lightening method is selected.

Next, in step S3, the transmission data storage unit 2 is stored based on the weight reduction method determined in step S2.
The three-dimensional data stored in 0 is lightened. This weight reduction is performed by activating the curve modeling weight reduction unit 37 or the two-dimensional weight reduction unit 36 as described above.

Finally, in step S4, the data lightened in step S3 is transmitted to the user's terminals 5a and 5b via the Internet network 3.

According to the above-described configuration, three-dimensional data can be converted, processed, and distributed in consideration of differences in the processing capability and communication rate of the receiving side such as a mobile phone or a personal computer. As a result, there is an effect that multimedia contents including three-dimensional data can be reliably and rapidly delivered via the Internet.

The present invention is not limited to the above-described embodiment, but can be variously modified without changing the gist of the invention.

For example, in the above-described embodiment, the curve modeling / lightening unit 37 simply obtains a curve model for interpolating a three-dimensional shape generated by CAD or the like. However, the present invention is not limited to this. Instead, the weight may be reduced by using XVL.

FIG. 5 is a flow chart showing a weight reduction process based on the XVL. The flowchart will be described. First, based on the data distribution request, three-dimensional shape data to be distributed extracted from the data storage unit 20 is received (step S5). Next, a lattice polygon model is generated based on the three-dimensional surface curved surface (step S6). Then, rounding information is added to the lattice polygon model (step S7).

When the lattice polygon model and the rounding information are generated in this way, each vertex of the curved surface model corresponding to each vertex of the lattice model is calculated (step S8), and each of the lattice model is calculated. A curved edge of the curved surface model corresponding to the edge is calculated (step S9). Then
A curved surface model having the same phase structure as the lattice polygon model is generated by interpolating the model surrounded by the ridge line with a Gray curved surface (step S10).
Then, the rounding information is corrected by comparing the curved surface model with the original three-dimensional shape (step S11). The data composed of the lattice polygon model data and the rounding information is stored in an XVL (extensible virtual w
old description Language)
Called data.

This XVL data is obtained at step S12.
The lattice polygon model is output as transmission data together with a rounding operation program for expressing a three-dimensional shape by performing a rounding operation based on the rounding information. The rounding operation program is preferably distributed in the form of a Java applet.

Here, the curve-modeling / lightening unit 37 may further reduce the data by simplifying the lattice model so that there is no problem in expression. FIG. 6 shows an example of an IGE showing a shape of a bolt or the like.
It is a table | surface for demonstrating the weight reduction at the time of converting S file into XVL. As can be seen from this table, the weight of the original shape file can be reduced by 100 times or more.

Further, the two-dimensional lightening unit 36 of the embodiment may have a function of generating a two-dimensional image from a different viewpoint, that is, an animation.
In this case, as shown in FIG. 7, first, the two-dimensional lightening unit 36 receives the three-dimensional shape data to be distributed extracted from the data storage unit 20 based on the data distribution request (step S12). S13). Next, the three-dimensional shape is displayed using a plurality of pieces of predetermined viewpoint information, and a snapshot of the displayed shape is generated as an image (step S14). Then, an image that can be animated is generated by associating the images so as to be connected in order (step S15).

In the above-described embodiment, the data weight is reduced based on the data request from the user. However, the present invention is not limited to this. The lightened data may be stored once, and the lightened data may be distributed from the second data request. In addition, as the predetermined three-dimensional shape data, data that has been converted into a curve model may be prepared in advance.

Further, in the above-described embodiment, the data format to be distributed is selected by analyzing the data request from the user. However, the data format is selected based on the intention display or the instruction from the user. A format may be selected. In this embodiment, the three-dimensional shape data having the largest data amount as the data to be reduced has been described as an example. However, two-dimensional shape data, text documents, and other multimedia data such as images are also targeted. Needless to say.

[0051]

As described above, according to the present invention, data, particularly three-dimensional shape data, can be reduced in weight and transmitted in accordance with the data distribution rate with the terminal and the processing capacity of the terminal data.

[Brief description of the drawings]

FIG. 1 is a schematic configuration diagram showing an embodiment of the present invention.

FIG. 2 is also a system configuration diagram.

FIG. 3 is a diagram showing a discrimination table.

FIG. 4 is a flowchart showing a processing procedure.

FIG. 5 is a flowchart showing another embodiment of the present invention.

FIG. 6 is a table showing the effect of weight reduction.

FIG. 7 is a flowchart showing another embodiment of the present invention.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 ... System 2 ... Server 3 ... Internet network 4 ... User 5a, 5b ... Terminal 6 ... CAD data 10 ... Router 11 ... Input / output device 12 ... CPU 13 ... RAM 14 ... Bus 15 ... Information storage part 16 ... Program storage part Reference Signs List 20 transmission data storage unit 21 determination table storage unit 23 data request log storage unit 30 main program 31 data request reception unit 32 terminal determination unit 33 data reduction unit 34 data transmission unit 36 two-dimensionalization Lightening part 37 ... Curve modeling lightening part

Claims (18)

[Claims] 1. A method for distributing data stored in a data storage unit to a terminal, comprising: a data request receiving step of receiving a data request from the terminal; a type of the terminal requesting the data or a data distribution environment to the terminal. A data discriminating step of retrieving data corresponding to the data request from a data storage unit, and reducing the weight of the data according to the discrimination result of the terminal discriminating step. And a data transmission step of transmitting the data to the terminal. 2. The data distribution method according to claim 1, wherein the data stored in the data storage unit includes three-dimensional shape data. 3. The data distribution method according to claim 2, wherein the lightening step includes: a two-dimensional lightening step of converting the three-dimensional shape data into two-dimensional image data; And a curve model weight reduction step of converting the data into curve model data. 4. The data distribution method according to claim 3, wherein the weight reduction step is performed when it is determined that the three-dimensional shape data cannot be distributed depending on the type of the terminal or the data distribution environment. A data distribution method. 5. The data distribution method according to claim 3, wherein the two-dimensional lightening step creates a two-dimensional image when the three-dimensional shape arranged in a three-dimensional space is viewed from a certain viewpoint, A data distribution method for adjusting the image according to the processing capability of the terminal. 6. The data distribution method according to claim 5, wherein the two-dimensional lightening step includes a step of generating a moving image by generating a plurality of two-dimensional images having different viewpoints and associating them. A data distribution method comprising: 7. The data distribution method according to claim 3, wherein the curve modeling and weight saving step comprises: simplifying a shape described by the curve model data to a level that does not cause a display problem. A data distribution method, comprising the step of reducing the number of data transmissions. 8. The data distribution method according to claim 3, wherein the curve modeling and weight reduction step calculates grid polygon data and rounding information to be added to the grid polygon data based on the three-dimensional shape data. Converting the data into XVL data comprising the lattice polygon data and the rounding information to reduce the data amount. 9. A method for distributing data stored in a data storage unit to a terminal, wherein the data storage unit reduces weight of predetermined data according to a terminal type or a data distribution environment to the terminal. A data request receiving step of receiving a data request from a terminal; a terminal determining step of determining a type of a terminal that has made the data request or a data distribution environment to the terminal; A data transmitting step of extracting lightening data from the data storage unit in accordance with the data transmission method and transmitting the lightened data to the terminal. 10. A system for distributing data stored in a data storage unit to a terminal, comprising: a data request accepting unit for accepting a data request from the terminal; a type of the terminal requesting the data or a data distribution environment to the terminal. A data discriminating means for discriminating the data, a data corresponding to the data request is taken out of a data storage unit, and the data is reduced according to the discrimination result of the terminal discriminating means. And a data transmission means for transmitting the data to the terminal. 11. The data distribution system according to claim 10, wherein the data stored in the data storage unit includes three-dimensional shape data. 12. The data distribution system according to claim 11, wherein the lightening means comprises: a two-dimensional lightening means for converting the three-dimensional shape data into two-dimensional image data; A data reduction system comprising: a curve modeling and weight reduction means for converting the data into curve model data. 13. The data distribution system according to claim 11, wherein the weight reduction unit determines that the three-dimensional shape data cannot be distributed according to the type of the terminal or the data distribution environment. A data distribution system characterized in that a data distribution system is executed. 14. The data distribution system according to claim 12, wherein the two-dimensional lightening unit creates a two-dimensional image when the three-dimensional shape arranged in a three-dimensional space is viewed from a certain viewpoint, A data distribution system for adjusting the image according to the processing capability of the terminal. 15. The data distribution system according to claim 14, wherein the two-dimensional lightening unit generates a moving image by generating a plurality of two-dimensional images having different viewpoints and associating them. A data distribution system comprising: 16. The data distribution system according to claim 12, wherein said curve-modeling / lightening means simplifies the shape described by said curve-model data to such a degree that there is no problem in display, thereby reducing a data amount. A data distribution system characterized by including means for reducing the cost. 17. The data distribution system according to claim 12, wherein the curve-modeling / lightening unit calculates lattice polygon data and rounding information to be added to the lattice polygon data, based on the three-dimensional shape data. A data distribution system including means for reducing the amount of data by converting the data into XVL data including the lattice polygon data and the rounding information. 18. A system for distributing data stored in a data storage unit to a terminal, wherein the data storage unit reduces the weight of predetermined data according to the type of the terminal or an environment for distributing data to the terminal. Data request receiving means for receiving a data request from a terminal, terminal determining means for determining the type of the terminal that has made the data request or a data distribution environment to this terminal, and the determination result And a data transmitting unit for extracting the lightened data from the data storage unit in accordance with the data transmission unit and transmitting the data to the terminal.