KR100255214B1 - Decision method of bandwidth - Google Patents

Abstract

PURPOSE: A method of deciding transmitting/receiving bandwidth of a communication system is to increase the number of users without increasing of the bandwidth provided to one network of the communication system using a serial communicating network, and also minimize transmitting speed between users. CONSTITUTION: When receiving a call set-up requiring signal from a transmitting portion, a controlling portion receives transmitting speed data. The received transmitting speed data is compared with a transmitting speed of a converting portion. A minimum value among the compared transmitting speeds is served as the transmitting speed, and then set to the transmitting portion. A data generating portion is controlled by the controlling portion, based on the transmitting speed set to the transmitting portion, to transmit transmitting speed deciding data to a calling part. A communicating operation is performed at the set transmitting speed. The transmitting/receiving operation of the transmitting speed data is performed through a data line.

Description

Transmission / reception bandwidth determination method in communication system

The present invention relates to a transmission / reception bandwidth determining method of a communication system, and more particularly, to a method for determining data transmission / reception bandwidth in a serial high speed data transmission system.

In general, in a system using serial communication, a bandwidth for transmission in a system connected to one serial network is determined. Therefore, the system using the serial communication has to increase the maximum transmission speed of the device connected to the serial system or to increase the bandwidth of the network in order to increase the transmission efficiency.

However, the technique of increasing the maximum transmission speed of the device connected to the serial network is not easy, and the method of increasing the bandwidth of the network is not only time-consuming but also requires economical loss because the current network needs to be replaced. There is this. In addition, when the number of users connected to the one serial network increases, the possibility of the user of the serial network not being able to occupy the network gradually increases, and when the bandwidth of one communication device is limited to prevent the communication speed, There was a downside.

Accordingly, an object of the present invention is to provide a method for accommodating more users without increasing the bandwidth provided in one network in a communication system using a serial network.

Another object of the present invention is to provide a method for minimizing transmission speed between users in a communication system using a serial network.

According to the present invention for achieving the above object, a voice call method of a serial communication network includes dialing at a caller to transmit call setup request data to a receiver, and transmitting the call setup data to the receiver when the call setup data is not busy. Transmitting data, receiving transmission rate determination data from the receiving side after transmitting the transmission rate, and setting a transmission rate to a conversion unit that receives the received call determination data and performs compression during a voice call. And performing a call at the set transmission rate, wherein transmission and reception of the transmission rate data is performed through a data line.

1 is a block diagram of a digital key-phone telephone to which the present invention is applied.

2 is a control flowchart of setting transmission and reception bandwidth in a communication terminal according to the present invention.

3 is a control flowchart for determining a transmission speed of a hand signal according to an embodiment of the present invention.

4A is a protocol sequence table transmitted and received over a data line according to an embodiment of the invention.

4B shows transmission rate data transmitted in accordance with an embodiment of the invention.

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

1 is a block diagram of a digital key-phone telephone to which the present invention is applied.

Hereinafter, the present invention will be described in detail with reference to FIG. 1.

The control unit 111 controls the overall operation of the keypad phone, and in particular, performs control according to the setting of the transmission bandwidth in the data transmission according to the communication according to the present invention. The transmitter 112 includes a B channel for data transmission and a D channel for signaling, and may increase or decrease the line according to the characteristics of the digital key phone. In addition, the transmission unit 112 is connected to the serial network according to the present invention includes a serial transmission port for transmitting and receiving data, and performs communication in the serial network using the port. The data detecting and generating unit 113 analyzes the data received from the transmitting unit 112 under the control of the control unit 111 and outputs the data to the control unit 111. The data to be transmitted to the serial network to which the key phone is connected under the control of the control unit 111. Is generated and output to the transmission unit 112. The channel extension 114 is installed to occupy more trunk lines in the digital key phone. The converter 115 compresses and converts the data to be transmitted under the control of the controller 111, or decompresses the received and decompressed data and outputs the decompressed data to the interface 116 through a call. The call path connection unit 116 is connected to a hand set 117, a speaker SPK, and a microphone MIC required for a voice call. The memory unit 118 is divided into a program memory (not shown) for storing program data necessary for the control of the controller 111 and a data memory (not shown) for temporarily storing the data generated during the control. The key input unit 119 has a key matrix structure (not shown), includes numeric keys for dialing, function keys for performing a special function, and an LED matrix for displaying the operation of the function keys. The key input unit 119 generates a key input signal corresponding to a key pressed by the user and outputs the key input signal to the controller 111. The display unit 120 displays the operation process and the current state of the digital keypad phone under the control of the control unit 111, and is usually composed of LCD (LCD).

2 is a control flowchart for setting transmission and reception bandwidth in a communication terminal according to the present invention.

Hereinafter, the present invention will be described in detail with reference to FIGS. 1 to 2.

The control unit 111 maintains the standby state in step 200, and determines whether the handset 117 is hooked off in step 202. The control unit 111 performs dialing in response to a key input by the user when the handset 117 is hooked off. The controller 111 checks whether a busy signal is received from the transmitter 112. The control unit 111 checks whether the handset 117 is hooked on in step 218 without transmitting call setup data when the test result is in a call. The controller 111 checks whether the handset 117 ends when the handset 117 is hooked on and receives a busy signal through the data line when the handset 117 is not hooked on.

When the controller 111 proceeds from step 206 to step 208, the controller 111 controls the data detection and generation unit 113 to generate a call setup request signal, and outputs the generated call setup data to the transmitter 112. The control unit 111 outputs call setup data in step 208, and outputs speed data that can be transmitted from the keypad phone in step 210 through a data line. At this time, the transmission rate data output through the data line can be added to the progress of the protocol and sent, which is shown in Figure 4a as an example. In step 210, the control unit 111 displays all compression rates of the transmitted data when transmitting the transmission rate in the progress of the protocol as shown in FIG. 4A. This is shown in Figure 4b. Therefore, if the voice phone is capable of transmitting voice data at a speed of 1 Kbps to 128 Kbps, the control unit 111 transmits a compression rate that can be transmitted from 0 bits to 7 bits, respectively.

In addition, the control unit 111 terminates the data transmission reception in step 210 and proceeds to step 212 to check whether the speed setting data is received from the telephone of the called side. When the control unit 111 receives data about the compression rate, the control unit 111 proceeds to step 214 and sets the voice compression rate transmitted and received by the converter 115. On the other hand, if the data for the compression rate is not received, the control unit 111 sets the compression rate of the voice transmitted and received by the conversion unit 115 by setting the compression to the telephone of the called side impossible. When all the processes up to step 214 are completed, the controller 111 proceeds to step 216 to proceed to the call mode.

3 is a control flowchart for determining a transmission speed of a hand signal according to an embodiment of the present invention.

Hereinafter, the present invention will be described in detail with reference to FIGS. 1 to 3.

The controller 111 maintains the standby state in step 300, and proceeds to step 302 to check whether a call connection request signal is received through the data line of the transmitter 112. When the test result call connection request signal is not received, the control unit 111 proceeds to step 300, and when the test result call connection request signal is received, the controller 111 proceeds to step 304 to receive transmission rate data. In this case, the received data rate refers to data as shown in FIGS. 4A to 4B. The control unit 111 reads out the transmission rate data received in step 304 and a transmission rate that can be compressed during transmission of the conversion unit 115 from the memory unit 118. In step 306, the controller 111 compares the reception transmission rate with the transmission rate read from the memory unit 118 and sets a minimum value among common transmission rates. Accordingly, the control unit 111 sets the transmission rate to the 115 and proceeds to step 310. The control unit 111 transmits the transmission rate data set through the data line of the transmission unit of the transmission unit 112 by controlling the data detection and generation unit 113 with the transmission rate data set in step 310. When the controller 111 ends 310, the controller 111 performs a call mode in step 312. Therefore, both sides transmit data at the set transmission rate.

On the other hand, if the transmission rate data is not received in step 304, the control unit 111 determines that the calling party cannot transmit / receive the compressed data, and proceeds to step 312 without proceeding to step 306 to perform the call mode. do.

As described above, by compressing and transmitting data transmitted / received during a voice call in a key phone connected to the serial network, the call volume can be increased without expanding the transmission path.

Claims (4)

In the voice call method of a serial communication network, Dialing at the calling party and sending call setting request data to the receiving party; Transmitting transmission rate data to the receiving side when not in a call after transmitting the call setting data; Receiving transmission rate determination data from the receiving side after transmitting the transmission rate; Setting a transmission rate in a conversion unit which receives the received call determination data and performs compression during a voice call; And determining a call at the set transmission rate. The method of claim 1, Transmitting and receiving bandwidth determination method of the communication system, characterized in that the transmission and reception of the transmission data via the data line. In the voice call method of a serial communication network, Receiving transmission rate data when a call setup request signal is received from the transmission unit; Comparing the received data rate with the data rate of the converter; Setting a minimum value of the compared transmission rates as the transmission speed and setting the transmission unit; Transmitting a transmission rate determination data to the call side by controlling a data generation unit at a transmission rate set in the transmission unit; Transmitting and receiving bandwidth determining method in a communication system, characterized in that for performing a voice call at the determined transmission rate. The method of claim 3, Transmitting and receiving bandwidth determination method of the communication system, characterized in that the transmission and reception of the transmission data via the data line.

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