JP2005033367A - Server and information transmitting system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an information transmitting system which can transmit efficiently information when the information is transmitted via both a wide band communication network and a narrow band communication network. <P>SOLUTION: The information transmitting system 10 includes an information delivering server 12, a mobile unit 14, and a proxy server 16. The information delivering server 12 and the proxy server 16 are connected via the wide band communication network N1, and the mobile unit 14 and the proxy server 16 are connected via the narrow band communication network N2. The information delivering server 12 is a server for transmitting the information to the mobile unit 14 via the proxy server 16, and has a timer 18 for counting a time from a start of transmitting the information to the mobile unit 14, and a disconnection controller 20 for disconnecting a communication line spread between the timer 18 and the mobile unit 14 by ending transmission of the information when transmission of the information is not ended even if the time counted by the timer 18 exceeds a predetermined reference time. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a server and an information transmission system.
[0002]
[Prior art]
In recent years, with the development of mobile communication systems such as PDC-P (Personal Digital Cellular-Packet) and IMT2000 (International Mobile Telecommunications 2000), higher functionality of mobile devices used in these mobile communication systems has been advanced. . With the enhancement of the functionality of such mobile devices, text information, voice information, still images are transmitted from information distribution servers connected to other communication networks such as the Internet to mobile devices connected to the mobile communication network. An information transmission system for transmitting various information such as information and moving image information has been realized.
[0003]
FIG. 3 is a configuration diagram of the above-described information transmission system. The information communication system 1 relays transmission of information from the information distribution server 2 that is a transmission source of information, a mobile device 4 that receives information transmitted from the information distribution server 2, and the mobile device 4 from the information distribution server 2 The proxy server 6 is configured. The information distribution server 2 and the proxy server 6 are connected via a broadband communication network N1 such as the Internet, a LAN network, and a dedicated line network. On the other hand, the mobile device 4 and the proxy server 6 are connected via a narrowband communication network N2 such as a mobile communication network.
[0004]
In such an information transmission system 1, when the mobile device 4 requests the information distribution server 2 to transmit information, the mobile device 4 transmits an information transmission request to the information distribution server 2 via the proxy server 6. When the information distribution server 2 transmits information to the mobile device 4 in response to such an information transmission request, the information distribution server 2 transmits information to the mobile device 4 via the proxy server 6.
[0005]
When the information distribution server 2 transmits information to the mobile device 4 using such an information transmission system 1, especially when transmitting a large amount of data such as moving image information, the processing capability of the mobile device 4 is limited. The mobile device 4 may not be able to process received data in time. In such a case, flow control is performed between the information distribution server 2 on the information transmission side and the mobile device 4 on the information reception side (specifically, for example, from the mobile device 4 to the information distribution server 2). An information transmission interruption / resumption instruction is transmitted, and the information distribution server 2 suspends / resumes information transmission accordingly), and the information transmission rate from the information distribution server 2 to the mobile device 4 is controlled. Further, when packet loss occurs between the information distribution server 2 and the mobile device 4, packet retransmission control is performed from the information distribution server 2 to the mobile device 4.
[0006]
[Problems to be solved by the invention]
However, the information transmission system 1 according to the conventional technique has the following problems.
[0007]
First, in the information transmission system 1 that transmits information from the information distribution server 2 to the mobile device 4 via the broadband communication network N1 and the narrowband communication network N2, the narrowband communication network N2 is compared with the broadband communication network N1. The mobile station 4 connected to the narrow-band communication network N2 is usually limited in processing capacity for large-capacity data and causes processing delays. Despite the sufficient transmission capacity of the communication network N1, flow control and retransmission control are frequently performed between the mobile device 4 and the information distribution server 2. Such frequent occurrence of flow control and retransmission control is caused by squeezing the memory of the information distribution server 2 by retaining the transmission standby data in the information distribution server 2 and increasing the number of retransmission control and transmission interruption / resume control. The CPU load of the information distribution server 2 is increased.
[0008]
Further, in the information transmission system 1 that transmits information from the information distribution server 2 to the mobile device 4 via the broadband communication network N1 and the narrowband communication network N2, data packet loss, transmission delay, and processing delay are limited to narrowband communication. This often occurs in the mobile device 4 connected to the network N2 and the narrowband communication network N2. However, flow control and retransmission control are performed between the information distribution server 2 and the mobile device 4 via both the broadband communication network N1 and the narrowband communication network N2, and network resources are wasted. Yes.
[0009]
As described above, the information transmission system 1 according to the related art increases the load on the information distribution server 2 and wastes network resources. Both the broadband communication network N1 and the narrowband communication network N2 are used. There is a problem that efficient information transmission cannot be performed when information is transmitted via the Internet.
[0010]
Accordingly, the present invention provides a server and an information transmission system that solves the above-described problems and enables efficient information transmission when information is transmitted through both a broadband communication network and a narrowband communication network. Is an issue.
[0011]
[Means for Solving the Problems]
In order to solve the above-described problems, a server according to the present invention includes a server, a relay device connected to the server via a first communication network, and a communication band having a narrow communication bandwidth compared to the first communication network. And a terminal device connected to the relay device via two communication networks, the server used in an information transmission system for transmitting information from the server to the terminal device via the relay device. The first time measuring means for measuring the time from the start of transmission of the information to the terminal device, and the transmission of the information is completed even if the time measured by the first time measuring means exceeds the first reference time. And a first control unit that terminates the transmission of the information and disconnects the communication path established between the terminal device and the terminal device.
[0012]
Time is measured from the start of information transmission, and if the information transmission does not end even if the measured time exceeds the reference time, the information transmission is terminated and the communication path established between the terminal device is disconnected. By doing so, it is possible to prevent the server from being burdened with retransmission control and flow control indefinitely, and the load on the server can be reduced.
[0013]
In the server according to the present invention, it is preferable that the first control means determines the first reference time according to the size or type of the information.
[0014]
By determining the reference time according to the size or type of information, it is possible to set an appropriate reference time according to the size or type of information.
[0015]
In order to solve the above problems, a server according to the present invention includes a server, a relay device connected to the server via a first communication network, and a communication bandwidth compared to the first communication network. A server used in an information transmission system including a terminal device connected to the relay device via a narrow second communication network and transmitting information from the server to the terminal device via the relay device. The second time measuring means for measuring the time after the transmission is temporarily interrupted during the transmission of the information to the terminal device, and the time measured by the second time measuring means is a second reference. A second control unit that terminates the transmission of the information and disconnects the communication path established between the terminal device when the transmission of the information is not resumed even if the time is exceeded; It is characterized.
[0016]
The time after the transmission is temporarily interrupted during the transmission of information to the terminal device is measured, and the transmission of the information is terminated when the transmission of the information is not resumed even if the measured time exceeds the reference time. By disconnecting the communication path established between the apparatuses, it is possible to prevent the server from being subjected to the burden of retransmission control and flow control indefinitely, and the load on the server can be reduced.
[0017]
In the server of the present invention, it is preferable that the second control means determines the second reference time according to the size or type of the information.
[0018]
By determining the reference time according to the size or type of information, it is possible to set an appropriate reference time according to the size or type of information.
[0019]
In order to solve the above problems, an information transmission system according to the present invention communicates with a server, a relay device connected to the server via a first communication network, and communication with the first communication network. An information transmission system comprising a terminal device connected to the relay device via a second communication network having a narrow bandwidth, and transmitting information from the server to the terminal device via the relay device, The relay apparatus has storage means for temporarily storing the information transmitted from the server, and performs flow control and retransmission control when transmitting the information from the server to the relay apparatus, and the relay Flow control and retransmission control when transmitting the information from the apparatus to the terminal apparatus are performed separately.
[0020]
Storage means for temporarily storing information transmitted from the server is provided in the relay device, flow control and retransmission control when transmitting information from the server to the relay device, and information from the relay device to the terminal device. By separately performing flow control and retransmission control during transmission, there is no need to perform flow control and retransmission control between a server and a terminal device connected via two communication networks having different communication bands. . That is, if necessary, flow control and retransmission control can be performed between the server and the relay device, and between the relay device and the terminal device, and network resources can be used effectively.
[0021]
DETAILED DESCRIPTION OF THE INVENTION
First, an information transmission system according to a first embodiment of the present invention will be described with reference to the drawings.
[0022]
First, the configuration of the information transmission system according to the present embodiment will be described. FIG. 1 is a configuration diagram of an information transmission system according to the present embodiment. An information transmission system 10 according to the present embodiment includes an information distribution server 12 (server) that is an information transmission source, a mobile device 14 (terminal device) that receives information transmitted from the information distribution server 12, and an information distribution server. 12 and a proxy server 16 (relay device) that relays transmission of information from the mobile device 14 to the mobile device 14. The information distribution server 12 and the proxy server 16 are connected via a broadband communication network N1 (first communication network) such as the Internet, a LAN network, and a dedicated line network. On the other hand, the mobile device 12 and the proxy server 14 are connected via a narrowband communication network N2 such as a mobile communication network (a second communication network having a narrower communication band compared to the first communication network). .
[0023]
The information distribution server 12 is a server that transmits information to the mobile device 14 via the proxy server 16 in response to an information transmission request transmitted from the mobile device 14 via the proxy server 16. A timer 18 (first time measuring means) and a cutting control unit 20 (first control means) are provided.
[0024]
The timer 18 measures the time from the start of information transmission to the mobile device 14. Here, strictly speaking, “transmission start” is the timing at which the information distribution server 12 actually starts transmitting information in response to the information transmission request, but the information distribution server 12 has received the information transmission request. The timing may be regarded as a substantial transmission processing start trigger, and the timing may be measured by regarding this timing as “transmission start”.
[0025]
When the time counted by the timer 18 exceeds a predetermined reference time (first reference time), the disconnection control unit 20 transmits the information when the transmission of information to be transmitted to the mobile device 14 is not completed. The communication path established between the mobile station 14 and the mobile station 14 is terminated. More simply, the disconnect control unit 20 disconnects the communication path established between the mobile device 14 due to the timeout of the reference time. Here, the reference time may be a fixed time, or the cutting control unit 20 may determine the reference time according to the size or type of information to be transmitted to the mobile device 14. When determining the reference time according to the size of information, for example, when the content (information) having a data size of 300 KB or less is transmitted to the mobile device 14, the disconnection control unit 20 sets the reference time until disconnection to 10 When content (information) with a data size exceeding 300 KB is transmitted to the mobile device 14, the reference time until disconnection is set to 702 seconds. Similarly, when determining the reference time according to the type of information, for example, when transmitting an HTML file to the mobile device 14, the disconnection control unit 20 sets the reference time until disconnection to 10 seconds, When the file is transmitted to the mobile device 14, the reference time until disconnection is set to 702 seconds. Note that the cutting control unit 20 may determine the reference time according to both the size and type of information to be transmitted to the mobile device 14.
[0026]
Subsequently, the operation of the information transmission system according to the present embodiment will be described. In the information transmission system 10, when the mobile device 14 requests the information distribution server 12 to transmit information, first, the information transmission request is transmitted from the mobile device 14 to the proxy server 16 via the narrowband communication network N2. . When the proxy server 16 receives the information transmission request, the information transmission request is transmitted from the proxy server 16 to the information distribution server 12 via the broadband communication network N1.
[0027]
When the information distribution request is received by the information distribution server 12, information corresponding to the information distribution request is transmitted from the information distribution server 12 to the proxy server 16 via the broadband communication network N <b> 1, and further from the proxy server 16. It is transmitted to the mobile device 14 via the band communication network N2.
[0028]
During transmission of information from the information distribution server 12 to the mobile device 14, flow control and retransmission control of missing packets are appropriately performed between the information distribution server 12 and the mobile device 14.
[0029]
In addition, when the information distribution request is received by the information distribution server 12 and transmission of information from the information distribution server 12 to the mobile device 14 is started, timing by the timer 18 of the information distribution server 12 is started.
[0030]
If transmission of information to be transmitted to the mobile device 14 is completed before the time counted by the timer 18 exceeds the reference time, the timer 18 is reset. On the other hand, for example, as a result of the flow rate being reduced by flow control or the packet loss occurring frequently and the retransmission control being repeated, the transmission of information did not end even when the time counted by the timer 18 exceeded the reference time In this case, the disconnection control unit 20 disconnects the communication path stretched between the information distribution server 12 and the mobile device 14 when the reference time has elapsed.
[0031]
Then, the effect | action and effect of the information transmission system concerning this embodiment are demonstrated. The information transmission system 10 according to the present embodiment measures the time from the start of transmission of information from the information distribution server 12 to the mobile device 14 by the timer 18 of the information distribution server 12, and even if the time exceeds the reference time. When the transmission of information is not completed, the transmission of information is terminated, and the communication control line 20 between the information distribution server 12 and the mobile device 14 is disconnected by the disconnection control unit 20 of the information distribution server 12. Therefore, the information distribution server 12 is always subjected to the burden of retransmission control and flow control (more specifically, memory pressure due to retention of transmission standby data, CPU load due to frequent retransmission control and transmission interruption / resumption control, etc.). Can be prevented, and the load on the information distribution server 12 can be reduced. As a result, efficient information transmission is possible when information is transmitted through both the broadband communication network N1 and the narrowband communication network N2.
[0032]
In the information transmission system 10 according to the present embodiment, the disconnection control unit 20 of the information distribution server 12 determines the reference time until communication path disconnection according to the size or type of information to be transmitted to the mobile device 14. With such a configuration, an appropriate reference time can be set according to the size or type of information.
[0033]
In the information distribution system embodiment 10 according to the present embodiment, the timer 18 measures the time from the start of information transmission to the mobile device 14, and the disconnection control unit 20 measures the time measured by the timer 18. If the transmission of information does not end even after the time has elapsed, the transmission of information is terminated and the communication path established between the information distribution server 12 and the mobile device 14 is disconnected. However, this is because the timer 18 (second timing unit) counts the time after the transmission is temporarily interrupted during transmission of information to the mobile device 14, and the disconnection control unit 20 (second control unit). However, if the transmission of information is not resumed even if the time counted by the timer 18 exceeds the reference time (second reference time), the transmission of information is terminated and the communication between the information distribution server 12 and the mobile device 14 is completed. It is good also as a structure which cut | disconnects the communication path stretched by. Also in this case, the reference time may be a fixed time, or the cutting control unit 20 may determine the reference time according to the size or type of information to be transmitted to the mobile device 14.
[0034]
Even with such a configuration, it is possible to prevent the information distribution server 12 from being subjected to retransmission control and flow control indefinitely, and the load on the information distribution server 12 can be reduced. As a result, efficient information transmission is possible when information is transmitted through both the broadband communication network N1 and the narrowband communication network N2.
[0035]
Next, an information transmission system according to a second embodiment of the present invention will be described with reference to the drawings.
[0036]
First, the configuration of the information transmission system according to the present embodiment will be described. FIG. 2 is a configuration diagram of the information transmission system according to the present embodiment. Similarly to the information distribution system 10 according to the first embodiment, the information transmission system 30 according to the present embodiment also includes an information distribution server 32 (server), a mobile device 34 (terminal device), and a proxy server 36 (relay). Device). The information distribution server 32 and the proxy server 36 are connected to each other via a broadband communication network N1 (first communication network) such as the Internet, a LAN network, and a dedicated line network. On the other hand, the mobile device 32 and the proxy server 34 are connected via a narrowband communication network N2 such as a mobile communication network (a second communication network having a narrower communication band compared to the first communication network). .
[0037]
Here, the information distribution server 32 transmits information to the mobile device 34 via the proxy server 36 in response to an information transmission request transmitted from the mobile device 34 via the proxy server 36.
[0038]
The proxy server 36 is a relay device that relays transmission of an information transmission request from the mobile device 34 to the information distribution server 32 and relays information transmission from the information distribution server 32 to the mobile device 34. A buffer 38 (storage means) for temporarily storing information transmitted from the information distribution server 32 is provided.
[0039]
Here, the information transmission system 30 performs flow control and retransmission control when information is transmitted from the information distribution server 32 to the proxy server 36, and flow when information is transmitted from the proxy server 36 to the mobile device 34. Control and retransmission control are performed separately.
[0040]
More specifically, in response to an information transmission request (transmitted from the mobile device 34) transmitted from the proxy server 36, the information distribution server 32 sends information to be transmitted to the mobile device 34 to the broadband communication network N1. To the proxy server 36. The proxy server 36 temporarily stores the information transmitted from the information distribution server 32 in the buffer 38, and transmits the information stored in the buffer 38 to the mobile device 34 via the narrowband communication network N2. The mobile device 34 receives the information transmitted from the proxy server 36.
[0041]
Here, when information is transmitted from the information distribution server 32 to the proxy server 36, the buffer 38 of the proxy server 36 is full, the reception processing load of the proxy server 36 is excessive, the broadband communication network When congestion occurs in N1, for example, flow control is performed between the information distribution server 32 and the proxy server 36 to control the information transmission speed. In addition, when information is transmitted from the information distribution server 32 to the proxy server 36, if packet loss occurs in the broadband communication network N1 between the information distribution server 32 and the proxy server 36, the information distribution server 32 and the proxy Retransmission control of missing packets is performed with the server 36.
[0042]
Similarly, when transmitting information from the proxy server 36 to the mobile device 34, if the buffer (not shown) of the mobile device 34 is full, or if the reception processing load of the mobile device 34 is excessive, When congestion occurs in the narrowband communication network N2, the flow control is performed between the proxy server 36 and the mobile device 34 to control the information transmission speed. Also, when packet loss occurs in the narrowband communication network N2 between the proxy server 36 and the mobile device 34 when transmitting information from the proxy server 36 to the mobile device 34, the proxy server 36 and the mobile device 34 The retransmission control of the lost packet is performed.
[0043]
Subsequently, the operation of the information transmission system according to the present embodiment will be described. In the information transmission system 30, when the mobile device 34 requests the information distribution server 32 to transmit information, first, the information transmission request is transmitted from the mobile device 34 to the proxy server 36 via the narrowband communication network N2. . When the information transmission request is received by the proxy server 36, the information transmission request is transmitted from the proxy server 36 to the information distribution server 32 via the broadband communication network N1.
[0044]
When the information distribution request is received by the information distribution server 32, information corresponding to the information distribution request is transmitted from the information distribution server 32 to the proxy server 36 via the broadband communication network N1 and provided in the proxy server 36. It is temporarily stored in the buffer 38.
[0045]
Thereafter, the information stored in the buffer 38 of the proxy server 36 is read out and transmitted to the mobile device 34 via the narrowband communication network N1.
[0046]
Here, when information is transmitted from the information distribution server 32 to the proxy server 36, the buffer 38 of the proxy server 36 is full, the reception processing load of the proxy server 36 is excessive, broadband communication When congestion occurs in the network N1, flow control is performed between the information distribution server 32 and the proxy server 36, and the information transmission speed is controlled. When packet loss occurs in the broadband communication network N1 between the information distribution server 32 and the proxy server 36 when information is transmitted from the information distribution server 32 to the proxy server 36, the information distribution server 32 Retransmission control of missing packets is performed with the proxy server 36.
[0047]
Similarly, when information is transmitted from the proxy server 36 to the mobile device 34, the buffer (not shown) of the mobile device 34 is full, or the reception processing load of the mobile device 34 is excessive. When congestion occurs in the narrowband communication network N2, flow control is performed between the proxy server 36 and the mobile device 34, and the information transmission speed is controlled. Further, when packet loss occurs in the narrowband communication network N2 between the proxy server 36 and the mobile device 34 when information is transmitted from the proxy server 36 to the mobile device 34, the proxy server 36 and the mobile device 34, retransmission control of missing packets is performed.
[0048]
Then, the effect | action and effect of the information transmission system concerning this embodiment are demonstrated. In the information transmission system 30 according to the present embodiment, a buffer 38 that temporarily stores information transmitted from the information distribution server 32 is provided in the proxy server 36, and information is transmitted from the information distribution server 32 to the proxy server 36. Flow control and retransmission control, and flow control and retransmission control when transmitting information from the proxy server 36 to the mobile device 34 are performed separately. Accordingly, it is necessary to perform flow control and retransmission control between the information distribution server 32 and the mobile device 34 connected via two communication networks (broadband communication network N1 and narrowband communication network N2) having different communication bands. Disappear. That is, flow control and retransmission control can be performed between the information distribution server 32 and the proxy server 36 and between the proxy server 36 and the mobile device 34 as necessary, and network resources can be used effectively. it can. As a result, efficient information transmission is possible when information is transmitted through both the broadband communication network N1 and the narrowband communication network N2.
[0049]
In the information transmission system 10 according to the first embodiment, the communication path is disconnected due to a timeout (hereinafter referred to as function 1). In the information transmission system 30 according to the second embodiment, a buffer is stored in the proxy server 36. The flow control and the retransmission control are separately performed between the information distribution server 32 and the proxy server 36 and between the proxy server 36 and the mobile device 34 (hereinafter referred to as function 2). The information transmission system may be configured to have both the function 1 and the function 2.
[0050]
【The invention's effect】
The server of the present invention measures the time from the start of information transmission, and terminates the transmission of information when the time measured exceeds the reference time and the information transmission is not completed. Disconnect the specified communication path. Therefore, it is possible to prevent the server from being burdened with retransmission control and flow control indefinitely, and the load on the server can be reduced. As a result, efficient information transmission is possible when information is transmitted via both the broadband communication network and the narrowband communication network.
[0051]
In addition, the server of the present invention measures the time after transmission is temporarily interrupted during transmission of information to the terminal device, and when the transmission of information is not resumed even if the measured time exceeds the reference time. The transmission of information is terminated, and the communication path established with the terminal device is disconnected. Therefore, it is possible to prevent the server from being burdened with retransmission control and flow control indefinitely, and the load on the server can be reduced. As a result, efficient information transmission is possible when information is transmitted via both the broadband communication network and the narrowband communication network.
[0052]
Further, the information transmission system of the present invention is provided with storage means for temporarily storing information transmitted from the server in the relay device, flow control and retransmission control when transmitting information from the server to the relay device, Flow control and retransmission control are separately performed when information is transmitted from the relay device to the terminal device. Therefore, there is no need to always perform flow control and retransmission control between the server and the terminal device. That is, if necessary, flow control and retransmission control can be performed between the server and the relay device, and between the relay device and the terminal device, and network resources can be used effectively. As a result, efficient information transmission is possible when information is transmitted via both the broadband communication network and the narrowband communication network.
[Brief description of the drawings]
FIG. 1 is a configuration diagram of an information transmission system according to a first embodiment of the present invention.
FIG. 2 is a configuration diagram of an information transmission system according to a second embodiment of the present invention.
FIG. 3 is a configuration diagram of an information transmission system according to a conventional technique.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1,10,30 ... Information transmission system, 2, 12, 32 ... Information delivery server, 4, 14, 34 ... Mobile device, 6, 16, 36 ... Proxy server, 18 ... Timer, 20 ... Disconnection control part, 38 ... Buffer, N1 ... Broadband communication network, N2 ... Narrowband communication network

Claims (5)

A server, a relay device connected to the server via a first communication network, and a relay device connected to the relay device via a second communication network having a narrower communication bandwidth than the first communication network A server for use in an information transmission system for transmitting information from the server to the terminal device via the relay device,
First time measuring means for measuring the time from the start of transmission of the information to the terminal device;
A communication path established between the terminal device by terminating the transmission of the information when the transmission of the information does not end even if the time measured by the first time measuring means exceeds a first reference time And a first control means for cutting the server. The server according to claim 1, wherein the first control unit determines the first reference time according to a size or type of the information. A server, a relay device connected to the server via a first communication network, and a relay device connected to the relay device via a second communication network having a narrower communication bandwidth than the first communication network A server for use in an information transmission system for transmitting information from the server to the terminal device via the relay device,
Second timing means for timing the time since transmission was temporarily interrupted during transmission of the information to the terminal device;
A communication path established between the terminal device by terminating the transmission of the information when the transmission of the information is not resumed even if the time measured by the second time measuring means exceeds a second reference time And a second control means for cutting the server. The server according to claim 3, wherein the second control unit determines the second reference time according to the size or type of the information. Server,
A relay device connected to the server via a first communication network;
A terminal device connected to the relay device via a second communication network having a narrow communication band compared to the first communication network;
An information transmission system for transmitting information from the server to the terminal device via the relay device,
The relay device has storage means for temporarily storing the information transmitted from the server,
Flow control and retransmission control when transmitting the information from the server to the relay device and flow control and retransmission control when transmitting the information from the relay device to the terminal device are performed separately. An information transmission system characterized by that.

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