JP2004282512A - Method for transferring infrared data of portable terminal - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To reduce troublesomeness which the user of a portable telephone set feels because the user does not know a residual data transfer time when infrared data are transferred from the portable telephone set. <P>SOLUTION: This infrared data transferring method for a portable terminal is disclosed. In a portable terminal provided with a function for transmitting and receiving data to/from a second terminal by an infrared ray, a communication speed and a transfer data size are determined between a transmitting side portable terminal and a receiving side portable terminal when infrared data transmission and reception are started with the other terminal, and the transmitting side portable terminal starts to transfer the infrared data to the receiving side portable terminal. The receiving side portable terminal subtracts a reception data transfer time from the entire data transfer time calculated by dividing a file size sent from the transmitting side portable terminal by the communication speed to calculate a residual data transfer time, displaying the residual data transfer time on a displaying means. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to an infrared data transfer method for a mobile terminal, and more particularly, to a mobile terminal capable of notifying a user of a data transfer time and a data transfer rate when performing infrared data transfer in a mobile phone or the like. Related to an infrared data transfer method.
[0002]
[Prior art]
Infrared transfer of data in mobile phones is already known and some are in practical use.
FIG. 8 illustrates a procedure for transferring infrared data in a conventional mobile phone, and illustrates, for example, a case where data of a telephone directory is transferred.
[0003]
In a conventional mobile phone, when performing infrared data transfer, first, as shown in FIG. 8, the transmitting mobile phone sets "Connect" after the connection with the receiving mobile phone is completed. Transmit (801). Upon receiving "Connect" normally, the receiving-side mobile phone transmits "Success" (802). Since the information on the packet size and the communication speed of the data to be transmitted / received at the time of connection is exchanged, when the connection is completed, the communication speed and the transfer data size per one time become the transmission side mobile phone and the reception side mobile phone. To decide between.
[0004]
Next, when the transmitting mobile phone normally receives “Success”, it transmits the file name (803). Upon receiving the file name normally, the receiving-side mobile phone transmits "Continue" (804). When the transmitting side mobile phone normally receives "Continue", it transmits data (805). Upon receiving the data normally, the receiving-side mobile phone transmits "Continue" (806). Thereafter, since the number of times of data transmission changes according to the entire size (file size) of the data, the data is divided and transmitted as 807, 808,..., 809, 810 according to the file size.
[0005]
The transmitting-side mobile phone transmits the final data (811). At this time, the transmitting portable telephone sets the final flag for the last data and transmits it. Upon receiving the final data normally, the receiving-side mobile phone transmits "Success" (812). When the transmitting side mobile phone normally receives "Success", it transmits "Disconnect" (813). When receiving the “Disconnect” normally, the receiving-side mobile phone transmits “Success” (814).
[0006]
As described above, in the conventional infrared data transfer of a mobile phone, data is sequentially transferred for each predetermined data size, and finally the transfer end is notified using the final data flag. At the start, we do not send information on the overall data size.
[0007]
[Patent Document 1]
JP 2001-177876 A
[Patent Document 2]
JP-A-2002-124907
[Patent Document 3]
JP-A-11-015762
[Patent Document 4]
JP-A-11-113059
[0008]
[Problems to be solved by the invention]
In a mobile phone, it takes two to three minutes to transfer all of the 700 phonebook entries using infrared data transfer.
In this case, the conventional mobile phone merely displays a screen indicating that infrared data transfer is in progress, so the user does not know how long it takes to transfer the remaining data, which causes a problem that the user feels troublesome. Was.
[0009]
SUMMARY OF THE INVENTION The present invention has been made in view of the above-described circumstances, and has a portable terminal capable of notifying a user of a remaining data transfer time and a data transfer rate during infrared data transfer in a portable telephone. It aims to provide a data transfer method.
[0010]
[Means for Solving the Problems]
In order to solve the above problem, the invention according to claim 1 relates to an infrared data transfer method for a portable terminal, the portable terminal having a function of transmitting / receiving infrared data to / from another terminal. At the start of transmission / reception of infrared data, the transmission speed and transfer data size are determined between the transmitting mobile terminal and the receiving mobile terminal, and the infrared data transfer process from the transmitting mobile terminal to the receiving mobile terminal is started. Then, at the receiving side mobile terminal, the received data transfer time is subtracted from the total data transfer time calculated by dividing the predetermined data size by the communication speed to obtain and display the remaining data transfer time. I have.
[0011]
According to a second aspect of the present invention, there is provided the infrared data transfer method for a portable terminal according to the first aspect, wherein the receiving terminal determines whether the received data is determined by the predetermined data size, the transfer data size, and the number of times of data transfer. It is characterized in that the data reception rate is obtained and displayed according to the ratio with the data size.
[0012]
According to a third aspect of the present invention, there is provided the infrared data transfer method for a portable terminal according to the first aspect, wherein in the transmitting terminal, the total data transfer time calculated by dividing the predetermined data size by the communication speed. The transmission data transfer time is subtracted from the remaining data transfer time to obtain and display the remaining data transfer time.
[0013]
According to a fourth aspect of the present invention, there is provided the infrared data transfer method for a portable terminal according to the third aspect, wherein in the transmitting terminal, the transmitted data determined by the predetermined data size, the transfer data size, and the number of data transfers. It is characterized in that the data transmission rate is obtained and displayed according to the ratio with the data size.
[0014]
According to a fifth aspect of the present invention, there is provided the infrared data transfer method for a portable terminal according to any one of the first to fourth aspects, wherein the predetermined data size is a file transmitted from the transmitting portable terminal to the receiving portable terminal. It is characterized by its size.
[0015]
According to a sixth aspect of the present invention, there is provided the infrared data transfer method for a portable terminal according to any one of the first to fourth aspects, wherein the predetermined data size is a file transmitted from the transmitting portable terminal to the receiving portable terminal. The data size is a predetermined data size corresponding to the name.
[0016]
The invention according to claim 7 relates to the infrared data transfer method for a portable terminal according to claim 6, wherein the predetermined data size corresponding to the file name is a maximum data size of a data object corresponding to the file name. It is characterized by:
[0017]
The invention according to claim 8 relates to the infrared data transfer method for a portable terminal according to any one of claims 1 to 7, wherein the portable terminal is a portable telephone.
[0018]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings. The description will be made specifically using an embodiment. In the following, a case will be described in which the mobile terminal is a mobile phone, but the present invention is not limited to this case, and any type of mobile terminal having an infrared data transfer function may be used. .
[0019]
FIG. 1 is a block diagram showing a configuration example of a mobile phone to which an infrared data transfer method for a mobile terminal according to the present invention is applied. FIG. FIG. 3 is a block diagram showing the configuration of the infrared control software in the data transfer method. FIG. 3 is a diagram showing the display of the infrared transfer time and the data reception rate in the infrared data transfer method of the portable terminal of this embodiment. FIG. 5 is a flowchart illustrating an overall operation in the infrared data transfer method of the mobile terminal of the example, FIG. 5 is a flowchart illustrating a data transfer process of the receiving mobile terminal in the infrared data transfer method of the mobile terminal of the present embodiment, and FIG. 5 is a sequence chart showing a procedure of infrared data transfer in the infrared data transfer method of the portable terminal of the embodiment.
[0020]
As shown in FIG. 1, the mobile phone of this example includes an antenna 101, a wireless unit 102, an infrared device 103, a display unit 104, an operation unit 105, a control unit 106, an audio processing unit 107, a speaker , A receiver 109, and a microphone 110.
[0021]
The antenna 101 performs mutual conversion between a radio signal and a radio wave. Radio section 102 demodulates a radio signal input from antenna 101 and outputs the demodulated signal to control section 106, modulates a signal input from control section 106 and outputs the modulated signal to antenna 101 as a radio signal. The infrared device 103 converts the electric signal output from the control unit 106 into an infrared signal and outputs the same to a partner mobile phone (not shown), converts the infrared signal input from the partner mobile phone into an electric signal, and Input to 106.
[0022]
The display unit 104 displays various data based on the display data output from the control unit 106. The operation unit 105 inputs various operation signals to the control unit 106 based on a user operation.
The control unit 106 includes a CPU (Central Processing Unit) 111, controls transmission and reception of data to and from the wireless unit 102 based on an operation input from the operation unit 105, and controls input and output of audio data to and from the audio processing unit 107. To control the input and output of infrared data to the infrared device 403.
[0023]
The audio processing unit 107 converts the audio signal input from the microphone 110 into audio data and outputs the audio data to the control unit 106, and converts the audio data input from the control unit 106 into an audio signal and sends the audio signal to the speaker 108 and the receiver 109. Output. The speaker 108 converts the audio signal input from the audio processing unit 107 into audio and transmits the audio. The receiver 109 converts the audio signal input from the audio processor 107 into audio and transmits the audio. The microphone 110 converts the input voice into a voice signal and outputs the voice signal to the voice processing unit 107.
[0024]
The mobile phone illustrated in FIG. 1 communicates with a base station (not shown) via a wireless unit 102 and an antenna 101 by a wireless signal under the control of the control unit 106.
The radio signal received by the antenna 101 selects a signal frequency to be received by the radio unit 102, converts the frequency, amplifies and demodulates the signal, converts the signal into reception data, and outputs the data to the control unit 106. The control unit 106 processes the received data and outputs a digital audio signal to the audio processing unit 107. The audio processing unit 107 converts the digital audio signal into an analog electric signal and outputs the analog electric signal from the receiver 109 as audio. A digital sound signal such as a bell sound or a ringtone output from the control unit 106 is converted into an analog electric signal by the sound processing unit 107 and sent out from the speaker 108 as sound.
[0025]
The audio input is converted to an analog electric signal by the microphone 110, converted to a digital audio signal by the audio processing unit 107 and input to the control unit 106, and the control unit 106 processes the input signal to transmit the audio data. Generate Based on the generated audio data, the radio unit 102 performs modulation processing to generate and amplify a radio signal of a specified frequency, and transmits the radio signal via the antenna 101.
[0026]
The control unit 106 monitors the operation unit 105, detects and determines a user operation, and performs a process based on the operation. The display unit 104 visually displays various data output from the control unit 106 on a display surface.
The control unit 106 monitors the infrared device 103 and performs IrDA (Infrared Data Association) modulation / demodulation processing on the infrared input / output signal.
[0027]
As shown in FIG. 2, the infrared control software in the infrared data transfer method of the portable terminal in this example includes an application layer 201, an OBEX (Object Exchange) layer 202, an IrDA layer 202, and a protocol stack layer 203. It is schematically configured.
[0028]
The application layer 201 transfers the data processed by the control unit 106 to the OBEX layer 202 according to its type, or transfers the data received from the OBEX layer 202 to the control unit 106 according to its type.
The OBEX layer 202 transmits data specified by the application layer 201 to the communication partner, or receives data transmitted from the communication partner and transfers the data to the application layer 201. The types of data that can be handled by the OBEX layer 202 include vCard (phone book data), vMessage (mail data), vBookmark (bookmark data), vCalender (schedule data), vNote (image data, melody data), and the like.
[0029]
In the IrDA protocol stack layer 203, data specified by the OBEX layer 202 is transmitted to a communication partner via the infrared device 204 (corresponding to the infrared device 103 in FIG. 1), or transmitted from the communication partner via the infrared device 204. The received data is delivered to the OBEX layer 202.
By using the data size received from the OBEX layer 202, the communication speed, and the packet size of the data to be transferred for each process in the application layer 201, the display unit 104 displays the remaining infrared data transfer time and The data transfer rate is displayed.
[0030]
FIG. 3 exemplifies the display of the infrared transmission time and the data reception rate performed on the display unit 104 in the mobile phone of this example. Is displayed, and the display of the remaining transfer time (for example, 1 minute and 50 seconds) indicated by 302 is performed.
[0031]
Next, an overall operation in the infrared data transfer method of the portable terminal of this example will be described with reference to a flowchart shown in FIG.
First, an infrared connection is started (step 401). When the infrared connection is completed (step 402), the communication speed with the transfer partner and the packet size of the data to be transferred for each process are determined (step 403). Thereafter, the data transfer process is started (Step 404).
If the infrared connection is not completed in step 402, a timeout process is performed (step 405), and the process ends.
[0032]
The data transfer process of the receiving portable terminal is performed according to the flowchart shown in FIG.
First, the receiving mobile phone receives the data file name from the transmitting mobile phone (step 501). The receiving-side mobile phone specifies the object (data object) to be received by using the file name. If the data object cannot be accepted by the receiving mobile phone, no further processing is performed. Subsequently, the file size is received from the transmitting mobile phone (step 502).
[0033]
The receiving mobile phone calculates the transfer time of the entire infrared data by dividing the file size by the communication speed (step 503). Then, the remaining data transfer time and the data reception rate are displayed on the display unit 104 (step 504). The remainder of the data transfer time is calculated by subtracting the data transfer time so far from the entire data transfer time every second. The data reception rate is determined by the ratio between the entire data size and the received data size up to now. The received data size is determined from the received data size (packet size) and the number of data receptions (the number of received packets).
[0034]
Thereafter, the data transfer is repeatedly performed. Each time, it is determined whether or not the data transfer has been completed (step 505). If the data transfer has not been completed, the next packet data is received (step 506). The process of updating the data reception rate (step 507) is repeated, and when the data transfer is completed, the process ends.
[0035]
The transmitting mobile phone also calculates the remaining transfer time and data transmission rate from the file size, the communication speed, the packet size of the data to be transmitted for each process, and the number of data transmissions (the number of transmitted packets). And display it on the display unit.
[0036]
Since the file size is not essential information for the mobile phone, if the receiving mobile phone does not support the function of receiving the file size, the file size information is rejected.
[0037]
Hereinafter, the procedure of the infrared data transfer method of the portable terminal of this example will be described with reference to the sequence chart shown in FIG.
After the connection with the receiving-side mobile phone is completed, the transmitting-side mobile phone transmits "Connect" (601). Upon receiving "Connect" normally, the receiving-side mobile phone transmits "Success" (602). When the connection is completed, the transmission speed and the packet size of one transfer data are determined by the transmission-side mobile phone and the reception-side mobile phone.
[0038]
Next, when the transmitting side mobile phone normally receives “Success”, it transmits the file name (603). Upon receiving the file name normally, the receiving-side mobile phone transmits "Continue" (604). When the transmitting side mobile phone normally receives "Continue", it transmits the file size (605). Upon receiving the file size normally, the receiving-side mobile phone transmits "Continue" (606). When the transmitting side mobile phone normally receives "Continue", it transmits data (step 607). Thereafter, since the number of times of data transmission changes according to the entire data size, data is transmitted as 609, 610,..., 611, 612 according to the file size.
[0039]
The transmitting side mobile phone transmits the final data (613). At this time, the transmitting portable telephone sets the final flag for the last data and transmits it. Upon receiving the final data normally, the receiving-side mobile phone transmits "Success" (614). When the transmitting side mobile phone normally receives "Success", it transmits "Disconnect" (615). Upon receiving “Disconnect” normally, the receiving-side mobile phone transmits “Success” (616).
[0040]
In the infrared data transfer method in the mobile terminal of this example, for example, in the case of the receiving mobile terminal, the file size information is transmitted from the transmitting mobile phone during the infrared data transfer operation of the mobile phone as shown in FIG. Then, the receiving mobile phone divides the file size by the communication speed to obtain the entire data transfer time, subtracts the previous data transfer time from the total data transfer time to calculate the remaining transfer time, and The data reception rate is calculated based on the ratio between the data size and the size of the received data determined by the received data size and the number of times of data reception. Then, the user is notified of the remaining data transfer time and the data reception rate by displaying them on the display unit 104 as in the example shown in FIG.
[0041]
As described above, according to the infrared data transfer method of the mobile terminal of this example, during the infrared data transfer of the mobile phone, the file size information transmitted from the transmitting mobile phone allows the transmitting mobile phone and the receiving mobile phone to transmit the data. Since the remaining data transfer time and the data transfer rate are displayed and notified to the user, the inconvenience that the mobile phone user feels because the remaining data transfer time is not known during the infrared data transfer. Can be reduced.
[0042]
In the first embodiment, the transmitting mobile phone transmits the file size to the receiving mobile phone. However, even if the transmitting mobile phone does not transmit the file size, the transmitting mobile phone can transmit the file size to the receiving mobile phone. By using the maximum size of data that may be sent from the mobile phone, the display accuracy is reduced as compared with the case where the transmitting mobile phone transmits the file size, but the remaining data transfer time and the data reception rate are reduced. It can be displayed and notified to the user.
[0043]
Second Embodiment FIG. 7 is a flowchart showing a data transfer process of the receiving terminal in the infrared data transfer method of the portable terminal according to the second embodiment of the present invention.
Hereinafter, the infrared data transfer method of the portable terminal of this example will be described with reference to the flowchart shown in FIG.
First, the receiving-side mobile phone receives the data file name from the transmitting-side mobile phone (step 701). The receiving-side mobile phone specifies the data object to be received based on the file name. Next, the receiving-side mobile phone obtains the maximum data size corresponding to the data object to be received from the database, and divides the maximum data size by the communication speed to calculate the entire transfer time of the infrared data (step). 702).
[0044]
Then, the remaining data transfer time and the data reception rate are displayed on the display unit 104 (step 703). The remaining data transfer time is calculated by subtracting the data transfer time so far from the entire data transfer time every second. The data reception rate is determined by the ratio of the entire data size and the transferred data size determined by the transfer data size (packet size) and the number of data transfers (the number of transfer packets).
[0045]
Thereafter, the data transfer is repeatedly performed. Each time, it is determined whether the data transfer is completed (step 704). If the data transfer is not completed, the next packet data is received (step 705), and the display unit 104 is displayed. The process of updating the data reception rate (step 706) is repeated, and when the data transfer is completed, the process ends.
[0046]
As a result, the remaining data transfer time and the data reception rate are displayed on the display unit 104. The display example in this case is the same as that in the first embodiment shown in FIG.
[0047]
As described above, according to the infrared data transfer method of the mobile terminal of this example, similarly to the first embodiment, the user of the mobile phone does not know the remaining data transfer time during the infrared data transfer. The annoyance can be reduced.
In this example, the receiving mobile phone does not receive the file size from the transmitting mobile phone, so the display accuracy is lower than in the first embodiment. The purpose of reducing the annoyance can be similarly achieved. If the transmitting mobile phone has the file size information, it can display the remaining data transfer time and the data transmission rate without lowering the accuracy, as in the first embodiment. it can.
[0048]
As described above, 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 even if there is a design change or the like within a range not departing from the gist of the present invention. Included in the invention. For example, the infrared data transfer method for a mobile terminal of the present invention is not limited to a mobile phone, and can be applied to a case where another type of mobile terminal such as a PDA (Personal Data Assistant) has an infrared data transfer unit. It is possible. In the second embodiment, the maximum size of data that may be transmitted from the transmitting mobile phone is not limited to the maximum data size corresponding to the data object to be received, but may be the maximum size of other types of data. May be. Further, the mobile terminal may perform the data transfer using a weak radio signal having a frequency different from the communication frequency instead of performing the infrared data transfer, or may perform the data transfer using an ultrasonic signal.
[0049]
【The invention's effect】
As described above, according to the infrared data transfer method for a mobile terminal of the present invention, the remaining data transfer time and the data transfer rate are displayed and the user is notified during the infrared data transfer of the mobile terminal. Therefore, it is possible to reduce the inconvenience felt by the portable terminal user due to the fact that the remaining data transfer time is not known during the infrared data transfer.
[Brief description of the drawings]
FIG. 1 is a block diagram illustrating a configuration example of a mobile phone to which an infrared data transfer method for a mobile terminal according to the present invention is applied.
FIG. 2 is a block diagram showing a configuration of infrared control software in the infrared data transfer method of the portable terminal according to the first embodiment of the present invention.
FIG. 3 is a diagram showing a display of an infrared data transfer time and a data reception rate in the infrared data transfer method of the portable terminal of the present invention.
FIG. 4 is a flowchart illustrating the overall operation of the infrared data transfer method for a portable terminal according to the present invention.
FIG. 5 is a flowchart illustrating a data transfer process of the receiving portable terminal in the infrared data transmitting method of the portable terminal according to the first embodiment of the present invention.
FIG. 6 is a sequence chart showing a procedure of infrared data transfer in the infrared data transfer method of the portable terminal according to the embodiment.
FIG. 7 is a flowchart showing a data transfer process of the receiving portable terminal in the infrared data transmitting method of the portable terminal according to the second embodiment of the present invention.
FIG. 8 is a diagram showing a procedure at the time of infrared data transfer in a conventional mobile phone.
[Explanation of symbols]
101 antenna 102 wireless unit 103 infrared device 104 display unit (display means)
105 Operation unit 106 Control unit 107 Audio processing unit 108 Speaker 109 Receiver 110 Microphone 111 CPU

Claims (8)

In a mobile terminal equipped with a function to transmit and receive infrared data to and from other terminals,
At the start of infrared data transmission / reception with another terminal, the communication speed and transfer data size are determined between the transmitting mobile terminal and the receiving mobile terminal, and the infrared data from the transmitting mobile terminal to the receiving mobile terminal is determined. At the receiving side mobile terminal, and subtracts the received data transfer time from the total data transfer time calculated by dividing the predetermined data size by the communication speed to obtain and display the remaining data transfer time. Infrared data transfer method for a mobile terminal. 2. The receiving terminal according to claim 1, wherein a data reception rate is obtained and displayed based on a ratio of the predetermined data size and a size of received data determined by the transfer data size and the number of times of data transfer. Infrared data transfer method for mobile terminals. The transmission-side terminal subtracts a transmission data transfer time from an entire data transfer time calculated by dividing the predetermined data size by the communication speed to obtain and display a remaining data transfer time. Item 7. The infrared data transfer method for a portable terminal according to Item 1. 4. The transmitting terminal according to claim 3, wherein a data transmission rate is obtained and displayed based on a ratio of the predetermined data size and a size of transmitted data determined by the transfer data size and the number of times of data transfer. Infrared data transfer method for mobile terminals. The infrared data transfer method for a portable terminal according to any one of claims 1 to 4, wherein the predetermined data size is a file size transmitted from the transmitting portable terminal to the receiving portable terminal. The infrared data transfer of a portable terminal according to any one of claims 1 to 4, wherein the predetermined data size is a predetermined data size corresponding to a file name sent from the transmitting portable terminal to the receiving portable terminal. Method. 7. The method according to claim 6, wherein the predetermined data size corresponding to the file name is a maximum data size of a data object corresponding to the file name. The infrared data transfer method for a portable terminal according to any one of claims 1 to 7, wherein the portable terminal is a portable telephone.

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