JP2004023596A - Control packet transmission system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a control packet transmission system wherein a control packet can quickly and surely be transmitted between terminals in the case of transmitting the control packet to a plurality of reception terminals. <P>SOLUTION: The control packet transmission system includes: a transmitter side terminal for transmitting a prescribed control packet; and a receiver side terminal that discriminates the reception of a control packet with new control contents when the received control packet differs from the control packet received just before so as to perform control by using the control packet with new control contents. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a control packet transmission system for transmitting control packets between terminals in a rapid process.
[0002]
[Prior art]
FIG. 8 is a block diagram showing a conventional control packet transmission system 500.
[0003]
As shown in FIG. 8, in the conventional control packet transmission system 500, an information control packet P5 containing information for control is transmitted from a transmitting terminal TR5 to a plurality of receiving terminals RE5A, via a network NW. RE5B,..., RE5N, and the receiving terminals RE5A to RE5N perform predetermined control.
[0004]
In this case, in the above conventional example, the transmission of the control packet P5 to the plurality of receiving terminals RE5A to RE5N is sequentially performed for each one of the receiving terminals RE5A to RE5N, and there is a possibility that the packet is lost. is there.
[0005]
As described above, when a packet is lost, a packet that cannot be transmitted due to too much traffic on the communication path occurs, and a packet that cannot be relayed because a packet that exceeds the buffer of a relay device (router or the like) on the communication path has arrived. Occurs, a packet that exceeds the size of the receiving buffer on the receiving side has arrived, and a packet that cannot be processed occurs.
[0006]
Therefore, when transmitting the control packet P5 to the plurality of receiving terminals RE5A to RE5N, in order to maintain the reliability of the transmission, the receiving terminal is made to execute a response of “packet received”, and the response is received. The control packet is retransmitted until it is returned from the terminal.
[0007]
[Problems to be solved by the invention]
However, as described above, if the response of "packet received" is always executed by the receiving terminal and the control packet is retransmitted until the response is returned from the receiving terminal, the entire transmission will be completed. There is a problem that the time required for the termination is extremely long.
[0008]
Further, in the above conventional example, even when the control packet P5 is transmitted simultaneously for each of the receiving terminals RE5A to RE5N, there is a problem that the control packet P5 may be lost due to congestion or the like.
[0009]
SUMMARY OF THE INVENTION It is an object of the present invention to provide a control packet transmission system capable of transmitting a control packet quickly and reliably between terminals when transmitting a control packet to a plurality of receiving terminals.
[0010]
[Means for Solving the Problems]
The present invention has a transmitting terminal that transmits a predetermined control packet, and when the received control packet is different from the control packet received immediately before, it is determined that a control packet of a new control content has been received, This is a control packet transmission system having a receiving terminal that performs control using a control packet with new control content.
[0011]
In addition, the present invention includes a transmitting terminal having predetermined control information and transmitting a control packet instructing display of a predetermined URL, and the control packet newly received and the control packet received immediately before the control packet. When the control packet is different from the control packet, the control packet transmission system includes a display unit that determines that a control packet having new control contents has been received and displays a URL of the control packet received immediately before.
[0012]
Embodiments and Examples of the Invention
FIG. 1 is a block diagram showing a control packet transmission system 100 according to a first embodiment of the present invention.
[0013]
The control packet transmission system 100 has a transmitting terminal TR1, a receiving terminal RE1, and a network NW.
[0014]
The transmitting terminal TR1 is a terminal that transmits a control packet P1 having the same control information and the same identifier a plurality of times each. When the control information in the control packet P1 is changed, the identifier is changed together.
[0015]
FIG. 2 is a diagram illustrating a configuration example of the control packet P1 in the above embodiment.
[0016]
Note that the control information in the control packet P1 is, specifically,
(1) A start command for starting the receiving terminal in a pause (standby state),
(2) a sleep command for putting the terminal into a sleep state,
(3) Display command and display data for requesting display of a message on the screen,
(4) A jump command for requesting data to a specific server and then following the data,
{Circle around (5)} Heartbeat command or the like for notifying the terminal that the transmitting side is not down. The specific examples of the control information after the second embodiment are the same as those described above.
[0017]
The receiving terminal RE1 is a terminal that receives and controls the control packet P1 via the network NW, and includes a packet receiving unit 11, an identifier storage unit 21, a control unit 31, and a control command execution unit 41. .
[0018]
The packet receiving unit 11 is a unit that receives the control packet P1 from the network NW, and the identifier storage unit 21 is a unit that stores the identifier of the control packet P1.
[0019]
The control unit 31 compares the identifier (new identifier) in the received control packet P1 with the identifier (old identifier) stored in the identifier storage unit 21. If the two are different, the new one of the received control packet P1 is compared. This is a part that stores the identifier in the identifier storage unit 21 and outputs the control command included in the received control packet P1.
[0020]
The control unit 31 is an example of a control packet comparing unit that compares the newly received control packet with the control packet received immediately before.
[0021]
The control command execution unit 41 is a part that executes the received control packet P1.
[0022]
That is, when the control packet comparing unit determines that the newly received control packet is different from the control packet received immediately before, the control command execution unit 41 determines whether the control information included in the control packet received immediately before is different. It is an example of control execution means for executing the contents.
[0023]
Next, a control operation in the control packet transmission system 100 will be described.
[0024]
First, the transmitting terminal TR1 transmits a control packet P1 having the same control information a plurality of times. That is, since the control packet P1 may be lost in the communication path, the control packet P1 is transmitted plural times. Note that the control packet P1 includes an identifier for determining the identity of the control information.
[0025]
When the receiving terminal RE1 receives the control packet P1 by the packet receiving unit 11 via the network NW, the control unit 31 compares the identifier of the received control packet P1 with the identifier of the already received control packet P1. .
[0026]
As a result of the comparison, when it is determined that the two identifiers are different from each other, it is determined that the control packet P1 having the new control content has been received.
[0027]
In the transmitting terminal TR1, when transmitting control information that is different from control information already included in the transmitted control packet, the control information included in the newly transmitted control packet P1 is changed to new control information. The identifier included in the newly transmitted control packet P1 is changed to a new identifier and transmitted.
[0028]
In the receiving terminal E1, the control command execution unit 41 that outputs the control command executes the control command included in the control packet P1 determined to be the new control packet P1.
[0029]
On the other hand, when determining that the control packet P1 having the new control content has been received, the identifier storage unit 21 stores the identifier in the new control packet P1.
[0030]
When the control unit 31 determines that the identifier of the received control packet P1 has the identifier of the already received control packet P1, the control packet P1 is ignored because it has already been received.
[0031]
When the next control packet P1 is newly received, the identifier of the newly received control packet P1 is compared with the identifier stored in the identifier storage unit 21. If the two identifiers are different from each other, the newly received control packet P1 is newly received. The control instruction corresponding to the control packet P1 is executed. When there are a plurality of receiving side terminals RE1, the other receiving side terminals RE1 also execute the same processing as described above.
[0032]
According to the control packet transmission system 100, when transmitting a control packet between terminals, it is not necessary for the receiving terminal to execute a response of "packet reception" unlike the conventional example, so that the entire transmission ends. The required time is short, the transmission process is quick and reliable, and a plurality of control commands can be executed in a fixed order.
[0033]
Note that the transmitting terminal TR1 does not necessarily need to transmit the control packet P1 a plurality of times. Also in the second and subsequent embodiments, the transmitting terminal does not necessarily need to transmit the control packet a plurality of times.
[0034]
FIG. 3 is a block diagram showing a control packet transmission system 200 according to a second embodiment of the present invention.
[0035]
The control packet transmission system 200 has a transmitting terminal TR2, a receiving terminal RE2, and a network NW.
[0036]
The transmitting terminal TR2 transmits a control packet P2 having the same control information a plurality of times. The control packet P2 is sent according to the UDP protocol, and the control packet P2 includes an identifier, a command number indicating a command of “display”, and a command argument of a character string indicating a URL to be displayed. I have.
[0037]
That is, the control packet P2 is a control packet including predetermined control information and instructing display of a predetermined URL.
[0038]
When transmitting the control packet P2, any of unicast, multicast, and broadcast can be used according to the number of the receiving terminals RE2.
[0039]
The receiving-side terminal RE2 receives the control packet P2 via the network NW, and displays a specific URL on a browser that displays Internet contents by using the received control packet P2.
[0040]
The receiving terminal RE2 includes a packet receiving unit 12, an identifier storage unit 22, a control unit 32, and a browser 42.
[0041]
The packet receiving unit 12 is a part that receives the control packet P2 from the network NW. The identifier storage unit 22 is a part that stores the identifier of the control packet P2.
[0042]
The control unit 32 compares the identifier of the received control packet P2 with the identifier (old identifier) stored in the identifier storage unit 22, and if the identifiers are different from each other, the identifier (new identifier) in the received control packet P2 is compared. Identifier) is stored in the identifier storage unit 22, and a URL display command for displaying the URL of the control packet P2 is output. That is, the control unit 32 is an example of a control packet comparing unit that compares a newly received control packet with the control packet received immediately before.
[0043]
The browser 42 is a part that receives the URL display command of the control packet P2 from the control unit 32 and displays the URL of the control packet P2 that is the target of the display command.
[0044]
That is, when the control packet comparing unit determines that the newly received control packet is different from the control packet received immediately before, the browser 42 displays an example of the display unit that displays the URL in the control packet received immediately before. is there.
[0045]
Next, a control operation in the control packet transmission system 200 according to the second embodiment of the present invention will be described.
[0046]
First, the transmitting terminal TR2 transmits a control packet P2 having the same control information a plurality of times. The control packet P2 includes an identifier for determining the identity of the control information, and the receiving terminal RE2 receives the control packet P2 at the receiving unit 12 via the network NW, and the control unit 32 receives the control packet P2. The identifier (new identifier) of the control packet P2 is compared with the identifier (old identifier) of the control packet P2 already received, and if it is determined that the identifiers are different from each other, it is determined that the control packet P2 of the new control content has been received. Sends the URL specified by the argument of the command included in the control packet P2 to the browser 42 to execute the URL display command.
[0047]
If it is determined that the identifier (new identifier) of the received control packet P2 and the identifier (old identifier) of the already received control packet P2 are different from each other, the identifier already stored in the identifier storage unit 22 is determined. Is updated to the identifier of the control packet P2 having the new control content.
[0048]
When it is determined that the identifier of the received control packet P2 is the same as the identifier of the already received control packet P2, the control packet P2 is ignored as already received and the corresponding URL is not displayed.
[0049]
Similarly, when the next control packet P2 is received, the identifier of the received control packet P2 is compared with the identifier already stored in the received identifier storage unit 22, and it is determined that they have different identifiers. Then, it is determined that the control packet P2 of the new control content has been received, and the URL specified by the argument of the command included in the newly received control packet P2 is sent to the browser 42 to execute the URL display command. .
[0050]
Even when there are a plurality of receiving-side terminals RE2, the same processing as described above is performed on the other receiving-side terminals RE2.
[0051]
According to the control packet transmission system 200 according to the second embodiment of the present invention, when transmitting a control packet between terminals, it is necessary to cause the receiving terminal to execute a response of "packet received" as in the conventional example. Therefore, control packets can be transmitted quickly and reliably between terminals, and a specific URL can be displayed quickly and reliably.
[0052]
FIG. 4 is a block diagram showing a control packet transmission system 300 according to a third embodiment of the present invention.
[0053]
The control packet transmission system 300 includes a transmitting terminal TR3, a receiving terminal RE3, and a network NW.
[0054]
FIG. 5 is a diagram illustrating a configuration example of the control packet P3 used in the control packet transmission system 300.
[0055]
The transmitting terminal TR3 continuously transmits the control packet P3 having the same control information a plurality of times, and the control packet P3 includes an identifier for determining the identity of the control information as shown in FIG. And a next identifier which is an identifier corresponding to the control packet to be received next by the receiving terminal RE3.
[0056]
The receiving terminal RE3 includes the receiving unit 13, the identifier storage unit 23, the control unit 33, and the control command execution unit 43.
[0057]
The receiving unit 13 receives the control packet P3 via the network NW. The identifier storage unit 23 stores the received identifier and the next identifier.
[0058]
The control unit 33 compares the identifier of the newly received control packet P3 with the next identifier of the already received control packet P3, and if it is the same identifier, determines that the control packet P3 of the new control content has been received. Then, a control command corresponding to the new control content determined above is output. When the control unit 33 determines that the control packet P3 having the new control content has been received, the next identifier already stored in the identifier storage unit 23 is included in the control packet P3 having the new control content. Update to the next identifier.
[0059]
The control command execution unit 43 executes an operation according to the control command output from the control unit 33.
[0060]
The control unit 33 compares the identifier of the newly received control packet with the next identifier in the control packet received immediately before, and compares the identifier of the newly received control packet with the identifier of the control packet received immediately before. If the next identifier is the same, this is an example of a means for judging that the control packet having the new control content has been received.
[0061]
Next, a control operation of the control packet transmission system 300 will be described.
[0062]
First, when the receiving unit 13 of the receiving terminal RE3 receives a new control packet P3 via the network NW, the identifier included in the newly received control packet P3 and the identifier included in the already received control packet P3 are included. The control unit 33 compares the next identifier with the next identifier, and if it determines that the identifier is the same, determines that the control packet P3 having the new control content has been received, and the control unit 33 includes the control packet P3 in the new control packet P3. The control command execution unit 43 outputs the control command included in the new control packet P3.
[0063]
When the control unit 33 determines that the control packet P3 having the new control content has been received, the next identifier already stored in the identifier storage unit 23 is included in the newly received control packet P3. Updated to the next identifier.
[0064]
When it is determined that the identifier of the received control packet P3 is different from the next identifier of the already received control packet P3, the received control packet P3 is ignored as a received control packet.
[0065]
At the time of startup, a predetermined initial value is stored in the identifier storage unit 23 as a next identifier. When a control packet having an identifier matching the initial value (next identifier) as the next identifier is received, the above operation is started.
[0066]
In addition, an end identifier is predetermined, and as an identifier of the control packet, the end identifier is not newly provided except for the above-described identifier and the next identifier, and an end identifier is set as the next identifier. Send it. By doing so, the operation of the receiving terminal RE3 can be stopped without newly providing an end identifier.
[0067]
When the next control packet P3 is received, similarly to the above, the identifier of the received control packet P3 is compared with the next identifier already stored in the received identifier storage unit 23, and the received control packet P3 is received. If it is determined that the identifier of P3 is the same as the next identifier already stored in the received identifier storage unit 23, the control command is executed. If there are a plurality of receiving-side terminals RE3, the second and subsequent receiving-side terminals RE3 execute the same processing as described above.
[0068]
According to the control packet transmission system 300, a control packet can be reliably transmitted between terminals by rapid processing, and a plurality of control commands can be more reliably executed in a predetermined order.
[0069]
The control packet transmission system 300 may be applied to the control packet transmission system 200.
[0070]
FIG. 6 is a block diagram showing a control packet transmission system 400 according to a fourth embodiment of the present invention.
[0071]
The control packet transmission system 400 according to the fourth embodiment includes a transmitting terminal TR4, a receiving terminal RE4, and a network NW.
[0072]
The transmitting terminal TR4 is a terminal that transmits a control packet P4 having the same control information a plurality of times, and the control packet P4 includes an identifier for judging the identity of the control information and a setting for the transmitting terminal TR4. Password is included.
[0073]
FIG. 7 is a diagram illustrating a configuration example of a control packet P4 used in the control packet transmission system 400.
[0074]
The receiving terminal RE4 is set with a unique password, and includes a receiving unit 14, an identifier storage unit 24, a control unit 34, and a control command execution unit 44.
[0075]
In the identifier storage unit 24, a password unique to the receiving terminal RE4 is set.
[0076]
The receiving terminal RE4 receives the control packet P4 via the network NW, and determines that the password in the received control packet P4 matches the unique password set in the identifier storage unit 24. Only when it is determined by 34, the same operation as that of the control packet transmission system 100 is executed.
[0077]
That is, the receiving terminal RE4 receives the control packet P4 when the password set in the transmitting terminal TR4 matches the unique password set in the receiving terminal RE4. A terminal that can do it.
[0078]
According to the control packet transmission system 400, among a plurality of receiving terminals on the network NW, control for only receiving terminals having the same password can be executed by broadcast or multicast, and the control packet transmission system 400 can be executed quickly and The control packet can be reliably transmitted between the terminals, and the plurality of control commands can be more reliably executed in a predetermined order.
[0079]
Further, the control packet transmission system 400 can be applied to the control packet transmission systems 200 and 300.
[0080]
In addition, each processing operation in the control packet transmission systems 100, 200, 300, and 400 can be grasped as an invention of a method, and in this case, control packets can be reliably transmitted between terminals by rapid processing.
[0081]
In each of the above embodiments, since the receiving terminal performs each determination based on the identifier included in the control packet, it is possible to reliably determine that the control packet having the new control content has been received.
[0082]
The above operation in the above embodiment may be expressed by a computer program, and the expressed computer program may be recorded on a recording medium such as a CD, FD, HD, or semiconductor memory. Good.
[0083]
【The invention's effect】
ADVANTAGE OF THE INVENTION According to this invention, when transmitting a control packet to several receiving side terminals, there exists an effect that a control packet can be transmitted quickly and reliably between terminals.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a control packet transmission system 100 according to a first embodiment of the present invention.
FIG. 2 is a diagram showing a configuration example of a control packet P1 in the embodiment.
FIG. 3 is a block diagram showing a control packet transmission system 200 according to a second embodiment of the present invention.
FIG. 4 is a block diagram showing a control packet transmission system 300 according to a third embodiment of the present invention.
FIG. 5 is a diagram showing a configuration example of a control packet P3 used in the control packet transmission system 300.
FIG. 6 is a block diagram showing a control packet transmission system 400 according to a fourth embodiment of the present invention.
FIG. 7 is a diagram showing a configuration example of a control packet P4 used in the control packet transmission system 400.
FIG. 8 is a block diagram showing a conventional control packet transmission system 500.
[Explanation of symbols]
100 to 400: control packet transmission system,
TR1 to TR4 ... Sending terminal,
RE1 to RE4 ... receiving side terminals,
R1 to P4 ... control packets,
11 to 14: a packet receiving unit,
21 to 14... Identifier storage unit,
31 to 34 ... control unit,
41, 43, 44 ... control command execution unit,
42. Browser.

Claims (7)

A transmitting terminal that transmits a control packet having predetermined control information;
Control packet comparing means for comparing the newly received control packet with the control packet received immediately before; and the control packet comparing the newly received control packet and the immediately preceding control packet with the control packet. A receiving terminal comprising: control execution means for executing the content of the control information included in the control packet received immediately before, when the comparison means determines;
A control packet transmission system, comprising: A transmitting terminal having predetermined control information and transmitting a control packet instructing display of a predetermined URL;
Control packet comparing means for comparing the newly received control packet with the control packet received immediately before; and the control packet comparing the newly received control packet and the immediately preceding control packet with the control packet. A receiving terminal provided with display means for displaying a URL in the control packet received immediately before when the comparing means determines;
A control packet transmission system, comprising: In claim 1 or claim 2,
The control packet transmission system according to claim 1, wherein the transmitting terminal is a terminal that transmits a control packet having the same control information a plurality of times. In claim 1 or claim 2,
The control packet comparing means determines that the newly received control packet is different from the immediately preceding control packet by comparing two identifiers included in each of the two control packets. A control packet transmission system characterized by being means. In claim 1 or claim 2,
The control packet is a packet including an identifier and a next identifier which is an identifier corresponding to a control packet to be received next,
The control packet comparing means compares the identifier of the newly received control packet with the next identifier in the control packet received immediately before, and compares the identifier of the newly received control packet with the identifier of the control packet received immediately before. A control packet transmission system, characterized in that if the next identifier in the received control packet is the same, it is means for judging that the control packet having new control contents has been received. In claim 1 or claim 2,
The control packet is a packet including a password set in the transmitting terminal,
A unique password is set on the receiving terminal,
The receiving terminal, when the password set in the transmitting terminal and the unique password set in the predetermined receiving terminal match, the predetermined receiving terminal transmits the control packet A control packet transmission system characterized by being a terminal capable of receiving. In a control packet transmission system for transmitting a control packet between terminals,
A transmitting terminal that transmits control packets having the same control information to each other a plurality of times.

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