KR20000037649A - Due time value setup method in determining master/slave between terminals - Google Patents

Abstract

PURPOSE: A due time value setup method in determining the master/slave between terminals is provided to set up a due time value of until receiving an acknowledge signal after transmitting a request signal as an optimum value adaptively in network environment. CONSTITUTION: In requesting the connection to a second H.323 terminal from a first H.323 terminal(300), the first H.323 terminal counts a required time after transmitting a connection request signal(302). The first H.323 terminal judges whether a master acknowledge signal is received successfully(304). The first H.323 terminal stops counting the required time and stores the counted value as a current due time value(306). The first H.323 terminal calculates a difference between the stored current due time value and a previous due time value(308). The first H.323 terminal adds the difference to the current due time value and sets up as a due time value for the next connection(310).

Description

A method of setting due time value for master / slave determination of H.323 terminals

The present invention relates to a method for determining a master / slave between terminals in a network. In particular, when determining a master / slave between two terminals in order to prevent an access collision of limited network resources, an acknowledgment after transmitting a request signal is determined. The present invention relates to a method for setting a duration time in determining a master / slave between terminals so that the duty time until a signal is received can be adaptively set to an optimal value in a network environment.

In general, an H.323 terminal that complies with the H.323 communication standard is a multimedia terminal capable of transmitting and receiving multimedia data through the Internet network, as shown in the conceptual diagram of FIG. H.323 terminals 100 and 300 are connected.

Meanwhile, the H.323 terminals 100 and 300 are connected to each other in a peer-to-peer connection manner to transmit and receive multimedia data.

In detail, the master and the slave are first determined between the two terminals in order to prevent mutual collisions when the terminals are accessed by limited network resources. The master / slave decision will be described in detail with reference to FIG. same.

FIG. 2 is a diagram for explaining a master / slave determination between terminals, in which the first and second cases indicate connection success, and the third case illustrates connection failure.

First, in order to determine a master and a slave between two terminals, in the first case of FIG. 2, the first H.323 terminal 100 transmits a request signal for a connection request, and the second H.323 terminal ( 300 successfully transmits the Slave Acknowledgment (Ack-Slave) signal if it can determine itself as the master after successfully receiving the request signal.

Then, when the slave recognition signal is successfully received again, the first H.323 terminal 100 determines itself as a slave and transmits a master recognition signal (Ack-Master).

Next, the second H.323 terminal 300 successfully receives a master recognition signal applied from the first H.323 terminal 100 and finally determines itself as a master to perform communication.

In contrast, in the second case of FIG. 2, the first H.323 terminal 100 transmits a request signal for a connection request, and the second H.323 terminal 300 successfully receives the request signal. Then, if it can determine itself as a slave, it sends an Ack-Master signal.

Then, when the master recognition signal is successfully received again, the first H.323 terminal 100 determines itself as a master and transmits a slave recognition signal (Ack-Slave).

Next, when the second H.323 terminal 300 successfully receives the slave recognition signal applied from the first H.323 terminal 100, the second H.323 terminal 300 finally determines itself as a slave to perform communication.

Meanwhile, in the above-described master / slave determination, the time from the terminal transmitting the request signal to the recognition signal after receiving the request signal is referred to as a due time value. The value was fixed. However, according to the environment of the network, the tutor value from transmitting the request signal to receiving the recognition signal is variable.

Referring to the third case of FIG. 2, the first H.323 terminal 100 transmits a request signal, and the second H.323 terminal 300 receives the request signal and then slaves itself. When it is possible to operate as a master, the master recognition signal (Ack-Master) is transmitted.

At this time, if the delivery time is delayed due to the network environment of the Internet network 200 and the first H.323 terminal 100 does not receive the master recognition signal even after the preset duty time elapses, the release after the duty time elapses. A (Release) signal is transmitted, and the second H.323 terminal 300 receives the release signal and instructs rejection of the master / slave decision.

Therefore, if the recognition signal is not received within the set duty time value after transmitting the request signal, the connection is failed and this process is simply repeated, and simply fixing the duty time value to a specific value in advance is very unreasonable. .

Accordingly, in the present invention, after the transmission of the request signal when determining the master / slave between the two terminals in order to prevent an access collision of limited network resources, the duty time until the acknowledgment signal is received is transmitted to the network environment. In order to apply adaptively, a method of predicting and optimally setting the duration time of the next connection by using the respective duration time counted in the current connection and the previous connection is explored.

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned conventional problem. The object of the present invention is to recognize a master / slave decision between two terminals in order to prevent an access collision of limited network resources, and then, after transmitting a connection request signal, (acknowledge) calculates the difference between the current time counted duty time until the signal is received and the duty time counted at the previous connection, and corrects the difference calculated at the current time counted at the next connection. By calculating and using the value as the duty time value, it determines the master and slave between the two terminals and sets the optimal duty time value corresponding to the network environment based on the previous statistics that are connected to maximize the connection efficiency. The present invention provides a method for setting a duty time value when determining a master / slave between terminals.

1 is a conceptual diagram of an H.323 terminal communication using an Internet network.

2 is a diagram for explaining master / slave determination between terminals.

3 is a flowchart illustrating a process for setting a duration time in determining a master / slave between terminals according to the present invention.

<Explanation of symbols for main parts of drawing>

100: first H.323 terminal 200: Internet network

300: second H.323 terminal

In the method of setting a master time and time between two terminals according to the present invention, a method for determining a master and a slave between two terminals in a network is provided. Counting a duty time until the recognition signal is applied and storing the current time as a current duty time, and calculating a difference between the current duty time and a previous duty time counted at the time of a previous connection previously stored; And adding the calculated difference to the current duty time value and setting and storing the calculated difference as the duty time at the next connection.

The above objects and various advantages of the present invention will become more apparent from the preferred embodiments of the invention described below with reference to the accompanying drawings by those skilled in the art.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

In the above connection process by determining the master / slave between the first H.323 terminal 100 and the second H.323 terminal 300 of FIG. 1 through the Internet network 300, the master between terminals according to the present invention. It will be described in detail with reference to the flow chart of Figure 3 attached to the process of setting the time value when determining / slave.

First of all, according to the present invention, each terminal does not use a fixed duration time at a predetermined value at initialization, but adaptively calculates and sets an optimal value corresponding to the actual network environment.

When requesting connection from the first H.323 terminal 100 to the second H.323 terminal 300 (step 300), the first H.323 terminal 100 first transmits a request signal for the connection request. The predetermined time is then counted (step 302).

Then, after successfully receiving the request signal, the second H.323 terminal 300 transmits an acknowledgment (Ack-Master) signal, for example, if it can determine as a slave.

Accordingly, the first H.323 terminal 100 again determines whether the master recognition signal is successfully received (step 304), and when the master recognition signal is received, determines that the master is a master and the slave recognition signal (Ack-Slave). And the predetermined time count ends, and the counted value is stored as the current duty time value (step 306).

In this case, when the second H.323 terminal 300 successfully receives the slave recognition signal applied from the first H.323 terminal 100, the second H.323 terminal 300 finally determines itself as a slave to perform communication.

That is, the first H.323 terminal 100 is connected as a master and the second H.323 terminal 300 is determined as a slave to communicate with each other through the internet network 200.

On the other hand, after the above-described step 306, the first H.323 terminal 100 calculates the difference between the counted and stored current duty time value and the previous duty time value counted at the time of the previous connection previously stored (step 308). ).

Next, the difference calculated in step 308 described above is added to the current duty type value, that is, the difference between the current duty time value and the previous duty time value, and this addition-corrected duty value is set as the duty time at the next connection. (Step 310).

Summarizing the above-described steps (308, 310) it can be expressed as Equation 1 below.

here, Δ (t) Is the time of the car, TV (t) Is the current duty time value, TV (t-1) Is the previous duty time value, TV (t + 1) Represents the next duty time value.

Therefore, the connection efficiency is improved by adaptively updating and storing the time waiting for the recognition signal from the counterpart terminal after viewing the request signal at the time of the connection request, corresponding to the most recent network environment.

Although the present invention has been shown and described with respect to particular embodiments, it will be apparent to those skilled in the art that various changes and modifications can be made therein without departing from the spirit and scope of the invention as indicated by the claims. Anyone can easily know.

As described above, according to the present invention, in determining a master / slave between two terminals in order to prevent an access collision of limited network resources, a duty time value until the acknowledgment signal is received after the request signal is transmitted. By operating to the optimal value adaptively to the most recent network environment, it is effective to increase the connection efficiency between the two terminals in response to the transmission state of the network that is variable in each time.

Claims (1)

In a method for determining a master and a slave between two terminals on a network, Counting and storing the duty time from the counterpart terminal until the recognition signal for the master or the slave is applied from the counterpart terminal as the current duty time; Calculating a difference between the current duty time value and a previous duty time value counted at a previous connection previously stored; And adding the calculated difference to the current duty time value and setting and storing the calculated difference as a duty time at the next connection. 6.