JP4563607B2 - Mobile communication terminal - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a portable communication terminal in which user's time is not restricted during download by starting download of desired data of a user in a place of good receiving condition. SOLUTION: In a portable communication terminal employing a data communication system where a downlink data communication rate is predicted on the terminal side based on the receiving condition of a signal from a base station and the base station communicates data at the predicted downlink data communication rate informed from the terminal, a CPU 9 stores download reservation information inputted by a user in an RAM10 and starts download of data reserved as download reservation information when the predicted downlink data communication rate or an average downlink data communication rate calculated from the predicted downlink data communication rate in a specified interval exceeds a preset data communication start threshold value.

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention predicts the downlink data communication speed on the terminal side based on the reception state of the signal from the base station in the terminal, and notifies the predicted downlink data communication speed to the base station so that the base station can predict the downlink data communication. The present invention relates to a portable communication terminal that employs a data communication method for communicating data at a speed.
[0002]
[Prior art]
In recent years, the cdma2000 1x-EV DO system has been developed as a next-generation high-speed wireless communication system.
The above cdma2000 1x-EV DO system is a standardized version of the HDR (High Data Rate) system, which is an extension of cdma2000 1x by Qualcomm. Std.T-64 1S-2000 CS0024 “cdma2000 High Rate Standardized by the “Packet Data Air Interface Specification”, cdmaOne method currently being serviced by KDDI in Japan (ARIB T-53 in Japan, EIA / TIA / IS-95 etc. in North America, Korea, etc.) However, the cdma2000 1x system corresponding to the third generation system (3G) is a system aimed at further improving the communication speed by specializing in data communication.
In cdma2000 lx-EV DO, EV means Evolution and DO means Data only.
[0003]
In the cdma2000 1x-EV DO method, when the reception state of the terminal is good by switching the modulation method of data transmitted from the base station to the terminal based on the information notified of the reception state received from the mobile communication terminal. Can use a high communication rate with low error tolerance but high speed, and a low speed but high error tolerance when reception is bad.
[0004]
Also, in the cdma2000 1x-EV DO downlink direction (from base station to mobile communication terminal), the time is divided in 1/600 second units, and only one mobile communication terminal communicates within that time. In addition, time division multiplex access (TDMA) is employed in which communication is performed with a plurality of portable communication terminals by switching the communication partner portable communication terminal according to time. As a result, it is always possible to transmit data with the maximum power to each mobile communication terminal, and data communication between mobile communication terminals can be performed at the fastest communication speed.
[0005]
[Problems to be solved by the invention]
On the other hand, in the cdma2000 1x-EV DO system described above, the data communication speed in the direction from the base station to the mobile communication terminal varies greatly depending on the reception state (for example, reception field strength, carrier-to-interference ratio = CIR) in the mobile communication terminal. It has the characteristic.
For example, data communication at a communication speed of 2.4 Mbps is possible when the reception state of the mobile communication terminal is the best, but when the reception state is poor, the data communication speed is reduced to about several tens of kbps. Then, if downloading of a relatively large amount of data is started in a situation where the reception state at the mobile communication terminal is poor and only a low downlink data communication speed can be obtained, the following problems occur.
[0006]
First, since it takes a long time to complete the data download, the user is restricted in the time and cannot provide an environment where sufficient service can be performed.
Secondly, the communication time becomes long because the communication time becomes long.
Thirdly, during the download period, a part of CPU (central processing unit) processing capacity is devoted to data communication processing, and the response to user operations such as key input becomes slow.
[0007]
Fourthly, the current consumption of the mobile communication terminal having the RF unit is dominated by the current consumption in the RF unit, and the current consumption in the RF unit largely depends on the time during which the RF unit is activated rather than the data communication speed. Therefore, when data communication is performed for a long time at a low data communication speed, power consumption is larger than when data communication is performed for a short time at a high data communication speed.
Fifth, when receiving a service that downloads video data or music data from the communication network side to the mobile communication terminal and also plays back on the terminal in parallel (video or music streaming playback), a predetermined value is used. The above downlink data communication speed is required. However, if the required downlink data communication speed cannot be obtained at this time, there may be effects such as image quality, sound quality degradation, video stoppage, and sound interruption. , Not enough service quality.
[0008]
The present invention has been made in view of such circumstances, and its purpose is to automatically start downloading data desired by the user in a place where the reception state is good, while performing the download. It is to provide a mobile communication terminal that does not limit the time of the user.
Another purpose is to notify the user when a good radio wave condition has been secured to download the data desired by the user, and prompt the user to start downloading. To provide a mobile communication terminal that enables data download in a data communication environment.
[0009]
[Means for Solving the Problems]
In order to achieve the above object, the following means were adopted.
The mobile communication terminal according to the present invention predicts the downlink data communication speed on the terminal side based on the reception state of the signal from the base station in the terminal, and notifies the base station of the predicted downlink data communication speed, In a mobile communication terminal that employs a data communication method in which a base station communicates data at the predicted downlink data communication speed, storage means for storing information of data desired to be downloaded as download reservation information, the predicted downlink data communication speed, Or a determination means for determining whether an average predicted downlink data communication speed calculated from the predicted downlink data communication speed in a predetermined period is equal to or greater than a preset data communication start threshold; and the predicted downlink data communication speed, Or, when the average predicted downlink data communication speed is equal to or higher than the threshold, the download reservation information and Anda download starting means for starting the downloading of the data being reserved Te, the data communication start threshold is characterized in that it is set individually according to the attribute of the data to be downloaded.
[0010]
According to such a configuration, if the amount of data that the mobile communication terminal user wants to download is relatively large and the download is likely to take a long time, the amount of data that the user wants to download is not so large, but the reception state is poor and the download takes time. In such a case, when downloading data that is not needed immediately, information on the data desired to be downloaded (for example, connection destination address) and the desired data transmission speed in the downstream direction when downloading the data. Set in advance in the mobile communication terminal. When such an operation is performed, the mobile communication terminal stores the input information as download reservation information. Then, when the reception state of the base station signal in the mobile communication terminal is improved by the movement of the user or the like and becomes equal to or higher than a preset data communication start threshold, data download is automatically started.
[0011]
In this way, since the reserved data is automatically downloaded when the communication state is good, the user is free from the stress of waiting for the end of the download without being bound by the time of downloading the data. The
In addition, since there is a high possibility of downloading when the user is not using the terminal, a part of the CPU (central processing unit) processing capacity is devoted to data communication processing, and the user operation such as key input is not performed. Problems such as slow reaction can be solved.
In addition, since data download is executed when the reception state is always good, the data download time can be shortened, and communication costs and power consumption can be reduced.
In addition, since it is possible to always perform data communication in a suitable environment, even when receiving services such as streaming playback of video and music, the effects of image quality, sound quality degradation, video stop, sound interruption, etc. This eliminates the effect of obtaining sufficient service quality.
Note that the above-described determination means and download start means are performed by the CPU executing a program stored in the ROM in the embodiments described later.
[0012]
The mobile communication terminal according to the present invention predicts the downlink data communication speed on the terminal side based on the reception state of the signal from the base station in the terminal, and notifies the base station of the predicted downlink data communication speed, In a mobile communication terminal that employs a data communication method in which a base station communicates data at the predicted downlink data communication speed, storage means for storing information of data desired to be downloaded as download reservation information, and the predicted downlink data communication speed or Determining means for determining whether an average predicted downlink data communication rate calculated from the predicted downlink data communication rate in a predetermined period is equal to or greater than a preset data communication start threshold; and the predicted downlink data communication rate, or When the average predicted downlink data communication speed is equal to or higher than the threshold, the download start condition is satisfied. A notification means for notifying that the download has been made, a detection means for detecting whether or not a download start instruction has been given by the user, and when there is an instruction for the download start, comprising the download starting means for starting the download, the data communication start threshold, characterized in that it is set individually according to the attribute of the data to be downloaded.
[0013]
According to such a configuration, if the amount of data that the mobile communication terminal user wants to download is relatively large and the download is likely to take a long time, the amount of data that the user wants to download is not so large, but the reception state is poor and the download takes time. If this is the case, download the data you don't need immediately, or the data you want to download, such as when you need data communication in a good reception state, such as using a streaming playback distribution service for video or music. Information (for example, a connection destination address) and a data communication speed in a desired downlink direction when the data is downloaded are set in the mobile communication terminal in advance. When such an operation is performed, the mobile communication terminal stores the input information as download reservation information. Then, when the reception state of the base station signal in the mobile communication terminal is improved by the movement of the user or the like and becomes equal to or higher than the preset data communication start threshold, the communication state suitable for downloading to the user It is notified by an alarm sound etc., and the start of data download is urged.
As a result, data required for receiving services such as downloading video data and music data from the communication network side to the mobile communication terminal while performing playback on the terminal in parallel (streaming playback of video and music) The user is notified that the communication speed can be obtained, so that the user can always enjoy streaming video and music with stable quality.
[0014]
Furthermore, the mobile communication terminal according to the present invention is characterized in that the data communication start threshold is individually set according to the attribute of the data to be downloaded.
Thereby, the data communication start threshold value is set in accordance with the size of the data amount or the attribute of the data to be downloaded, for example, whether it is audio data, communication data, or streaming playback service. Therefore, since data communication is started only when the data communication speed considered to be optimal for each data is exceeded, data can be downloaded efficiently.
[0016]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of the present invention will be described with reference to the drawings.
FIG. 1 is a diagram illustrating a configuration of a mobile communication terminal employing a cdma2000 1x-EV DO system according to an embodiment of the present invention.
As shown in FIG. 1, the mobile communication terminal according to the present embodiment includes an RF unit including an antenna 1, a duplexer 3, a demodulator 5, and a modulator 19, a decoder 7, a predictor 11, and a CIR-DRC conversion unit. 13, a baseband processing unit including a multiplexer (MUX) 15, a CPU 9, a memory 21, a display unit 23 including a liquid crystal display, and an operation unit 25 such as a keypad and a keyboard.
In addition, an external interface (for example, serial port, parallel port, USB, blue-tooth, infrared communication, 10base-T LAN, etc.) 27 with a personal computer (PC) 29 is provided so that the portable communication terminal can be used as a wireless modem. I have.
[0017]
<Outline of operation of mobile communication terminal adopting cdma2000 1x-EV DO method>
Next, an outline of the operation using the cdma2000 1x-EV DO system for the mobile communication terminal having the above-described configuration will be described.
The downlink pilot signal from the base station received by the mobile communication terminal is demodulated by the demodulator 5 via the antenna 1 and the duplexer 3. At this time, the demodulator 5 demodulates the multiplexed signal from the received signal in the baseband band by a demodulation method corresponding to the modulation method of the received signal received from the base station. In this embodiment, demodulation is performed by any one of three types of demodulation schemes of QPSK (quadriphase phase shift keying), 8PSK (8 phase shift keying), and 16QAM (16 amplitude modulation).
[0018]
The received data demodulated by the demodulator 5 is output to the decoder 7 and decoded by the decoder 7. That is, the spread spectrum received spread signal is despread.
Here, when there is received data assigned to the own station (for example, a call signal from a call partner or data desired to be downloaded), the received data is output from the decoder 7 to the CPU 9. This received data is processed in the CPU 9 or sent to an external PC 29 via the CPU 9 and the external interface 27.
Further, in the course of the decoding process, the decoder 7 calculates Ec / Io (pilot signal strength versus total received signal strength) and calculates CIR (carrier-to-interference ratio) based on the following equation (1).
CIR = (Ec / lo) / (1-Ec / lo) (1)
[0019]
The CIR obtained based on the above equation is output from the decoder 7 to the predictor 11, and the predictor 11 receives the CIR at the next reception slot timing (where 1 slot is 1.66 ms = 1/600 seconds). The value of is predicted.
The prediction method here is not particularly limited, but a method such as linear prediction can be cited as an example.
Information indicating how many slots the CIR should be predicted by the predictor 11 is included in various control signals transmitted from the base station when the mobile communication terminal is powered on.
Then, the predicted CIR obtained by the predictor 11 is output to the subsequent CIR-DRC converter 13.
[0020]
The CIR-DRC conversion unit 13 converts the predicted CIR into DRC (Data Rate Control Bit) based on the CIR-DRC conversion table shown in FIG. The DRC is the maximum communication speed expected from the predicted CIR that can be received by the mobile communication terminal at a predetermined error rate or less.
Here, as shown in FIG. 2, DRC corresponding to the reference CIR is defined in the CIR-DRC conversion table. When the input predicted CIR is the reference CIR, the CIR-DRC conversion unit 13 outputs a DRC corresponding to the CIR to the CPU 9. On the other hand, when the prediction CIR input from the predictor 11 is not the reference CIR, the DRC corresponding to the reference CIR that is closest to the input prediction CIR is acquired or is closest to the input prediction CIR. By interpolating from the binary CIR, a DRC corresponding to the interpolated CIR is obtained.
Thereby, DRC according to each prediction CIR can be acquired, and a more accurate reception state can be notified to the user.
[0021]
The DRC obtained as described above is output from the CIR-DRC conversion unit 13 to the CPU 9. When the DRC is input, the CPU 9 determines whether there is transmission data generated in the mobile communication terminal or input from the external PC 29 or the like via the external interface 27. If there is transmission data, the CPU 9 outputs this transmission data to the multiplexer 15 together with the DRC described above. On the other hand, when there is no transmission data, the DRC input from the CIR-DRC conversion unit 13 is output to a multiplexer (MUX; Multiplexer) 15.
[0022]
The DRC and transmission data output from the CPU 9 are multiplexed by the multiplexer 15, further encoded by the encoder 17, modulated by a modulator 19 by a specific modulation scheme (for example, QPSK), the duplexer 3 and the antenna 1 to the base station. Based on the DRC received from each mobile communication terminal, the base station determines to which mobile communication terminal the next slot is used for transmission, and the communication speed (modulation speed) in the transmission.
[0023]
<< First Embodiment >>
Next, the operation of the mobile communication terminal according to the first embodiment of the present invention will be described. First, when a user wishes to download data, the user operates the operation unit 25 to connect to a connection destination address necessary for data communication, information such as data to be downloaded, and data communication serving as a threshold value when starting download. A start threshold and a time limit for notifying the user when the reception state that enables the desired downlink data communication speed is not obtained are set.
[0024]
The reservation download information set by the operation is output from the operation unit 25 to the CPU 9 and stored in a predetermined storage area of the memory 21 by the CPU 9.
Note that the above-described data communication start threshold value may be set stepwise in units of 100 kbps, for example. As a guideline for the maximum setting value, according to the cdma2000 1x-EV DO system, downlink data communication of up to 2.4 Mbps per sector is possible, but the average throughput per sector in the mobile state is 500 to 700 kbps. Therefore, it is appropriate to set this value.
When the mobile communication terminal is connected to a portable information device such as a notebook PC (Personal Computer) or PDA (Personal Digital Assistants) and used as a wireless modem, an input device such as a key of the connected information device is used. You may make it perform the said setting using.
[0025]
Further, as described above, the DRC is input to the CPU 9 from the CIR-DRC converter 13 every predetermined period. Here, both the CIR indicating whether the reception state of the base station downlink signal is good and the DRC determined based on the CIR are obtained every 1/600 second and input to the CPU 9. The CPU 9 compares the DRC (bps) input every 1/600 seconds with the data communication start threshold stored in the memory 21.
Although these comparisons may be performed every 1/600 seconds, since it is not effective even if the comparison is performed at such timing, that is, the reception state does not change so fast, in this embodiment, The DRC acquired over a longer period is averaged, and the averaged DRC is compared with the data communication start threshold.
The averaging of DRC is obtained based on the following equation (2).
[0026]
DRC [average] = (1-μ) DRC [1/600 second average] + n · DRC [current value] (2)
In the above equation (2), μ is an averaging time constant, for example, set to 0.00027 (a value at which the influence of the average value up to about 5 seconds is reduced by half).
Note that the larger the value of μ, the greater the influence of the recent value, and the smaller the value of μ, the greater the influence of the past value. That is, as the value of μ is larger, the response and change to the latest value are reflected, and as the value of μ is smaller, the response and change to the past value are reflected.
[0027]
When the CPU 9 averages the DRC based on the equation (2), the CPU 9 compares the average DRC value with a data communication start threshold set in advance by the user, and the average DRC value is equal to or greater than the data communication start threshold. If it is, the user is notified that the data download reservation for which the threshold is set is executed.
As means for this notification, generation of an alarm sound by a sound generating element of a mobile communication terminal, display of characters and animation on the display unit 23, lighting of a light emitting element such as an LED (Light-Emitting Diode), vibration of a vibration element (vibrator), etc. The method is given as an example, and these are used alone or in combination to notify the user of the start of download.
In addition, it is also possible to provide the selection function of the notification method to these users in the mobile communication terminal.
When the mobile communication terminal is used as a wireless modem connected to a portable information device such as a notebook PC or PDA, a sounding element or a display device of the connected information device may be used.
[0028]
Then, after notifying the user of the start of download, the CPU 9 starts data communication with the connection destination set by the user and starts downloading data. When the download is completed, the user is notified of the end of the download by the same method as described above.
Note that the download start and end notifications to the user are not essential, and may be omitted if the user does not wish.
[0029]
Note that, instead of the DRC value calculated based on the above equation (2), for example, the DRC values acquired in a predetermined period are simply averaged, and the average DRC is set in advance in a predetermined manner. Downloading may be started when the data communication start threshold is exceeded more than the number of times.
For example, when the above-mentioned predetermined period is 0.1 second, 60 DRCs are input during that period. The CPU 9 calculates the total of the 60 input DRCs, and further calculates the average DRC by dividing the total by 60. Then, when the average DRC obtained in this way exceeds the data communication start threshold continuously for a predetermined number of times (for example, 20 times), the download is set to start.
[0030]
If the desired downlink data communication speed cannot be obtained within the time limit set by the user at the time of data download reservation, a time limit time-out is notified to the user. This notification can also be performed by the same method as the download start and end described above.
[0031]
<< Second Embodiment >>
Subsequently, an operation of the mobile communication terminal according to the second embodiment of the present invention will be described. In the first embodiment described above, when the downlink data communication speed set by the user is selected, the CPU 9 automatically starts the download. However, in the second embodiment, the download starts automatically. Before the data is downloaded, the user is notified that the data can be downloaded. Then, the download is executed only when the user requests to start downloading in response to this notification.
[0032]
For example, when a user desires a so-called video and music streaming playback service that downloads video data and music data from the communication network side to the mobile communication terminal and also plays back on the terminal in parallel. If the download is automatically started as in the first embodiment described above, the user ends the download without seeing the reproduced image or the like, which is meaningless.
Therefore, in this embodiment, when the reception state is such that a reserved download is performed, the user is confirmed whether or not to start the download, and is downloaded only when the user's consent is obtained. To do.
As a result, the user can recognize the start of the download, and can receive a service for streaming playback of moving images and music in a suitable environment and with stable quality.
[0033]
Note that the notification method to the user is performed in the same manner as in the first embodiment described above.
In addition, the user's instruction to start downloading in response to this notification is made by pressing a predetermined key set in advance.
[0034]
The embodiment of the present invention has been described in detail with reference to the drawings. However, the specific configuration is not limited to this embodiment, and includes design and the like within the scope not departing from the gist of the present invention.
For example, in the first and second embodiments, when a user makes a reservation setting for data to be downloaded, a data start threshold for downloading the data and a time limit are set. Alternatively, a table in which optimum values are set according to the attributes of data to be downloaded may be held in the memory 21 of the terminal in advance. For example, the minimum required data communication speed is set according to the volume of data to be downloaded. If the user inputs the volume of data desired to be downloaded at the time of reservation, the CPU 9 automatically displays the above table. It is good also as setting a data start threshold value by referring.
[0035]
In addition, the data start threshold value is set to a constant value regardless of the data capacity, and when the value (communication speed) is exceeded, download is started or notification of whether to start download is made. Also good.
Whether or not the data start threshold is exceeded is determined by using the above-described average DRC, or when the average DRC exceeds the data start threshold continuously for a predetermined number of times. To.
In addition, the time limit for notifying the user when the reception state that enables the desired downlink data communication speed is not obtained is set in advance, and the value is always adopted. Also good. In this case, the time limit is arbitrarily changed by the user.
[0036]
【The invention's effect】
As described above, according to the mobile communication terminal of the present invention, the data reserved by the user is automatically downloaded when the communication state is good. As a result, the user is free from the stress of waiting for the end of the download without being restricted in downloading his data. In addition, since there is a high possibility of downloading when the user is not using the terminal, a part of the CPU (central processing unit) processing capacity is devoted to data communication processing, and the user operation such as key input is not performed. Problems such as slow reaction can be solved. In addition, since the data download is executed when the reception state is always good, the data download time can be shortened, and the communication cost and power consumption can be reduced. In addition, since it is possible to always perform data communication in a suitable environment, even when receiving services such as streaming playback of video and music, the effects of image quality, sound quality degradation, video stop, sound interruption, etc. This eliminates the effect of obtaining sufficient service quality.
[0037]
In addition, according to the mobile communication terminal of the present invention, when the condition for downloading the data reserved by the user is satisfied, the communication state suitable for downloading is notified to the user. An alarm sound is given to prompt a request to start data download. Thereby, since a user's instruction | indication is always required for the download start, the user can always recognize the start of download. As a result, the user can receive a streaming playback service for moving images and music in a suitable environment and with stable quality.
In the mobile communication terminal of the present invention, the data communication start threshold is individually set according to the attribute of the data to be downloaded.
Thereby, the data communication start threshold value is set in accordance with the size of the data amount or the attribute of the data to be downloaded, for example, whether it is audio data, communication data, or streaming playback service. Therefore, since data communication is started only when the data communication speed considered to be optimal for each data is exceeded, data can be downloaded efficiently.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a schematic configuration of a mobile communication terminal according to an embodiment of the present invention.
FIG. 2 is a diagram illustrating an example of a CIR-DRC conversion table.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Antenna, 3 ... Duplexer, 5 ... Demodulator, 7 ... Decoder, 9 ... CPU, 11 ... Predictor, 13 ... CIR-DRC conversion part, 15 ... Multiplexer (MUX), 17 ... Encoder, 19 ... Modulator, 21 ... Memory, 23 ... Display section, 25 ... Operation section, 27 ... External I / F (interface), 29 ... PC, etc.

Claims (2)

The terminal predicts the downlink data communication speed on the terminal side based on the reception state of the signal from the base station in the terminal, and notifies the predicted downlink data communication speed to the base station, so that the base station transmits the predicted downlink data communication speed. In a mobile communication terminal that employs a data communication method for communicating data with
Storage means for storing information of data desired to be downloaded as download reservation information;
Determining means for determining whether the predicted downlink data communication rate or an average predicted downlink data communication rate calculated from the predicted downlink data communication rate in a predetermined period is equal to or higher than a preset data communication start threshold;
Download start means for starting the download of data reserved as the download reservation information when the predicted downlink data communication speed or the average predicted downlink data communication speed is equal to or greater than the threshold ;
Equipped with,
A data communication start threshold can be individually set according to the attribute of data to be downloaded . The terminal predicts the downlink data communication speed on the terminal side based on the reception state of the signal from the base station in the terminal, and notifies the predicted downlink data communication speed to the base station, so that the base station transmits the predicted downlink data communication speed. In a mobile communication terminal that employs a data communication method for communicating data with
Storage means for storing information of data desired to be downloaded as download reservation information;
Determining means for determining whether the predicted downlink data communication rate or the average predicted downlink data communication rate calculated from the predicted downlink data communication rate in a predetermined period is equal to or greater than a preset data communication start threshold;
When the predicted downlink data communication speed or the average predicted downlink data communication speed is equal to or greater than the threshold, a notification means for notifying that a download start condition has been satisfied, and whether a download start instruction has been given by the user Detecting means for detecting whether or not,
Download start means for starting download of data reserved as the download reservation information when there is an instruction to start download ;
Equipped with,
A data communication start threshold can be individually set according to the attribute of data to be downloaded .

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