JP4741102B2 - Wireless communication device - Google Patents

Description

[0001]
[Technical field to which the invention belongs]
The present invention relates to a wireless communication device capable of data communication by a plurality of methods, and more particularly to selection of a data communication method.
[0002]
[Prior art]
In digital mobile communication, data communication is performed by a packet method that does not always occupy a line by using a characteristic that data is divided and transmitted for each frame.
[0003]
Data communication using the PDC method that is widely used in Japan includes a packet method that uses a user packet channel (UPCH) and a circuit switching method that occupies a communication channel (TCH). These two have different maximum communication speeds. That is, in the circuit switching method, one slot is occupied and used, so the maximum communication speed is 9.6 Kbps. On the other hand, in the packet method, the maximum communication speed when all slots are used is 28.8 Kbps, which is faster than the circuit switching method. In addition, the charging method is different between the two.
[0004]
[Problems to be solved by the invention]
In conventional wireless communication devices that perform data communication, although there are two such data communication methods, data communication is performed by either method, and the characteristics of each method are not fully utilized. It was. In addition, for mobile devices capable of data communication by two data communication methods, there has been proposed to select a method that reduces the communication fee due to the difference between the two charging methods, but from the viewpoint of data transfer speed. It did not select the optimal communication method.
[0005]
Therefore, even if you want to transfer data quickly, data communication is performed by selecting a cheap and slow method, and there is a problem that it takes time to transfer data, which is optimal from the viewpoint of not only the communication fee but also the data transfer speed. A wireless communication device for selecting a communication method has been desired.
[0006]
An object of the present invention is to provide a wireless communication device that performs data communication by selecting an optimal communication method from the viewpoint of data transfer speed.
[0007]
[Means for Solving the Problems]
The first invention performs data communication by connecting a data communication line by any one of the first communication method and the second communication method having a data transfer rate slower than that of the first communication method. In a wireless communication device having a communication means, when new data communication is started, if the transfer target data transferred by data communication is larger than a predetermined size, or is the first type of data, Determine whether the data communication line is connected, and if the data communication line is already connected, perform data communication using the connected communication method, but the data communication line is not connected Is further determined whether or not communication by the first communication method is possible, and if communication by the first communication method is possible, the first communication method is selected, and the first communication method is selected. If it is not communication by Shin scheme selects said second communication system, a communication method selection means for controlling said communication means to perform data communication by the communication mode selected, the communication mode selection means, When starting the new data communication, if the transfer target data transferred by the data communication is a predetermined size or smaller, or if the data is a second type of data other than the first type of data The second communication method is selected regardless of whether the data communication line is connected.
[0008]
In a second aspect based on the first aspect, the first type of data includes image data and music data.
[0009]
According to a third invention, in the first or second invention, the first communication method is a packet method, and the second communication method is a circuit switching method.
[0012]
Operation and effect of the invention
In the first invention, the communication method selection means determines whether or not the data communication line is already connected when starting a new data communication, and if the data communication line is already connected, While performing data communication according to the connected communication method, if the data communication line is not connected, it is further determined whether communication according to the first communication method is possible, and communication according to the first communication method. If it is possible, the first communication method is selected, and if the communication by the first communication method is impossible, the second communication method is selected, and the communication means is controlled to perform data communication by the selected communication method. Therefore, an appropriate data communication method can be selected depending on the type of data to be transferred.
[0013]
In addition, the communication method selection means, when the transfer target data transferred by the data communication is larger than a predetermined size, or when it is the first type of data, the communication method selection means has already started the new data communication. Since it is determined whether or not the data communication line is connected, an appropriate data communication method can be selected according to the capacity (data size) of the transferred data.
[0014]
In addition, the communication method selection means, when the transfer target data transferred by data communication is smaller than a predetermined size, or when the data is a second type of data other than the first type of data, Since the second communication method is selected regardless of whether or not a data communication line is already connected when starting a proper data communication, an appropriate data communication method depending on the capacity (data size) of data to be transferred Can be selected.
[0015]
In the second invention, since the first type of data includes image data and music data, even if the data type is image data or music data having a large data size, the data transfer is finished early. Can be made.
[0016]
In the third invention, since the first communication method is a packet method and the second communication method is a circuit switching method, a data communication line is set by giving priority to a packet communication method having a high data transfer rate. Data can be received in a short time.
[0017]
DETAILED DESCRIPTION OF THE INVENTION
Next, embodiments of the present invention will be described with reference to the drawings.
[0018]
FIG. 1 is a block diagram of a mobile device (cellular phone) according to an embodiment of the present invention.
[0019]
The antenna 1 is connected to the transmission unit 2 and the reception unit 3, receives radio waves (downlink signals) from the radio base station, and transmits radio waves (uplink signals) to the radio base station. The radio unit 2 includes a transmission unit 3 and a reception unit 4, and the transmission unit 3 generates a high frequency signal transmitted from the antenna 1. The receiving unit 4 amplifies and frequency-converts the high frequency signal received by the antenna 1 and outputs it to the berth band processing unit 5 as a baseband signal.
[0020]
The baseband processing unit 5 demodulates the baseband signal by a demodulation circuit. The demodulated signal is sent to the encoding / decoding unit 6, and is decoded into an audio signal and a data signal by the encoding / decoding unit 6. The encoding / decoding unit 6 encodes a voice signal and a data signal, and the encoded signal is sent to the baseband processing unit 5 and modulated. The modulated signal is converted into a high-frequency signal by the transmission unit 3 and transmitted from the antenna 1.
[0021]
The control unit 9 controls each unit of the mobile phone such as the radio unit 2, the baseband processing unit 5, and the encoding / decoding unit 6. In addition, character information and display data for displaying the operation state of the mobile phone are sent to the display unit 11, and input of characters and numbers from the operation unit 12 and operation instructions to the mobile phone are accepted. In addition, a communication method selection unit is configured mainly by the control unit 9, and the data depends on the type of data to be transferred, the size of the transferred data, and the current communication state (whether data communication is in progress or packet communication is possible) Select the communication method.
[0022]
FIG. 2 is a flowchart of the communication method selection process of the mobile device according to the first embodiment of this invention.
[0023]
In this embodiment, when a mobile station requests data transfer (download) from a base station, it is selected and determined by which method a data communication line is connected to the base station to transfer data. .
[0024]
First, when there is a data transfer request (S101), the type of data is determined. That is, it is determined whether the data to be transferred is wallpaper data (image data) (S102). This determination is made by determining the file type from the extension of the data file to be transferred or by inquiring of the data type to be transferred to the base station and acquiring information on the data type.
[0025]
If the data to be transferred is not wallpaper data (“N” in S102), it is determined that the data capacity is not so large, and the circuit switching method is selected (S107). Then, the communication channel (TCH) is activated, connected to the base station via a normal communication line, and receives data transfer from the base station by a circuit switching method.
[0026]
On the other hand, if the data to be transferred is wallpaper data, there is a possibility that the data capacity is large. Therefore, either the packet method or the circuit switching method is selected depending on the current communication state and the nature of the current zone (S104). , S106, S107). That is, when the data to be transferred is wallpaper data (“Y” in S102), it is determined whether the data communication line is currently connected (S103). If it is currently online ("N" in S103), a new communication method is not selected and the current communication method is continuously maintained (S105).
[0027]
On the other hand, if the data communication line is currently not connected ("Y" in S103), it is necessary to set a new data communication line, so that packet communication is possible. Whether the line is set by the packet system or the circuit switching system is selected.
[0028]
That is, if the mobile device is currently located outside the zone corresponding to packet communication and cannot perform packet communication (“N” in S104), the circuit switching method is selected (S107). On the other hand, if the mobile station is currently located in the zone that supports packet communication and is ready for packet communication (“Y” in S104), the packet method with the highest data transfer speed than the circuit switching method is selected. (S106).
[0029]
In the first embodiment described above, the packet communication method is selected when the data to be transferred is wallpaper data (image data). However, with the same configuration, the data to be transferred is music data. In some cases, the packet communication method may be selected.
[0030]
Thus, in the mobile device according to the first embodiment, the communication method for setting the data communication line is selected according to the type of data. That is, among the packet communication method and the circuit switching method that are currently possible communication methods in the PDC method, the packet communication method has a maximum speed of 28.2 Kbps, and the circuit switching method has a maximum speed of 9.6 Kbps. Data transfer is performed when it is determined whether or not the amount of data is large depending on the type of data to be transferred from the base station, and generally when the type of data (for example, image data or audio data) that increases the amount of data is transferred. Since the fast packet communication method is preferentially selected, the data communication line is set, and the data is transferred, the data transfer can be received in a short time even when the amount of transferred data is large. In addition, when the amount of data to be transferred is small, the line is switched to occupy the line and the data is transferred, so that the data can be transferred in a short time without being interrupted by communication with other mobile devices. it can.
[0031]
FIG. 3 is a flowchart of the communication method selection processing of the mobile device according to the second embodiment of this invention.
[0032]
In the second embodiment, when data is downloaded (transferred) from the base station to the mobile device, it is selected and determined by which method the data is transferred, not by the type of data but by the data capacity.
[0033]
First, when there is a data transfer request (S111), the base station is inquired of the data size to acquire the data file capacity (S112), and the data file capacity is compared with a predetermined value (S113). . If the data to be transferred is smaller than the predetermined size (“N” in S113), the data capacity is not so large, so the circuit switching method is selected (S118). When the line method is selected, the communication channel (TCH) is activated, connected to the base station via a normal communication line, and receives data transfer from the base station by a relatively low-speed line switching method.
[0034]
On the other hand, if the data to be transferred is larger than the predetermined size (“Y” in S113), it is determined whether the data communication line is currently connected (S114). If it is currently online ("N" in S114), a new communication method is not selected and the current communication method is continuously maintained (S116).
[0035]
On the other hand, if the data communication line is currently not connected ("Y" in S114), it is necessary to set a new data communication line, so that packet communication is possible. Whether the line is set by the packet system or the circuit switching system is selected.
[0036]
That is, if the mobile station is currently located outside the zone corresponding to packet communication and cannot perform packet communication (“N” in S115), the circuit switching method is selected (S118). On the other hand, if the mobile device is currently located in the zone for packet communication and is ready for packet communication (“Y” in S115), the packet method with the highest data transfer speed is selected over the circuit switching method. (S117).
[0037]
Thus, in the mobile device according to the second embodiment, a method for setting a data communication line is selected according to the data capacity. That is, it is determined whether or not the amount of data transferred from the base station is large. Since data transfer is performed after setting, data transfer can be received in a short time even when the amount of transferred data is large. In addition, when the amount of data to be transferred is small, the line is switched to occupy the line and the data is transferred. it can.
[Brief description of the drawings]
FIG. 1 is a block diagram of a mobile device according to an embodiment of the present invention.
FIG. 2 is a flowchart of communication method selection processing of the mobile device according to the first embodiment of this invention.
FIG. 3 is a flowchart of a communication method selection process of a mobile device according to the second embodiment of this invention.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 Antenna 2 Radio | wireless part 3 Transmission part 4 Reception part 5 Baseband process part 6 Encoding / decoding part 7 Transmission part 8 Reception part 9 Control part 10 Storage part 11 Display part 12 Operation part

Claims (3)

Wireless communication having communication means for performing data communication by connecting a data communication line according to any one of a first communication method and a second communication method having a data transfer rate slower than that of the first communication method In the machine
Whether or not the data communication line is already connected if the transfer target data transferred by the data communication is larger than a predetermined size when starting a new data communication or is the first type of data. Determine whether
If a data communication line is already connected, data communication is performed using the connected communication method.
When a data communication line is not connected, it is further determined whether or not communication by the first communication method is possible. If communication by the first communication method is possible, the first communication method is selected. A communication method selection unit that selects the second communication method if communication by the first communication method is impossible, and controls the communication unit to perform data communication by the selected communication method ;
When the communication method selection means starts the new data communication, the transfer target data transferred by the data communication is a predetermined size or smaller, or the second type other than the first type data If it is the data, the wireless communication device characterized in that the data communication line to select the second communication method regardless of whether or not it is connected.   The wireless communication apparatus according to claim 1, wherein the first type of data includes image data and music data.   The wireless communication apparatus according to claim 1 or 2, wherein the first communication method is a packet method, and the second communication method is a circuit switching method.

Images