KR101217208B1 - Method of control for a data transmission between the protocol layers in portable device - Google Patents

Abstract

        The present invention relates to a method for controlling data transmission between protocol layers of a mobile terminal, and more particularly, to control data transmission amount from an application layer to a transport layer to maintain a buffer occupancy ratio of a transport layer within a certain range. It relates to a transmission control method.

        To this end, the present invention, in the data transmission between the protocol layer of the mobile terminal,

        A first step of setting an upper limit criterion and a lower limit criterion of the buffer occupancy of the lower layer of the protocol; A second step of transmitting data at every transmission period (Tn) from an upper layer of the protocol to a lower layer; A third step of measuring a buffer occupancy rate of the lower layer; The transmission period (Tn) for transmitting data from the upper layer to the lower layer of the protocol according to the measured buffer occupancy rate is controlled, the transmission period (Tn) and the transmission period according to a constant function relationship of the buffer occupancy ( And a fourth step of controlling Tn).

       As a result, the buffer occupancy ratio of the transport layer is maintained within a certain range when data is transmitted from the application layer to the transport layer, thereby preventing underflow and overflow in the buffer of the transport layer. Since it is prevented, the data transfer state is stabilized and the data transfer rate is improved.

Protocol, Application Layer, Transport Layer, Data Transfer, Buffer Occupancy

Description

Method of control for a data transmission between the protocol layers in portable device}

        1 is a configuration diagram of an embodiment of a mobile terminal device of the present invention.

        2 is a flowchart illustrating a data transmission control method of the present invention.

       3 is a graph showing the functional relationship between the data transfer period of the present invention and the buffer occupancy rate of the protocol layer.

        The present invention relates to a method for controlling data transmission between protocol layers of a mobile terminal, and more particularly, to control data transmission amount from an application layer to a transport layer to maintain a buffer occupancy ratio of a transport layer within a certain range. It relates to a transmission control method.

        In the process of data transmission and reception in a data communication terminal on a general network, an open systems interconnection (OSI) model or transmission control protocol / The Internet Protocol (TCP / IP, Transmission Control Protocol / Internet Protocol) model is used.

        The OSI model includes an application layer, a presentation layer, a session layer, a transport layer, a network layer, a data link layer, and a physical layer. The TCP / IP model is the same as the OSI model, but includes the application layer, the transport layer, the internet layer, and the network connection layer. It consists of 4 layers including (network access layer).

        In the existing OSI model or the TCP / IP model, data transmission from the application layer to the transport layer is transmitted at a constant rate (constant data transmission period) without checking the transmission status.

        However, due to the miniaturization of the portable terminal device, the components of the portable terminal device are limited, and accordingly, the buffer capacity of the buffer device constituting the transmission layer is limited.

        Therefore, when the connection between the transport layer and the network is not smooth when the data transmission rate from the application layer to the transport layer is constant, the buffer occupancy rate of the buffer device of the transport layer increases, so that an overflow occurs in the buffer device of the transport layer. overflow may occur.

        On the other hand, if the connection between the transport layer and the network is smooth while the data transmission rate from the application layer to the transport layer is constant, the buffer occupancy rate of the buffer layer of the transport layer decreases, so that the buffer layer of the transport layer underflows. Symptoms may occur.

        If the overflow occurs, an abnormal operation of the data communication device may occur, and if an underflow occurs, the data transfer speed may be significantly reduced.

        SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, wherein a transport layer buffer is empty when data is transmitted between communication protocol layers of a mobile terminal, in particular, from an application layer to a transport layer. The purpose of this study is to maintain the buffer occupancy of the transport layer within a certain range by monitoring the data transfer rate and adjusting the data transfer amount.

       In addition, the object of the present invention is to stabilize the data transmission state and improve the data transmission speed by preventing underflow and overflow in the buffer of the transport layer.

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According to an embodiment of the present invention, in the data transmission between protocol layers of a mobile terminal, the first step of setting the upper limit and the lower limit of the buffer occupancy of the lower layer of the protocol; A second step of transmitting data at every transmission period (Tn) from an upper layer of the protocol to a lower layer; A third step of measuring a buffer occupancy rate of the lower layer; The transmission period (Tn) for transmitting data from the upper layer to the lower layer of the protocol according to the measured buffer occupancy rate is controlled, the transmission period (Tn) and the transmission period according to a constant function relationship A data transfer control method between protocol layers of a mobile terminal including a fourth step of controlling Tn) is achieved.
Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. It should be noted that the same elements in the figures are represented by the same numerals wherever possible. In the following description, well-known functions or constructions are not described in detail since they would obscure the invention in unnecessary detail.

        1 is a configuration diagram of an embodiment of a portable terminal device of the present invention, Figure 2 is a flow chart showing a data transmission control method of the present invention.

        Referring to the communication protocol layer, the procedure of data transmission control between protocol layers of the mobile terminal according to the present invention will be described.

        When the mobile terminal enters the standby mode in the ON state (step 10) (step 100), the application layer and transmission layer mode of the communication protocol of the mobile terminal is driven (step 110). In this case, it is determined whether the upper and lower limits of the buffer occupancy rate of the transport layer (that is, the lower layer) of the protocol are set (step 120). If the upper limit value and the lower limit value of the buffer occupancy rate of the transport layer are not set, the user of the portable terminal sets the upper limit value and the lower limit value of the buffer occupancy rate of the transport layer through the key input unit 21 of the portable terminal (step 130).

        When the upper limit and the lower limit of the buffer occupancy rate of the transport layer are set, information is input to the portable terminal controller (step 140). In the case of a mobile phone, the information may be voice, image, video, and other data information. Information may be input through the key input unit 21 of the portable terminal or other components (camera, microphone, etc.) of the portable terminal.

        The portable terminal controller transmits data from the application layer to the transmission layer at every variable data transmission period Tn (step 150). At this time, the current buffer occupancy of the transport layer is displayed and measured through the display unit 22 of the mobile terminal (step 160). The variable data transmission period Tn will be described below with reference to FIG. 3.

       In this case, the portable terminal controller determines whether the current buffer occupancy rate of the transport layer is within a lower limit or an upper limit range of the set buffer occupancy rate (step 170).

        If the current buffer occupancy rate of the transport layer is within the lower limit or the upper limit of the set buffer occupancy rate, steps 140 to 170 are repeated to continue data transmission from the application layer to the transport layer.

       If the current buffer occupancy of the transport layer is out of the lower limit or upper limit of the set buffer occupancy, the portable terminal controller stops data transmission from the application layer to the transport layer (step 180).

        The portable terminal controller determines whether the buffer occupancy rate of the transport layer exceeds the set buffer occupancy upper limit (step 190). If the buffer occupancy rate of the buffer device of the transport layer exceeds the set buffer occupancy upper limit, the portable terminal controller expands the data transmission period Tn from the application layer to the transport layer (step 200). The expansion of the data transmission period Tn will be described with reference to FIG. 3 below.

        On the other hand, the portable terminal controller determines whether the buffer occupancy rate of the transport layer is lower than the set buffer occupancy lower limit (step 210). If the set buffer occupancy lower limit is not reached, the portable terminal controller reduces the data transmission period Tn from the application layer to the transmission layer (step 220). The reduction amount of the data transmission period Tn will be described with reference to FIG. 3 below.

If the buffer occupancy rate of the buffer device of the transport layer is maintained within the range of the lower or upper limit of the buffer occupancy set by the expansion or contraction of the data transmission period Tn, the portable terminal controller resumes data transmission from the application layer to the transport layer. (Step 230). While the data transmission from the application layer to the transport layer continues in step 230, the controller of the portable terminal determines whether data transmission from the application layer to the transport layer is completed (step 240). The data transmission from the application layer to the transport layer is continued, and if data transmission is completed, the data transmission from the application layer to the transport layer is terminated (step 20).

        3 is a graph showing the relationship between the data transfer period Tn and the buffer occupancy rate Bm of the transmission layer buffer device.

        The buffer occupancy ratio Bm of the X-axis of FIG. 3 represents the extent to which data is stored in the buffer of the transport layer. The larger the buffer occupancy ratio (Bm), the less space is available to store data in the buffer of the transport layer.

        The Y axis of FIG. 3 represents a transmission period Tn. The data transmission period Tn means a delay time between the digital data packet and the packet. That is, it indicates the time interval between the packet Pn-1 and the packet Pn.

        In FIG. 3, the relationship between the data transmission period Tn and the buffer occupancy ratio Bm of the transmission layer buffer device is represented by an exponential function relationship that is easily implemented. If the arbitrary position of the X-axis of the exponential function graph is set as the upper limit value (bm2) and the lower limit value (bm1) of the buffer occupancy rate (Bm), the buffer occupancy ratio of the transport layer is determined by the upper limit value (bm2) and the steps 100 through 240 described above. It can be kept constant between the lower limit values bm1.

        The transmission period Tn varies with the buffer occupancy rate Bm. In other words, if the buffer occupancy ratio Bm increases, the transmission period Tn increases. Increasing the transmission period (Tn) means that the data transmission time interval from the application layer to the transmission layer is increased, and the transmission layer from the application layer per unit time until the transmission layer receives the response data (ACK) from the server on the network. Since less data is transmitted, the buffer occupancy rate of the transport layer can be reduced.

        The data transmission period Tn is a value that is dynamically changed by the portable terminal controller 24. The portable terminal controller 24 checks the buffer occupancy ratio Bm of the transmission layer for each transmission period Tn to determine the set upper limit occupation rate. If it exceeds, the transmission period Tn is enlarged, and if it falls below the set lower limit, the transmission period Tn is reduced.

Therefore, since the buffer occupancy rate of the transport layer is controlled within a certain range when data is transmitted from the application layer to the transport layer, when the data transmission state of the network is good, underflow into the buffer of the transport layer ( Underflow) does not occur, resulting in an increase in the data transfer rate, and at a point where the network data transfer status is not good, overflow does not occur in the buffer of the transport layer, resulting in stability of the buffer of the transport layer. Is increased.

        According to the present invention, the buffer occupancy rate of the transport layer is maintained within a certain range when data is transmitted from the application layer to the transport layer, thereby underflow and overflow in the buffer of the transport layer. ), The data transmission status is stabilized and the data transmission speed is improved.

Claims (7)

        In data transmission between protocol layers of a mobile terminal,         A first step of setting an upper limit criterion and a lower limit criterion of the buffer occupancy of the lower layer of the protocol;         A second step of transmitting data at every transmission period (Tn) from an upper layer of the protocol to a lower layer;         A third step of measuring a buffer occupancy rate of the lower layer;         The transmission period (Tn) for transmitting data from the upper layer to the lower layer of the protocol according to the measured buffer occupancy rate is controlled, the transmission period (Tn) and the transmission period according to a constant function relationship of the buffer occupancy ( And a fourth step of controlling Tn).         The method of claim 1,         In the fourth step, when the buffer occupancy is out of the upper limit criterion, the data transmission is stopped and at the same time, the data transmission period is extended so that the buffer occupancy of the lower layer returns to the upper limit criterion, and the data transmission is resumed. And a method for controlling data transmission between protocol layers of a mobile terminal.         The method of claim 1,         In the fourth step, when the buffer occupancy is out of the lower limit criterion, the data transmission is interrupted and the data transmission period is shortened so that the buffer occupancy of the lower layer returns to the lower limit criterion, and the data transmission is resumed. And a method for controlling data transmission between protocol layers of a mobile terminal.         The method of claim 1,         And the upper layer is an application layer, and the lower layer is a transmission layer. delete         The method of claim 1,         And the transmission period and the buffer occupation rate have an exponential function relationship.         The method of claim 1,         The upper limit or lower limit of the buffer occupancy rate is determined based on a specific point on a graph indicating a functional relationship between the transmission period and the buffer occupancy rate.

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