KR20050078947A - Method for cell reselection in mobile phone - Google Patents

Abstract

The present invention provides a method for efficiently using a battery by allowing a user to select a path loss criterion parameter C1 value which is stored in various ways in advance without searching for a new neighbor cell every time. It is about. To this end, the present invention provides a method for cell reselection in a mobile communication terminal, the method comprising: measuring a path loss reference parameter C1 value for a cell at a location where the mobile communication terminal is registered and cells adjacent to the cell; Displaying a message asking whether to change the path loss reference parameter C1 value of the current cell when reselection is required, and depending on the user setting value input by the user when there is a change in the C1 value of the current cell by the user; Adjusting the C1 value of the current cell; and maintaining the current cell as a serving cell when the adjustment result indicates that the C1 value of the current cell is less than or equal to a predetermined threshold for maintaining camping in the current cell. It features.

Description

Cell reselection method in mobile terminal {METHOD FOR CELL RESELECTION IN MOBILE PHONE}

The present invention relates to a cell reselection technique, and more particularly, to a cell reselection method in a mobile communication terminal.

In general, when a mobile communication terminal is powered on, the mobile communication terminal searches for and finds a cell of a selected Public Land Mobile Network (PLMN), selects it, and adjusts a channel to access the communication network. do. As long as the mobile communication terminal is powered on as described above, cell selection and reselection are performed in a continuous process. In particular, when the mobile communication terminal moves from cell to cell, the mobile communication terminal must disconnect from the distant cell and reconnect with a new suitable cell capable of receiving better signals. The cell reselection process of the mobile communication terminal includes selecting a more suitable cell and associated Radio Access Technology (RAT) based on the radio wave measurement and cell reselection criteria of the connected state. As described above, in the conventional cell reselection method, when a neighbor cell that satisfies the cell reselection criterion occurs, a primary common control channel (P-CCPCH) is set up and a network is determined to determine whether the corresponding cell is a cell suitable for the terminal. Receive cell information from

This cell reselection process will be described with reference to FIG. 1. 1 is a schematic configuration diagram of a conventional mobile communication system used for explaining the operation of the present invention. As shown in FIG. 1, as an example of a typical mobile communication system, a mobile communication system of Global System for Mobile Communication (GSM) / General Packet Radio Service (GPRS) is established by a fixed site base station located in each cell. A plurality of cells 102-112 each defining a wireless coverage area. For example, as shown in FIG. 1, cell 102 defines a wireless coverage area established by base station 114 located in cell 102, and similarly, each of the remaining cells 104-112. Defines an associated radio coverage area established by a corresponding base station (not shown) located within each of cells 104-112.

On the other hand, since the mobile station (MS) (hereinafter referred to as mobile communication terminal) 100 moves with the user from the position X to the position Y of the mobile communication system, the mobile communication terminal 100 receives signals from the base stations of the cells 102-112. Properties are continuously monitored and based on any selection criteria, the corresponding cell is selected via the associated base station. For example, if the signal characteristic from cell 110 is that cell 110 is selected as the optimal coverage area based on cell reselection criteria, cell 110 is considered a serving cell.

As mentioned above, the mobile communication terminal continues to monitor signal characteristics from cells 102-112. For example, as shown in FIG. 1, as the mobile communication terminal 100 moves along a path indicated from position X to position Y, the mobile communication terminal 100 is moved from the coverage area associated with the cell 110. For example, it moves to a coverage area associated with other cells, such as cells 112 and 106. The mobile communication terminal 100 reselects the cell 112 as a serving cell if the cell 112 is considered to be an optimal cell based on signal characteristics from another cell, for example, the cell 112. In addition, the mobile communication terminal 100 reselects the cell 106 as a serving cell if the cell 106 is considered an optimal cell from signal characteristics from another cell, such as cell 106.

Here, the above-described process will be described in more detail as described below. If it is assumed that the mobile communication terminal 100 moves from the cell 110 at the position X to the cell 106 at the position Y, the mobile communication terminal 100 has a path loss reference parameter for each cell. criterion parameter) Calculate the C1 value. As a result of the calculation, it is assumed that the reception strength of the cell is good in the order of the cell 112, the cell 106, and the cell 102 and the cell 112 are inappropriate cells. When the mobile communication terminal 100 moves from the cell 110 serving cell to the cell 106 side, the cell 112 serving as an unsuitable cell has a priority of cell reselection due to the reception strength of the cell. Accordingly, the mobile communication terminal 100 first sets up the P-CCPCH of the cell 112 and receives corresponding cell information including whether or not it is suitable from the network to determine whether it is a suitable cell. As a result of determination, when the cell 112 determines that the cell 112 is an unsuitable cell, the mobile communication terminal 100 next sets up a P-CCPCH for the cell 106 having a good reception strength and receives cell information indicating whether it is suitable from the network. Will be judged. Accordingly, when the mobile communication terminal 100 determines that the cell 106 is a suitable cell, the mobile communication terminal 100 camps on the cell 106.

As described above, the mobile communication terminal camped on the serving cell in the mobile communication system performs cell reselection based on cell reselection criteria. The cell reselection criteria for causing the mobile communication terminal to attempt cell reselection are described below. First, the first cell reselection criterion is a case where the path loss reference parameter C1 is higher than a predetermined threshold in the mobile communication terminal camped in the serving cell. In this case, cell reselection is performed. The second cell reselection criterion is for downlink signaling failure, the third time if a better cell is found in the same location area, and finally the far better cell is found in another location area. If yes.

As described above, in the conventional cell reselection process, when a neighbor cell that satisfies the aforementioned cell reselection criteria is generated, cell information including suitability is received from the network. Thereafter, the mobile communication terminal determines whether the neighbor cell is a cell suitable for the mobile communication terminal from the received cell information, and if it is determined that the cell is suitable, the mobile communication terminal reselects the cell. If the mobile terminal determines that the cell is an unsuitable cell, the mobile station performs the same process again with respect to a cell having a good reception strength, and as a result, camps into the cell.

That is, conventionally, when trying to find the most suitable cell for cell reselection, the system information of neighbor cells is sequentially read according to the signal strength received from the mobile communication terminal, and then it is determined whether the cell is a suitable cell.

However, when a mobile communication terminal is in a weak electric field with weak reception strength, it is generally required to perform location update or cell selection / reselection to effectively provide a service according to the terminal specification and environment, that is, to maintain high call quality. (cell selection / reselection) is common. As a result, the battery consumption in the weak field is higher than that in the strong field. In addition, even if the current location of the mobile communication terminal is a weak electric field, if the mobility of the mobile communication terminal is less, the less the number of cell reselection will be more efficient in battery saving.

As described above, in the conventional weak field having a weak reception strength, the cell reselection efficiency is deteriorated by repeating the cell reselection process to find a suitable cell having a good reception strength without considering the user's situation or taste. In this case, the mobile communication terminal periodically measures the monitoring cells included in the system information received from the base station, and the measured value of the neighboring cell is higher than the currently serving cell or the predetermined threshold value is increased. In the event of an event such as exceeding, all surrounding cells had to be measured to reselect the cells. For this reason, as the number of neighboring cells increases, the mobile communication terminal takes a lot of load, and there is a problem that the main cause of battery consumption is repeated by repeatedly reselecting a cell to continuously find a suitable cell.

Accordingly, the present invention provides a cell reselection method that can efficiently use a battery by preventing a mobile communication terminal from searching for a new neighbor cell every time.

According to an aspect of the present invention, there is provided a method of reselecting a cell in a mobile communication terminal, the method comprising: measuring a path loss reference parameter C1 for a cell at a location where the mobile communication terminal is registered and cells adjacent to the cell; And displaying a message asking whether to change the path loss reference parameter C1 of the current cell when the cell is to be reselected as a result of the measurement, and inputted by the user when the C1 value of the current cell is changed by the user. Adjusting the C1 value of the current cell according to a user setting value; and if the C1 value of the current cell is less than or equal to a predetermined threshold for keeping camping in the current cell as a result of the adjustment, maintaining the current cell as a serving cell. Characterized by including the process.

Hereinafter, exemplary embodiments of 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 addition, detailed descriptions of well-known functions and configurations that may unnecessarily obscure the subject matter of the present invention will be omitted.

Hereinafter, a method of preventing unnecessary battery consumption when reselecting a cell according to an embodiment of the present invention will be described with reference to the accompanying drawings. According to an embodiment of the present invention, if a user does not move for a long time in a mountainous region or a suburban area where a field of a serving cell or nearby cells is weak, the mobile terminal may search for a suitable cell having a good reception strength. Do not repeat the cell reselection process more than necessary. This is because, in such a place, the number of cell reselections is increased in order to maintain the call quality, thereby increasing the battery consumption. However, the present invention takes into account the position of the user who lacks the remaining battery power and is more focused on increasing the battery standby time than reliability of the call quality. To this end, the present invention divides the value of the path loss criterion parameter C1 for determining cell reselection into various types and stores the value in the memory area so that the user can select it.

Hereinafter, the role of the internal components of the mobile communication terminal according to the cell reselection process according to an embodiment of the present invention will be described with reference to FIG. 2. 2 is a diagram illustrating an internal configuration of a mobile communication terminal according to an exemplary embodiment of the present invention. The controller 200 shown in FIG. 2 performs an overall control operation of the mobile communication terminal, and processes a function for cell reselection according to the present invention as described below. Therefore, in the following description, the description of the processing and control of the control unit 200 for ordinary telephone call, data communication, and wireless Internet connection is omitted.

Typically, the control unit 200 in a mobile communication terminal (UE), which is a mobile station of a mobile communication system, continuously monitors signal characteristics from a base station, and transmits and receives through a related base station based on cell reselection criteria. Choose to camp. However, due to its mobility, the control unit 200 changes the received signal strength in the cell as the movement occurs in the idle state, or changes in the received strength in the adjacent cells. For this reason, reselection of cells is required. First, when a mobile station, which is a mobile station, is powered on, it is in a state of having the strongest reception strength when camping at an initial cell and camping in a suitable cell. According to an embodiment of the present invention, a mode for cell reselection includes an automatic cell reselection mode and a manual cell reselection mode. The automatic cell reselection mode may use the path loss reference parameter C1 as a cell reselection reference value as an existing fixed value as well as a value set by the user.

In the manual cell reselection mode, a setting value for cell reselection and a description thereof are displayed to the user through the display unit 210 to receive the selection from the user and apply the selected setting value to the path loss reference parameter C1. Cell reselection is made.

In addition, the display unit 210 receives and displays display data on key input data input from the key input unit 220 under the control of the controller 200, or displays an operation state and a plurality of information of the mobile communication terminal as icons and text. do. In addition, the display unit 210 allows the user to visually know the state in setting or driving a required function under the control of the controller 200. In addition, the key input unit 220 includes various keys including numeric keys to provide the control unit 200 with key input data input by the user. That is, the key input unit 220 outputs its own key input data according to the input of each key provided, and the key input data output from the key input unit 220 is applied to the control unit 200 so that such key input data is stored. It is detected that the key input data according to the key input, the control unit 200 performs the operation according to the result.

In addition, the memory unit 230 connected to the control unit 200 may include a read only memory (ROM), a random access memory (RAM), and a voice for storing a plurality of programs and information necessary for controlling the operation of the mobile communication terminal. Memory, etc. In addition, according to an embodiment of the present invention, the memory unit 230 is allocated by the user setting value storage unit 235 to store the path loss reference parameter C1 as a user setting value which is variously changeable values under the control of the control unit 200. do.

In addition, the RF module 250 transmits / receives an RF signal with a base station through an antenna ANT. The RF module 250 converts the received RF signal into an IF (Intermediate Frequency) signal and outputs the signal to the baseband processor 240 and the baseband processor ( The IF signal input from 240 is converted into an RF signal and transmitted. The baseband processor 240 is a baseband analog ASIC (BAA) that provides an interface between the controller 200 and the RF module 250. The baseband processor 240 converts a baseband digital signal applied from the controller 200 into an analog IF signal. Applied to the RF module 250, and converts the analog IF signal applied from the RF module 250 to a digital signal of the baseband and applied to the control unit 200. The voice signal processor 260 connected to the controller 200 is connected to the microphone MIC and the speaker SPK, and outputs the voice signal received from the microphone MIC to the controller 200. The voice data input from the controller 200 is converted into an audible sound through the speaker SPK and output.

On the other hand, as described above, the current criterion for cell selection in the GSM system is based on the path loss reference parameter C1. According to known techniques, the mobile communication terminal retrieves all radio frequencies (RF) defined in the mobile communication system (one RF channel for each cell) and measures the received RF signal strength on each RF channel. The mobile terminal then calculates the received average level on each RF channel. This averaging is based on several measurement samples per RF channel over a period of time. The path loss reference parameter C1 is then evaluated for each RF channel, i.e. each cell, where the path loss reference parameter C1 is based on the received level average and the minimum signal strength level set by the network. Here, each cell is prioritized for the path loss reference parameter C1 in descending order. In this case, the mobile communication terminal usually camps on the highest priority cell.

Here, the equation for obtaining the aforementioned path loss criterion parameter C1 value is as follows.

A = Received Level Average-RXLEV_ACCESS_MIN

B = MS_TXPWR_MAX_CCH-P

In addition, RXLEV_ACCESS_MIN refers to a minimum level required by the MS when accessing the system, and A refers to a difference between the average reception level and the minimum reception level. And, MS_TXPWR_MAX_CCH means the maximum TX power level (MS may use when accessing the system until otherwise commanded) that can be used when the mobile terminal accesses the system. P is the maximum RF output power of the MS. Thus, B is the difference between the maximum transmit power and the maximum RF output.

In addition, according to an embodiment of the present invention, in order to save battery power according to a user's situation, the path loss reference parameter C1 value, which is used as a fixed value, is changed in various ways. Set it to a possible value and save it in the memory area. According to the embodiment of the present invention, the equation for obtaining the path loss reference parameter C1 _u value to which the user setting value C _u that can be selected or changed by the user is obtained is as follows.

Here, C _u is an arbitrary setting value set by the user. The mobile communication terminal according to an embodiment of the present invention can avoid disturbing radio frequency planning in a network by additionally introducing a new path loss reference parameter C1 _u value set by a user. This path loss reference parameter C1 _u value prevents the mobile communication terminal from performing the cell reselection operation unnecessarily in the absence of mobility. The new path loss reference parameter C1 _u may be defined by the user and stored in various forms in the mobile communication terminal. That is, by setting the value of C _u added by the user to various values, the user can selectively determine the frequency of cell reselection by selecting the path loss reference parameter C1 _u value according to the situation.

In order to explain this in more detail, the user setting value storage unit according to an embodiment of the present invention will be described with reference to FIG. 3, which is a schematic diagram showing a list arrangement of user setting values C _u . That is, the C _u value stored in the user's terminal is divided into a user set value C _u1 300, a user set value C _u2 310, a user set value C _u3 320, and the like as illustrated in FIG. 3. If the values of the values are stored in the storage unit 235 differently from each other, and the situation according to the size is displayed through the display unit 210 and the user can select them, the mobile communication terminal does not search for a new neighbor cell every time. This allows the battery to be used efficiently by avoiding cell reselection more than necessary.

For example, the user setting value C _u1 (300) which _produces the smallest path loss reference parameter C1 _u value is displayed to the user with a description of "ultra sleep mode" or "if staying in the same place for a long time", that is, a user-defined name. The user's understanding of cell reselection is shown in the user setting C _u2 (310), which creates a small path loss criterion parameter C1 _u, by displaying the description "sleep" or "when moving only in a small range for a long time". It is possible to know the mode change even in the absence of.

Next, a cell selection / reselection process according to an embodiment of the present invention will be described with reference to FIG. 4. 4 is a flowchart illustrating a cell selection / reselection process according to an embodiment of the present invention.

Here, it is assumed that the mobile communication terminal has the highest reception strength at the initial cell selection and is camped in a suitable cell. At this time, if the mobile terminal is moved or the reception strength of the camping serving cell and the neighboring cell of the serving cell changes, the control unit 200 of the mobile terminal determines that cell reselection is necessary at step 400. do. Accordingly, the control unit 200 according to the embodiment of the present invention displays a message on the display unit 210 asking whether to change the path loss reference parameter C1 _u value when the cell is reselected in step 410. Then, the controller 200 proceeds to step 420 and determines whether there is a change in the path loss reference parameter C1 _u by the user. If there is a change by the user as a result of the determination, the control unit 200 proceeds to step 430 and displays the user setting value list stored in the user setting value storage unit 235 through the display unit 210 in advance. Meanwhile, in another embodiment of the present invention, the path loss reference parameter C1 _u value preset by the user may be applied without displaying the user setting value list when the cell is reselected.

At this time, for example, the user setting value list including the description of "ultra power saving mode", "power saving mode", etc. is displayed in each user setting value so that the user can easily know the user setting value selection. Then, the controller 200 proceeds to step 440 to apply the user setting value selected by the user to the path loss reference parameter C1 _u value for the current cell and calculate it.

The controller 200 proceeds to step 450 to compare the path loss reference parameter C1 _u value for the current cell with a predetermined threshold of the mobile communication terminal. As a result of the size comparison, when the path loss reference parameter C1 _u value for the current cell to which the user setting value is applied is smaller than the threshold value, the control unit 200 proceeds to step 460 and assumes that the current cell is the best cell. Accordingly, the controller 200 maintains the gamble at the current cell which is the best cell. On the contrary, when the size comparison results, the path loss reference parameter C1 _u value for the current cell is larger than the threshold value, the control unit 200 proceeds to step 470 to reselect the cell. Here, the threshold value is a value used as a selection criterion for determining whether to keep camping in the cell. For example, the threshold value is determined according to a predetermined received power value at which the mobile communication terminal can maintain communication with the base station of the cell.

As described above, in the embodiment of the present invention, the cell reselection is performed by applying the user setting value to the path loss reference parameter C1 _u value to reduce unnecessary battery consumption by continuously repeating the cell reselection process with little user movement. You can reduce the number of times. In addition, the present invention allows the user to change the path loss criteria parameter C1 value for determining cell reselection, which is stored in various ways, without retrieving a new neighbor cell every time in the mobile communication terminal. Choose whether to prioritize or increase battery standby time to ensure efficient battery use.

As described above, according to the present invention, when the user is located in the weak electric field or when the user does not move for a long time, the number of cell reselection of the mobile communication terminal is reduced by the user's selection in consideration of the situation, and all existing neighboring cells It is possible to reduce battery consumption by reducing the load that may be generated by periodically measuring the cell search and cell reselection.

1 is a block diagram of a conventional mobile communication system used to explain the operation of the present invention;

2 is a block diagram illustrating an internal configuration of a mobile communication terminal according to an embodiment of the present invention;

3 is a schematic diagram showing an arrangement of a user setting value list in a user setting value storing unit according to an embodiment of the present invention;

4 is a flowchart illustrating a cell selection / reselection process according to an embodiment of the present invention.

Claims (4)

In the cell reselection method in a mobile communication terminal, Measuring, by the mobile communication terminal, a path loss criterion parameter C1 value for a cell at a registered location and cells adjacent to the cell; Displaying a message asking whether to change the path loss reference parameter C1 of the current cell when the cell needs to be reselected as a result of the measurement; Adjusting the C1 value of the current cell according to a user setting value input by the user when the C1 value of the current cell is changed by the user; And if the C1 value of the current cell is less than or equal to a predetermined threshold for keeping camping in the current cell as a result of the adjustment, maintaining the current cell as a serving cell. The method of claim 1, further comprising: performing adjacent cell search and cell reselection if the C1 value of the current cell is greater than or equal to the predetermined threshold as a result of the adjustment. The method of claim 1, wherein the user setting value Stored with a user-defined name, wherein at least one is stored to be selectively determined by a user. 2. The method of claim 1, wherein the C1 value of the current cell adjusted depending on the user setting value is smaller than its original C1 value.