JP2005020269A - Information distribution system, information distribution server, and information distribution program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To prevent the increase in the processing load and network load on an information distribution server even when the number of terminals connected to a network increases. <P>SOLUTION: In an information distribution system 100, the information distribution server 10 is configured to stream-distribute distribution information 102 including a moving picture to a plurality of terminals 20a, 20b connected to a LAN 5. The information distribution server 10 is configured to sequentially transmit the distribution information 102 in time series to the LAN 5 without the need for establishing separat connection states to the plurality of terminals 20a, 20b, respectively, when stream-distributing the distribution information 102. For example, the information distribution server 10 starts one distribution module 111 to transmit to the LAN 5 the distribution information 102 to be transmitted to the terminals 20a, 20b. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a distribution technique for distributing distribution information including moving images to a plurality of terminal devices connected to a network.
[0002]
[Prior art]
Conventionally, when distributing distribution information including a moving image to a plurality of terminal devices connected to a network from an information distribution server via a network such as a LAN (local area network), the information distribution server and a plurality of Each terminal device individually establishes a one-to-one session connection, and the information distribution server designates an address for each terminal device individually in response to a request from each terminal device, and performs distribution information distribution processing. I was going.
[0003]
[Patent Document 1]
Japanese Patent Laid-Open No. 2003-116139
[Problems to be solved by the invention]
However, in the conventional technology, each of the information distribution server and the plurality of terminal devices individually establishes a one-to-one session connection, so the information distribution server starts the distribution module for each session connection. There was a need to do. Therefore, as the number of terminal devices connected to the network increases, the number of distribution modules activated in the information distribution server increases, and there is a problem that the load on the information distribution server increases. Therefore, according to the conventional technology, every time the number of terminal devices connected to the network increases, the processing capability of the information distribution server must be improved. Could occur.
[0005]
In the conventional technology, it is necessary to manage a plurality of sessions established between a plurality of terminal devices in the information distribution server. However, there is a problem that the session management becomes complicated as the number of sessions increases. It was.
[0006]
Further, in the conventional technique, as the number of sessions increases, the number of streams sent to the network increases, so the load on the network also increases. Therefore, conventionally, it has been necessary to lay a network having a sufficiently wide communication band in advance.
[0007]
Therefore, the present invention has been made in view of the above problems, and information that suppresses an increase in processing load and network load on the information distribution server even when the number of terminal devices connected to the network increases. The purpose is to provide distribution technology.
[0008]
[Means for Solving the Problems]
In order to solve the above-mentioned problem, the invention according to claim 1 is an information distribution system for distributing distribution information including moving images from an information distribution server to a plurality of terminal devices connected to a network. When the information distribution server performs stream distribution of the distribution information, the distribution information is sequentially transmitted to the network in time series without establishing individual connection states with the plurality of terminal devices. Each of the plurality of terminal devices is configured to acquire and reproduce the distribution information transmitted over the network.
[0009]
According to a second aspect of the present invention, in the information distribution system according to the first aspect, the information distribution server transmits the distribution information for the plurality of terminal devices to the network by activating one distribution module. It is characterized by.
[0010]
The invention according to claim 3 is an information distribution server for distributing distribution information including moving images to a plurality of terminal devices connected to a network, and when the distribution information is stream-distributed, the plurality of terminals The distribution information is sequentially transmitted to the network in time series without establishing individual connection states with each of the devices.
[0011]
According to a fourth aspect of the present invention, in the information distribution server according to the third aspect, the distribution information for the plurality of terminal devices is transmitted to the network by activating one distribution module. is there.
[0012]
The invention according to claim 5 is an information distribution program, and causes the computer to function as the information distribution server according to claim 3 or 4 by being executed by the computer.
[0013]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings.
[0014]
FIG. 1 is a schematic diagram showing the configuration of the information distribution system 100. As shown in FIG. 1, the information distribution system 100 has a configuration in which an information distribution server 10 and two terminal devices 20a and 20b are connected to a LAN (Local Area Network) 5. The distribution information is supplied to the terminal devices 20a and 20b through the terminal device 20 and the terminal devices 20a and 20b can receive and reproduce the distribution information supplied from the information distribution server 10.
[0015]
The information distribution server 10 includes, for example, a general computer, and includes a CPU 11, a memory 12, a hard disk device 13, a network card 14, a camera interface 15, and a display interface 16, which are connected to each other via a data bus. It has become. A camera 17 is connected to the camera interface 15, and a display device 18 is connected to the display interface 16. The information distribution server 10 is connected to a voice input means such as a microphone (not shown), and is configured to record voice together with a moving image input from the camera 17.
[0016]
In the information distribution server 10, editing processing of a moving image input from the camera 17 is performed and stored as distribution information 102 in the hard disk device 13. Data after editing relating to such a moving image is generated as so-called stream data. The distribution information 102 is information including a moving image, and includes various additional information. For example, when a presenter makes a presentation in front of the camera 17 and distributes a moving image obtained by the presentation to a plurality of terminal devices 20a and 20b together with text information used at the time of presentation, the text information and the like are attached information. become. Therefore, the attached information is non-stream data.
[0017]
In addition to the distribution information 102, the hard disk device 13 stores a distribution program 101 for transmitting the distribution information 102 to the terminal devices 20a and 20b via the network 5.
[0018]
In the information distribution server 10, distribution information 102 is distributed via the LAN 5 by executing a distribution program 101 stored in the hard disk 13 using hardware resources such as the CPU 11 and the memory 12. When the information distribution server 10 distributes a moving image that is stream data included in the distribution information 102, the information distribution server 10 distributes the moving image in a so-called stream distribution.
[0019]
Each of the terminal devices 20a and 20b is configured by, for example, a general computer, and includes a CPU 21, a memory 22, a hard disk device 23, a network card 24, and a display interface 26, which are connected to each other via a data bus. ing. A display device 28 is connected to the display interface 26.
[0020]
The hard disk device 23 stores a viewing program 201 for receiving the distribution information 102 distributed from the information distribution server 10 and performing streaming reproduction. Therefore, in each of the terminal devices 20a and 20b, the viewing information 201 stored in the hard disk 23 is executed by using hardware resources such as the CPU 21 and the memory 22, so that the distribution information 102 is acquired from the LAN 5 and the moving image is obtained. The image is streamed and reproduced, and a real-time moving image linked to reception of the stream data is displayed on the display device 28. Further, each terminal device 20a, 20b is provided with a sound generating means such as a speaker (not shown), and a sound accompanying the moving image is emitted from the sound generating means.
[0021]
As described above, in the information distribution system 100, the distribution form of stream data such as moving images included in the distribution information is not a general file transfer form using a so-called file transfer protocol (FTP) but in the terminal devices 20a and 20b. By immediately reproducing the received data, it is realized as a stream distribution form that enables real-time reproduction in cooperation with data reception.
[0022]
FIG. 2 is a block diagram illustrating a functional configuration in the information distribution system 100 when a distribution program is executed in the information distribution server 10 and a viewing program is executed in each of the terminal devices 20a and 20b.
[0023]
As shown in FIG. 2, in the information distribution server 10, when the distribution program 101 is executed, the distribution module 111 and the information providing module 112 included in the distribution program 101 function. Each of these modules is a unit program that constitutes the distribution program 101. Conventionally, when streaming a moving image that is stream data, it has been necessary to activate the distribution module 111 for each terminal device. However, the information distribution server 10 according to the present embodiment activates one distribution module 111. Only, it is comprised so that moving image delivery may be performed with respect to several terminal device 20a, 20b. The information providing module 112 is a functional unit that transmits information included in the distribution information 102 and attached to the moving image and attached to the terminal devices 20a and 20b.
[0024]
As shown in FIG. 2, the distribution information 102 includes effect information 102b, text information 102c, and the like as attached information attached to the moving image 102a. The effect information 102b is information for generating a video effect on a moving image, and is information for instructing each terminal device 20a, 20b, for example, a title to be superimposed (synthesized) on the moving image and its display mode. Further, as described above, the text information 102c is information indicating the contents of materials, slides, and the like used for the presentation when the contents of the presentation are configured as the distribution information 102, for example. In addition to these, various types of attached information may be included in the distribution information.
[0025]
The attached information attached to the moving image 102a of the distribution information 102 is transmitted to the terminal devices 20a and 20b via the LAN 5 when the information providing module 112 functions. Such a transmission form of the attached information may be a transmission using a so-called file transfer protocol (FTP), or may be another general file transfer form.
[0026]
In each of the terminal devices 20a and 20b, when the viewing program 201 is executed, the reception module 211 and the display module 212 included in the viewing program 201 function. The receiving module 211 acquires stream data related to a moving image included in the distribution information 102 from the LAN 5 and acquires attached information addressed to itself. Further, the reception module 211 functions to make a transmission request for attached information to the information distribution server 10. The display module 212 is a functional unit for displaying the distribution information 102 acquired via the LAN 5 on the display device 28. The display module 212 assigns moving images, text information, and the like to predetermined positions in the screen and displays them on the display device 28.
[0027]
Next, the operation in the information distribution system 100 as described above will be described. The information distribution server 10 activates the distribution program 101 when there is a browsing request for the distribution information 102 from at least one of the terminal devices 20a and 20b connected to the LAN 5. The browsing request from the terminal devices 20a and 20b is made, for example, when the receiving module 211 sends a browsing request signal to the information distribution server 10 after the viewing program 201 is activated in the terminal devices 20a and 20b. In the following, a case will be described in which a browsing request is first received from the terminal device 20a and then a browsing request is received from the terminal device 20b among the plurality of terminal devices 20a and 20b.
[0028]
When the distribution program 101 is activated, the information distribution server 10 transmits attached information such as text information to the terminal device 20a by the function of the information providing module 112. In addition, the information distribution server 10 activates the distribution module 111, acquires a moving image included in the distribution information 102 from the hard disk device 13, and stream-distributes the moving image sequentially from the first frame to the LAN 5. At this time, the information distribution server 10 distributes moving images on the LAN 5 by multicast without establishing a session connection with the terminal device 20a.
[0029]
In the terminal device 20a, when the receiving module 211 receives the stream data transmitted to the LAN 5, it captures it and supplies it to the display module 212. The display module 212 performs streaming reproduction by performing real-time moving image reproduction display in cooperation with data reception. At this time, if the terminal device 20a has received the attached information from the information distribution server 10, the terminal device 20a displays a document, a slide, or the like based on the text information in an area adjacent to the screen area where the moving image is displayed. For example, when the distribution information 102 is the content of the presentation, the presenter's action or the like is displayed as a moving image on a part of the display device 28, and the material used at that time is displayed on the other part.
[0030]
When a viewing request is received from another terminal device 20b during moving image stream distribution from the information distribution server 10, the information distribution server 10 transmits attached information to the terminal device 20b.
[0031]
When the terminal device 20b receives the attached information from the information distribution server 10, the terminal device 20b displays the attached information on the display device 28, and also receives the stream data transmitted to the LAN 5 and displays a moving image.
[0032]
Also in this case, the information distribution server 10 and the terminal device 20b are not individually connected to each other, and the terminal device 20b displays the moving image by receiving the stream data already flowing through the LAN 5. .
[0033]
As described above, in the information distribution system 100 of the present embodiment, even when a plurality of terminal devices 20a and 20b are connected to the LAN 5, the information distribution server 10 performs session connection with the individual terminal devices 20a and 20b. Instead, the distribution information 102 is stream-distributed on the LAN 5 only by starting one distribution module 111. For this reason, compared with the case where session connection is individually established with each terminal device 20a, 20b, even if the number of terminal devices connected to the LAN 5 increases, the number of activations of the distribution module 111 in the information distribution server 10 Does not increase, and the processing load required for stream distribution remains constant. Moreover, since it is possible to prevent a large amount of stream data from being sent to the LAN 5, it is possible to prevent an increase in the network load of the LAN 5.
[0034]
The information distribution server 10 transmits the effect information 102b at a predetermined timing as the stream distribution of the moving image progresses. When the terminal devices 20a and 20b receive the effect information 102b via the LAN 5, the terminal devices 20a and 20b combine and display a title display or the like on the moving image displayed on the display device 28 based on the effect information 102b. When the viewing program 201 installed in advance in the terminal devices 20a and 20b does not include a module corresponding to the effect information 102b, the information distribution server is received when a viewing request is received from the terminal devices 20a and 20b. The effect module may be transmitted from the terminal 10 to each of the terminal devices 20a and 20b.
[0035]
In addition, in the stream data 102a relating to the moving image, an update signal for updating text information such as material is inserted at an arbitrary position in time series, and the reception module 211 of the terminal devices 20a and 20b receives update information from the stream data. Is detected, a new transmission request for the text information 102c is made to the information distribution server 10. When the information distribution server 10 receives the transmission request from the terminal devices 20a and 20b, the information distribution server 10 acquires the currently valid text information 102c from the hard disk device 13, and creates a new text for the terminal devices 20a and 20b that are the transmission source of the transmission request. Information 102c is transmitted. As a result, when a document to be referred to is changed during the reproduction of a moving image such as a presentation, the document displayed on the display device 28 of the terminal devices 20a and 20b is automatically changed. The viewer does not need to perform an operation for exchanging materials. Therefore, the viewers of the terminal devices 20a and 20b can view the moving image only by performing an operation for starting the viewing program 201 first, and can visually recognize the content of the attached information attached to the moving image while automatically updating the content. can do.
[0036]
As described above, in the information distribution system 100 according to the present embodiment, when the information distribution server 10 performs the stream distribution of the moving image included in the distribution information 102, each of the plurality of terminal devices 20a and 20b connected to the LAN 5 The distribution information 102 is sequentially transmitted to the LAN 5 in time series without establishing individual connection states, and each of the plurality of terminal devices 20a and 20b is connected to the LAN 5. The distribution information 102 transmitted by multicast is acquired and streaming reproduction is performed.
[0037]
In particular, the information distribution server 10 activates one distribution module to perform stream distribution of the distribution information 102 to all of a plurality of terminal devices connected to the LAN 5.
[0038]
Therefore, the processing load of the information distribution server 10 is remarkably reduced compared to the case where a session connection is established with each of a plurality of terminal devices and a distribution module corresponding to the number of terminal devices is activated, and the information distribution server 10 is connected to the LAN 5. Even if the number of terminal devices increases, it is not necessary to improve the processing capability of the information distribution server 10. Further, since the number of stream data transmitted to the LAN 5 is also limited to one, there is little possibility that the network load will increase even if the number of terminal devices increases.
[0039]
Although one embodiment relating to the present invention has been described above, the present invention is not limited to the above-described embodiment.
[0040]
For example, in the above embodiment, the case where the number of terminal devices connected to the LAN 5 is two is illustrated, but the present invention is not limited to this, and three or more terminal devices may be connected. In the present invention, a more remarkable effect is exhibited as the number of terminal devices connected to a network such as the LAN 5 increases.
[0041]
Further, in the above-described embodiment, the case where the distribution information 102 is a moving image related to a presentation and attached information attached thereto is exemplified, but the distribution information 102 may be configured only by a moving image. In this case, the information providing module 112 does not need to be activated in the information distribution server 10.
[0042]
【The invention's effect】
As described above, in the present invention, when the information distribution server streams the distribution information, without establishing individual connection states with each of a plurality of terminal devices connected to the network, Since it is configured to transmit distribution information sequentially in time series, the processing load on the information distribution server will not increase even if the number of terminal devices connected to the network increases, and the network load will increase. I don't have to. Furthermore, since the information distribution server and each of the plurality of terminal devices do not individually establish connection states, it is not necessary to manage these connection states.
[0043]
In particular, since the information distribution server transmits distribution information for a plurality of terminal devices by activating one distribution module, the number of activation of the distribution modules changes even if the number of terminal devices connected to the network increases. Without increasing the processing load.
[Brief description of the drawings]
FIG. 1 is a schematic diagram showing a configuration of an information distribution system.
FIG. 2 is a block diagram illustrating a functional configuration in an information distribution system when a distribution program is executed in an information distribution server and a viewing program is executed in each terminal device;
[Explanation of symbols]
5 LAN (network)
DESCRIPTION OF SYMBOLS 10 Information distribution server 20a, 20b Terminal device 100 Information distribution system 101 Distribution program 102 Distribution information 111 Distribution module 112 Information provision module 201 Viewing program 211 Reception module 212 Display module

Claims (5)

An information distribution system for distributing distribution information including moving images from an information distribution server to a plurality of terminal devices connected to a network,
When distributing the distribution information, the information distribution server sequentially transmits the distribution information to the network in time series without establishing individual connection states with each of the plurality of terminal devices. Configured to
Each of the plurality of terminal devices is an information distribution system configured to acquire and reproduce the distribution information transmitted on the network. The information distribution system according to claim 1,
The information distribution system, wherein the information distribution server transmits the distribution information for the plurality of terminal devices to the network by activating one distribution module. An information distribution server for streaming distribution information including moving images to a plurality of terminal devices connected to a network,
When distributing the distribution information, the distribution information is sequentially transmitted to the network in time series without establishing individual connection states with each of the plurality of terminal devices. Information distribution server. In the information delivery server according to claim 3,
An information distribution server, wherein the distribution information for the plurality of terminal devices is transmitted to the network by activating one distribution module. An information distribution program that, when executed by a computer, causes the computer to function as the information distribution server according to claim 3 or 4.

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