JP2009135788A - Mobile communication terminal and mobile communication method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To shorten the time until a mobile communication terminal is brought into a call arrival waiting state. <P>SOLUTION: A mobile communication terminal 10 includes a hardware 11 and an information processing unit 12. The hardware 11 constitutes a frequency detection device 111 for detecting a frequency of a radio wave of a cell and a receiving device 112 for receiving notification information. The information processing unit 12 includes: a cell selection section 121 which selects a cell to receive notification information based on reception quality of radio waves relating to the relevant detection from cells relating to the detected frequency and allows the receiving device 112 to receive the notification information of the selected cell; a quality determination section 122 which acquires information indicating the reception quality of radio waves relating to the detection of the frequency and the reception of the notification information and determines the quality of the cell from the relevant information indicating the reception quality; and an intra-range location determining section 123 for determining, based on the determined quality of the cell, whether the mobile communication terminal is located within a range of the relevant cell. <P>COPYRIGHT: (C)2009,JPO&INPIT

Description

  The present invention relates to a mobile communication terminal and a mobile communication method.

When a mobile communication terminal in a cell-type mobile communication system performs cell selection when the power is turned on or after detecting a level deterioration of a serving cell, the mobile communication terminal receives the broadcast information of the cell after detecting the cell, Measure quality (intensity of radio waves and interference). Based on the measured cell quality, the mobile communication terminal determines whether or not the user is in the cell (see, for example, Patent Document 1).
JP 2006-135520 A

  In the conventional mobile communication terminal, the measurement of the cell quality is performed as follows. First, after the broadcast information is received, the information processing unit that operates by the control software and manages the mobile communication function requests the hardware to measure the cell quality. Subsequently, the quality of the cell is measured by hardware, and the measurement result is output from the hardware to the information processing unit. Based on the measured cell quality, the information processing unit determines whether or not the cell is in the service area.

  As described above, in the conventional mobile communication terminal, after receiving the broadcast information, the quality of the cell is measured by hardware and it is determined whether or not the user is in the service area. It took time to become.

  The present invention has been made to solve the above-described problems, and an object of the present invention is to provide a mobile communication terminal and a mobile communication method that can shorten the time until a standby state is reached.

  In order to achieve the above object, a mobile communication terminal according to the present invention is a mobile communication terminal including hardware and an information processing unit, and the hardware includes frequency detection means for detecting a frequency of a radio wave of a cell. And broadcast information receiving means for receiving broadcast information transmitted in the cell by radio waves having a frequency detected by the frequency detection means, and the information processing unit is configured to receive information from the cell related to the frequency detected by the frequency detection means. Selecting a cell that receives broadcast information based on the reception quality of the radio wave related to the detection, causing the broadcast information receiving means to receive broadcast information of the selected cell, detection by the frequency detection means, and broadcast Information indicating reception quality of radio waves related to reception of broadcast information by the information receiving means is obtained, and cell quality is determined from the information indicating the reception quality. A quality determining means for, based on the quality of the cell determined by the quality determining means comprises a serving determining means for determining whether or not located in the cell, and characterized in that. The hardware described above may be configured by a plurality of hardware.

  In the mobile communication terminal according to the present invention, the following processing is performed before entering the standby state in the cell. First, the frequency of the cell is detected by frequency detection means that is hardware. Subsequently, a cell is selected by the cell selection means based on the reception quality of the radio wave related to the detection. Broadcast information transmitted in the selected cell is received by broadcast information receiving means, which is hardware. Subsequently, information indicating the reception quality of the radio wave related to at least one of frequency detection and broadcast information reception is acquired by the quality determination unit, and the quality of the cell is determined from the information indicating the reception quality. Based on the determined quality of the cell, whether or not the user is in the cell is determined by the region determining means. In the mobile communication terminal, the cell is located based on the determination result.

  As described above, in the mobile communication terminal according to the present invention, it is possible to perform cell location processing regardless of hardware quality measurement processing. Therefore, according to the mobile communication terminal according to the present invention, compared with a conventional mobile communication terminal that performs processing of measuring the quality of a cell by hardware and performs processing of staying in the cell, the time until a standby state is reached. Can be shortened.

  The hardware also constitutes quality measuring means for measuring the quality of the cell including the neighboring cells of the cell related to the broadcast information received by the broadcast information receiving means, and the cell selection means is located in the cell by the location determination means. When it is determined that the service area is not in range, it is desirable to select a cell that will receive broadcast information next based on the quality of neighboring cells measured by the quality measuring means. According to this configuration, even when it is determined that the cell is not in the cell by the area determination unit, it is possible to quickly determine whether or not the cell is in the peripheral cell of the cell. As a result, it is possible to shorten the time until the standby state is reached.

  By the way, the present invention can be described as an invention of a mobile communication terminal as follows, in addition to being described as an invention of a mobile communication terminal as described above. This is substantially the same invention only in different categories, and has the same operations and effects.

  That is, the mobile communication method according to the present invention is a mobile communication method by a mobile communication terminal comprising hardware and an information processing unit, wherein the hardware detects a frequency of the radio wave of the cell, and frequency detection A broadcast information receiving step of receiving broadcast information transmitted in the cell by radio waves of the frequency detected in the step, wherein the information processing unit performs detection from the cell related to the frequency detected in the frequency detection step. In a cell selection step of selecting a cell that receives broadcast information based on the reception quality of the radio wave, and receiving broadcast information of the selected cell in the broadcast information reception step, detection in the frequency detection step, and broadcast information reception means Obtain information indicating the reception quality of radio waves related to at least one of the reception of broadcast information, A quality determination step for determining the quality of the cell related to the base station from information indicating the communication quality, and a location determination for determining whether or not the cell is present based on the quality of the cell determined in the quality determination step And a step.

  According to the present invention, it is possible to perform cell location processing without relying on hardware cell quality measurement processing. Therefore, hardware cell quality measurement processing is performed by hardware. Compared with the conventional mobile communication terminal that performs the zone processing, it is possible to shorten the time required to enter the standby state.

  Hereinafter, preferred embodiments of a mobile communication terminal and a terminal transition control method according to the present invention will be described in detail with reference to the drawings. In the description of the drawings, the same elements are denoted by the same reference numerals, and redundant description is omitted.

  FIG. 1 shows a configuration of a mobile communication terminal 10 according to the present embodiment. The mobile communication terminal 10 is a device capable of performing mobile communication by a cell system, and specifically corresponds to a mobile phone or the like. The mobile communication terminal 10 is connected to any of the base stations 21 included in the mobile communication network 20 so as to be able to communicate with each other via a wireless communication line. Communicate. The base station 21 is a well-known base station that uses a cell corresponding to each base station as a communication area.

  As shown in FIG. 1, the mobile communication terminal 10 includes hardware 11 and an information processing unit 12. Although the information processing unit 12 is strictly configured by hardware, in the present embodiment, the information processing unit 12 is a part having an information processing function for controlling a mobile communication function by control software or the like. The hardware 11 has an actual function of mobile communication, and is a part that is controlled by the information processing unit 12.

  As illustrated in FIG. 1, the hardware 11 configures a frequency detection device 111, a reception device 112, and a quality measurement device 113. The mobile communication terminal 10 includes other hardware having other functions of mobile communication provided in the conventional mobile communication terminal, but the description thereof is omitted.

  The frequency detection device 111 is frequency detection means for detecting the frequency of radio waves in each cell (ie, performing a band search). The frequency is detected when a band search request is received from the information processing unit 12. The frequency detection device 111 inputs the detected frequency information to the information processing unit 12 as a band search report. Further, the frequency detection device 111 includes information indicating reception quality for each frequency (for each cell) of radio waves related to frequency detection in the band search report and inputs the information to the information processing unit 12.

  Information indicating the reception quality acquired by the frequency detection device 111 includes “RSCP (Received Signal Code Power)” and “EC / N0”. RSCP is the strongest received power value. EC / N0 is the ratio between the RSCP of the most powerful station and the total received power, and is the ratio between the strongest received power and the other received power.

  The receiving device 112 is broadcast information receiving means for receiving broadcast information transmitted in the cell by radio waves having a frequency detected by the frequency detection device 111. Which cell broadcast information is received is instructed from the information processing unit 12. The frequency detection device 111 inputs the received notification information and information indicating the reception quality of radio waves related to reception of the notification information to the information processing unit 12. Information indicating the reception quality acquired by the reception apparatus 112 includes “UE_TXPWR_MAX_RACH” and “P_MAX” in addition to the above-described RSCP and EC / N0. UE_TXPWR_MAX_RACH is a value indicating a maximum TX power level used when accessing a cell in RACH (Random Access CHannel). P_MAX is a value indicating the maximum value of the transmission power of the mobile communication terminal 10.

  The quality measuring device 113 is a quality measuring unit that measures the quality of the neighboring cells of the cell related to the broadcast information received by the receiving device 112. The cell quality is measured when a quality measurement request is received from the information processing unit 12, and is performed in the same manner as the existing technology. In addition, this measurement includes detecting what kind of cells exist as neighboring cells. Specific examples of information indicating the quality of neighboring cells include RSCP and EC / N0. The quality measuring device 113 inputs information indicating the measured cell quality to the information processing unit 12 as a quality measurement result.

  As illustrated in FIG. 1, the information processing unit 12 includes a cell selection unit 121, a quality determination unit 122, and a location determination unit 123.

  The cell selection unit 121 is a cell selection unit that selects a cell that receives broadcast information from a cell related to a frequency detected by the frequency detection device 111 based on reception quality of radio waves related to the detection. Selection of a cell based on radio wave reception quality is performed in the same manner as in the existing technology, and a cell with high reception quality is usually selected. The cell selection unit 121 instructs the reception device 112 to cause the reception device 112 to receive broadcast information of the selected cell.

  Further, as described later, when the in-zone determining unit 123 determines that the cell is not in the cell (where the broadcast information has been received), the cell selecting unit 121 determines the quality of the neighboring cells measured by the quality measuring device 113. And the next cell to receive broadcast information is selected based on the information. Specifically, the cell selection unit 121 selects a cell having the highest quality among neighboring cells measured by the quality measurement device 113 and receives broadcast information of the selected cell with respect to the reception device 112. To instruct. Specifically, the cell having the highest quality is selected based on the values of RSCP and EC / N0.

The quality determination unit 122 is a quality determination unit that determines the quality of a cell. This determination of cell quality is used to determine whether or not the cell should be located. That is, if it is determined that the quality is high, it should be in the cell, and if it is determined that the quality is low, it is not in the cell. The quality determination unit 122 acquires information indicating the reception quality of radio waves related to frequency detection by the frequency detection device 111 and reception of broadcast information by the reception device 112, and determines cell quality from the information indicating the reception quality. . Specifically, two S values (S _rxlev , S _qual ), which are the following determination values, are calculated from information indicating reception quality. The S value is calculated by the following equation. The quality determination unit 122 stores these formulas, and reads and calculates at the time of calculation.
S _qual = Q _qualmeas -Q _qualmin
S _rxlev = Q _rxlevmeas −Q _rxlevmin −P _compensation
here,
Q _qualmeas = EC / N0 (by frequency detection)
Q _rxlevmin = RSCP (by receiving broadcast information)
Q _rxlevmeas = RSCP (due to frequency detection)
Q _qualmin = EC / N0 (by receiving broadcast information)
P _compensation = max (UE_TXPWR_MAX_RACH−P_MAX, 0)
It is. Here, max (A, B) is a function whose function value is the larger of A and B.

  The quality determination unit 122 determines whether the two S values are larger than a predetermined value (for example, 0). If the quality determination unit 122 determines that the two S values are greater than the predetermined value, the quality determination unit 122 determines that the quality of the cell is high. If the quality determination unit 122 determines that at least one of the two S values is not greater than the predetermined value, the quality determination unit 122 determines that the quality of the cell is low. The quality determination unit 122 notifies the location determination unit 123 of the determination result of the cell quality. Here, the predetermined value, which is the threshold value of the S value, is set and stored in advance in the quality determination unit 122.

  The in-zone determination unit 123 is a in-zone determination unit that determines whether or not the user is in the cell based on the quality of the cell determined by the quality determination unit 122. If the determination result of the cell quality notified from the quality determination unit 122 indicates that the cell quality is high, the area determination unit 123 determines that the cell is in the area. In that case, the located area determination unit 123 instructs the hardware 11 having the function of located area processing to perform the located area process in the cell.

  On the other hand, when the determination result of the cell quality notified from the quality determination unit 122 indicates that the quality of the cell is low, the area determination unit 123 determines that the cell is not in the area.

  Note that the mobile communication terminal 10 has components as a mobile phone in addition to the functional components described above, but the description and illustration thereof are omitted.

  As shown in FIG. 2, the mobile communication terminal 10 includes a CPU (Central Processing Unit) 101, a RAM (Random Access Memory) 102, a ROM (Read Only Memory) 103, an operation unit 104, a wireless communication unit 105, a display 106, and an antenna. It is configured by hardware such as 107. The functions of the mobile communication terminal 10 described above are exhibited by the operation of these components. The hardware 11 shown in FIG. 1 described above mainly corresponds to the wireless communication unit 105 in FIG. Further, the information processing unit 12 illustrated in FIG. 1 mainly corresponds to the CPU 101, the RAM 102, and the ROM 103 in FIG. The above is the configuration of the mobile communication terminal 10 according to the present embodiment.

  Subsequently, processing (mobile communication method) executed by the mobile communication terminal 10 according to the present embodiment will be described with reference to the sequence diagrams of FIGS. 3 and 4. This process is a process until the mobile communication terminal 10 is turned on and enters a standby state.

  First, in the mobile communication terminal 10, the power is turned on, and the operation of each component is started (S01). Note that the start of this process (the process until the standby state is reached) does not necessarily have to be when the mobile communication terminal 10 is powered on. For example, this process may be started after detecting the level deterioration of the serving cell.

  Subsequently, in the mobile communication terminal 10, a band search request is made from the information processing unit 12 to the frequency detection device 111 (S02). In the frequency detection device 111 for which the band search request has been made, detection of the frequency of the radio wave of the cell (band search) is performed (S03, frequency detection step). Information on the detected frequency is output from the frequency detection device 111 to the information processing unit 12 as a band search report together with information indicating the reception quality (S04).

  Subsequently, the cell selection unit 121 of the information processing unit 12 selects a cell for receiving broadcast information based on the band search report (S05, cell selection step). Subsequently, the cell selection unit 121 instructs the reception device 112 to receive the broadcast information of the selected cell, and the reception device 112 receives the broadcast information of the cell. The information of the received notification information is output to the information processing unit together with information indicating the reception quality (S06, notification information receiving step).

  Subsequently, a quality measurement request is made from the information processing unit 12 to the quality measurement device 113 so as to measure the quality of the neighboring cells of the cell related to the broadcast information received by the reception device 112 (S07). Subsequently, the quality of the neighboring cell is measured by the quality measurement device 113 that has received the quality measurement request (S08, quality measurement step).

  While the quality measurement is being performed by the quality measurement device 113, the quality determination unit 122 receives the broadcast information from the reception quality of the radio waves related to the frequency detection by the frequency detection device 111 and the reception of the broadcast information by the reception device 112. The quality of the selected cell is determined (S09, quality determination step). The quality of the cell is determined by calculating two S values as described above and determining whether they are greater than 0, which is a predetermined value set as a threshold value. Here, it is assumed that the two S values are both greater than zero. That is, the quality determination unit 122 determines that the quality of the cell is high. The determination result of the cell quality is notified from the quality determination unit 122 to the in-zone determination unit 123.

  Subsequently, based on the quality of the cell determined by the quality determination unit 122, the presence determination unit 123 determines whether or not the cell is present (S10, presence determination step). As described above, since it is determined that the quality of the cell is high, it is determined that the cell is in the area.

  Here, the quality measurement result is input from the quality measurement device 113 to the information processing unit 12 (S11). However, since it is determined that the cell is in the area as described above, the result of the quality measurement is not used here, and the area determination processing in the cell from the area determination unit 123 to the hardware 11 is performed. Is instructed to do. The in-service processing is performed in the cell by the hardware 11 that has received the instruction, and the mobile communication terminal 10 enters a standby state (S12). The above is the processing executed by the mobile communication terminal 10 according to the present embodiment until it enters the standby state.

  In the conventional mobile communication terminal, the quality measurement (in S08) in the above process is performed for the cell in which the broadcast information is received, and the information processing unit 12 is based on the quality measurement result (in S11). To determine whether or not the user is in the cell. On the other hand, in the mobile communication terminal 10 according to the present embodiment, the cell quality is determined by the information processing unit 12 operated by the control software without depending on the process of measuring the cell quality by the hardware 11. By being determined, it is possible to perform the processing for staying in the cell. Therefore, according to the mobile communication terminal 10 according to the present embodiment, the mobile communication terminal 10 is in a standby state as compared with a conventional mobile communication terminal that performs processing of measuring cell quality by the hardware 11 and performs processing of staying in the cell. Can be shortened.

  In the processing of the mobile communication terminal 10 described above with reference to the sequence diagram of FIG. 3, the cell quality determination result by the quality determination unit 122 (in S09) is that the cell quality is high. Next, processing when the cell quality determination result by the quality determination unit 122 is low in cell quality will be described with reference to the sequence diagram of FIG.

  Processing from power-on to quality measurement by the quality measuring device 113 (S21 to S28) is the same as the above-described processing (S01 to S08). Subsequently, while the quality measurement is being performed by the quality measurement device 113, the quality determination unit 122 determines the quality of the cell from which the broadcast information is received (S29, quality determination step), as in the above-described process. . Here, it is assumed that at least one of the two S values is not larger than 0 set as the threshold value. That is, the quality determination unit 122 determines that the quality of the cell is low. The determination result of the cell quality is notified from the quality determination unit 122 to the in-zone determination unit 123.

  Subsequently, based on the quality of the cell determined by the quality determination unit 122, the presence determination unit 123 determines whether or not the cell is present (S30, presence determination step). As described above, since it is determined that the quality of the cell is low, it is determined that the cell does not exist.

  Here, the quality measurement result is input from the quality measurement device 113 to the information processing unit 12 (S31). When it is determined that the cell is not located, the cell selection unit 121 refers to the quality measurement result regarding the neighboring cell input from the quality measurement device 113, and the cell that receives the broadcast information next is selected. (S32, cell selection step).

  Subsequently, the cell selection unit 121 instructs the reception device 112 to receive the broadcast information of the selected cell, and the reception device 112 receives the broadcast information of the cell. The information of the received notification information is output to the information processing unit together with information indicating the reception quality (S33, notification information receiving step). Subsequently, based on the received notification information, the area determination unit 123 instructs the hardware 11 to perform area processing in the cell. Upon receiving the instruction, the location processing is performed in the cell by the hardware 11, and the mobile communication terminal 10 enters a standby state (S34). The above is the processing executed by the mobile communication terminal 10 according to the present embodiment until it enters the standby state.

  In addition, in the conventional mobile communication terminal, when it is determined that the cell is not located in the cell based on the quality measurement result, the frequency detection (band search) and hardware quality are performed again in order to be located in another cell. Measurement is performed again. On the other hand, in the mobile communication terminal 10 according to the present embodiment, even if it is determined that the cell is not located, it is not necessary to perform frequency detection again, and the cell can be quickly located in the neighboring cells of the cell. It can be determined whether or not. As a result, it is possible to shorten the time until the standby state is reached.

  In the above-described process, the quality measurement (S08, S28) is performed in parallel with the quality determination (S09, S29), but may be performed at any timing before and after the quality determination. .

Further, in the mobile communication terminal 10 according to the present embodiment, the quality of the cell (by the quality determination unit 122) is such that the reception of radio waves related to both the frequency detection by the frequency detection device 111 and the reception of the broadcast information by the reception device 112. It was judged based on quality. However, it is not always necessary to use both reception qualities, and only one of them may be used. Specifically, for example, any of two S values (S _rxlev , S _qual ) may be used for quality determination.

It is a figure which shows the structure of the mobile communication terminal which concerns on embodiment of this invention. It is a figure which shows the hardware constitutions of the mobile communication terminal which concerns on embodiment of this invention. It is a sequence diagram which shows the process (mobile communication method) performed with the mobile communication terminal which concerns on embodiment of this invention. It is a sequence diagram which shows the process (mobile communication method) performed with the mobile communication terminal which concerns on embodiment of this invention.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 10 ... Mobile communication terminal, 11 ... Hardware, 111 ... Frequency detection apparatus, 112 ... Reception apparatus, 113 ... Quality measurement apparatus, 12 ... Information processing part, 121 ... Cell selection part, 122 ... Quality judgment part, 123 ... Location Judgment unit 101 ... CPU 102 ... RAM 103 ... ROM 104 ... operation unit 105 ... wireless communication unit 106 ... display 107 ... antenna 20 ... mobile communication network 21 ... base station

Claims (3)

A mobile communication terminal comprising hardware and an information processing unit,
The hardware is
A frequency detection means for detecting the frequency of the radio wave of the cell;
The broadcast information receiving means for receiving broadcast information transmitted in the cell by radio waves of the frequency detected by the frequency detection means,
The information processing unit
From the cells related to the frequency detected by the frequency detector, a cell that receives the broadcast information is selected based on the reception quality of the radio wave related to the detection, and the broadcast information of the selected cell is sent to the broadcast information receiver. Cell selection means for receiving;
Information indicating the reception quality of the radio wave according to at least one of detection by the frequency detection unit and reception of notification information by the notification information reception unit is acquired, and the quality of the cell is determined from the information indicating the reception quality Quality judgment means;
Based on the quality of the cell determined by the quality determination means, the presence determination means for determining whether or not the cell is located,
A mobile communication terminal characterized by the above. The hardware also constitutes quality measuring means for measuring the quality of cells including neighboring cells of the cell related to the broadcast information received by the broadcast information receiving means,
The cell selection means selects a cell that will receive broadcast information next based on the quality of neighboring cells measured by the quality measurement means when it is determined by the presence determination means that the cell does not exist. To
The mobile communication terminal according to claim 1. A mobile communication method by a mobile communication terminal comprising hardware and an information processing unit,
The hardware is
A frequency detection step for detecting the frequency of the radio wave of the cell;
A broadcast information reception step of receiving broadcast information transmitted in a cell by radio waves of the frequency detected in the frequency detection step,
The information processing unit
From the cell related to the frequency detected in the frequency detection step, the cell that receives the broadcast information is selected based on the reception quality of the radio wave related to the detection, and the broadcast information of the selected cell is selected in the broadcast information reception step. A cell selection step for receiving;
Obtaining information indicating reception quality of radio waves related to at least one of detection in the frequency detection step and reception of broadcast information in the broadcast information receiving means, and from the information indicating the reception quality of the cell related to the base station A quality determination step for determining quality;
Based on the quality of the cell determined in the quality determination step, and determining whether or not the cell is present,
A mobile communication method characterized by the above.

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