JP2004341674A - Information processor - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an information processor that efficiently processes data. <P>SOLUTION: For transfer to an external storage device, a speed of communication with a network is detected. If the detected communication speed is lower than a first reference value, information for later transfer is saved in association with edited file data, or if the detected communication speed is higher than the first reference value, the saved edited file data are transferred to the external storage device via the network. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention edits and stores file data captured from an external storage device such as a server connected to a network, and transfers the saved edited file data to an external storage device such as a server via a network. The present invention relates to an information processing device.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, in an office, a plurality of computers are connected to a server by a wired LAN (Local Area Network), data is stored in the server, data stored in the server is imported to each computer, edited, and then overwritten on data on the server. Updating the data is performed.
[0003]
In recent years, with the spread of wireless LANs in offices and homes and services using wireless LANs in restaurants and stations, various types of data can be received, displayed, and reproduced by information processing devices and the like. It is becoming possible.
[0004]
Furthermore, an information processing apparatus has been used to connect to a server from a wireless LAN via a network, fetch desired data from the server, and edit the data. For example, it has become possible to connect to a server from a place where a wireless LAN service is provided on a business trip, take in and edit data, transfer the edited data to the server, and update the server data. I have.
[0005]
Thus, in an environment with a wireless LAN, the server data can be edited and updated at any time and from any place, and thus attracts attention.
[0006]
According to the conventional technology for realizing such a thing, within a range where radio waves can reach according to the environment of the wireless LAN, a connection to a network via a wireless LAN is performed to fetch desired data from a server or the like into an information processing apparatus, and further, information processing is performed. The edited data in the device can be transferred to a server and saved (for example, see Patent Document 1).
[0007]
Further, in another conventional technique in consideration of the communication status of the wireless LAN, when data in the information processing device is transferred to a server via the wireless LAN and stored, the edited data is stored in the information processing device. Even if a failure occurs in the network and the data cannot be transferred to the server and saved, the data can be transferred to the server after the network is restored later (for example, see Patent Document 2).
[0008]
[Patent Document 1]
JP 2001-358753 A
[Patent Document 2]
JP 2001-43120 A
[0009]
[Problems to be solved by the invention]
When data is transmitted to and received from a server via a network using a LAN, the data communication speed changes depending on the degree of concentration of communication on the network. As the communication speed changes, the communication time required for data transmission and reception also changes. For example, if the communication speed becomes slow, the communication time becomes long.
[0010]
Further, when connecting to a network using a wireless LAN, the network is connected via an access point installed at a station or the like. However, many terminals are connected to the access point or the server is connected to the terminal. If there are many terminals accessing the server, the communication speed becomes slow, and it may take a long time to transfer and store data even if the server can be connected.
[0011]
However, in the prior arts of Patent Literature 1 and Patent Literature 2, since the communication speed or the communication time is not considered, if the data is transferred in a state where the communication speed is low and the storage is continued to be completed, the information processing device The communication device such as a wireless LAN installed in the device remains on, and remains connected to the network for a long time. That is, since the data transfer time is long, there is a problem that the function of the information processing apparatus is restricted during the transfer and the usability is deteriorated. Furthermore, if the wireless LAN device is kept on for a long period of time, the power consumption increases and there is a problem that the efficiency is low. In particular, a portable information processing device driven by a battery consumes power for communication processing and the communication device, and as a result, the operable time of the information processing device is shortened.
[0012]
An object of the present invention is to provide an information processing device that performs data processing efficiently.
[0013]
[Means for Solving the Problems]
The information processing apparatus according to claim 1 of the present invention captures file data of an external storage device connected to a network, edits and saves the captured file data, and transmits the saved edited file data via the network. When transferring to the external storage device, the communication speed with the network is detected, and when the detected communication speed is lower than the first reference value, information to be transferred later is added to the edited file data. When the communication speed is higher than the first reference value, the stored edited file data is transferred to the external storage device via the network.
[0014]
The information processing apparatus according to claim 2 of the present invention captures file data of an external storage device connected to a network, edits and saves the captured file data, and then stores the edited file data via the network. When transferring to the external storage device, the communication speed with the network is detected. If the detected communication speed is higher than the first reference value, the transfer time until the transfer of the edited file data is completed. If the calculated transfer time is shorter than the second reference value and / or the detected communication speed is lower than the first reference value, the edited file data storing information for later transfer When the calculated transfer time is longer than the second reference value, the stored edited file data is stored in the external device via the network. Characterized by transferring to the storage device.
[0015]
According to a third aspect of the present invention, in the information processing apparatus according to the first or second aspect, information to be transferred later is stored in association with the edited file data, and a predetermined time has elapsed. When the transfer operation is performed or when the communication to the network is resumed and reconnected to the external storage device, the communication speed is detected and / or the transfer time is calculated based on the information for transfer, and the communication speed is calculated. When the file data is faster than the first reference value and / or the transfer time is shorter than the second reference value, the stored edited file data is transferred to the external storage device via a network.
[0016]
According to a fourth aspect of the present invention, in the information processing apparatus according to the first, second or third aspect, the communication speed is determined based on a time required for transferring temporary data of a predetermined capacity and transferring the temporary data. It is characterized by doing.
[0017]
According to a fifth aspect of the present invention, in the information processing apparatus according to the first, second or third aspect, the communication speed is such that a predetermined amount of file data among the stored and edited file data is transferred. Detecting the communication speed based on the time required for the transfer, and detecting the communication speed higher than the first reference value and / or transferring the remaining data of the edited file data to be transferred. When the remaining data transfer time is shorter than the third reference value, the stored edited file data is transferred to the external storage device via a network to the external storage device.
[0018]
The information processing device according to claim 6 of the present invention, in the information processing device according to claim 5, wherein the detected communication speed is lower than the first reference value and / or the calculated remaining data transfer time is the When it is longer than the third reference value, information for transferring data later is stored, and when a predetermined time has elapsed, when a transfer operation has been performed, or when communication with the network has been resumed, the external storage device When the connection is re-established, the communication speed is detected and the remaining data transfer time is calculated based on the information for transfer, and the communication speed is faster than the first reference value and / or the remaining data transfer time is the third data transfer time. When the data is shorter than the reference value, the data is transferred from the continuation of the transferred data.
[0019]
According to a seventh aspect of the present invention, in the information processing apparatus according to the fifth or sixth aspect, the third reference value changes based on a remaining data capacity of the file data to be transferred. .
[0020]
An information processing apparatus according to an eighth aspect of the present invention is the information processing apparatus according to any one of the first to third, fifth, and sixth aspects, wherein the edited file data or the remaining data is stored. When the file data is transferred to the external storage device via the network, the edited file data or data having a predetermined capacity is deleted.
[0021]
An information processing device according to a ninth aspect of the present invention is the information processing device according to any one of the first to fourth aspects, wherein the stored edited file data is immediately transferred to the external storage device. The first and second reference values for determining whether to perform the transfer or to perform the data transfer to the external storage device later can be set by an operation from an input unit.
[0022]
According to a tenth aspect of the present invention, in the information processing apparatus according to any one of the fifth to seventh aspects, the saved and edited file data is continuously stored in the external storage device. The first and third reference values for determining whether to perform data transfer or later to perform data transfer to the external storage device can be set by an operation from an input unit.
[0023]
An information processing apparatus according to an eleventh aspect of the present invention is the information processing apparatus according to any one of the first to tenth aspects, wherein the information processing apparatus wirelessly accesses an external storage device connected to the network. It is characterized by being able to.
[0024]
An information processing apparatus according to a twelfth aspect of the present invention is the information processing apparatus according to any one of the first to eleventh aspects, wherein a power source is a battery and a portable type.
[0025]
The information processing apparatus according to claim 13 of the present invention captures the file data of the external storage device connected to the network by the communication unit, edits the captured file data by the editing function unit, saves the storage device, and then saves the edited data. When the subsequent file data is transferred to the external storage device via the network, the communication speed with the network is detected by the communication speed detecting unit, and the detected communication speed is lower than the first reference value by the CPU. At this time, information to be transferred later is stored in association with the edited file data, and when the detected communication speed is higher than the first reference value, the stored edited file data is transferred via the network. And transferring the data to the external storage device.
[0026]
BEST MODE FOR CARRYING OUT THE INVENTION
An embodiment of an information processing apparatus according to the present invention will be described below with reference to the drawings.
[0027]
FIG. 1 is a functional block diagram of an information processing apparatus according to an embodiment of the present invention. 1, the information processing apparatus 1 includes an input unit 10, a display unit 20, a communication unit 30, a storage device 40, a CPU 50, a data editing function unit 51, a display control unit 52, a transmission / reception data control unit 53, a communication speed detection unit 54, And a power source 60 (a battery when the information processing apparatus is a portable information processing apparatus), and the input unit 10 includes an operation key 11.
[0028]
The communication section 30 can be connected to a wireless LAN access point or the like, and FIG. 1 shows an example in which the communication section 30 is connected to the access point 2 wirelessly. A server 3 for storing data such as a document file is connected to the access point 2 via a network, and a transmission / reception data control unit 53 controls connection to the server 3 to transmit and receive data.
[0029]
The storage device 40 stores a reception data management area 41, a transmission data management area 42, a work area area 43, and a reference value used as a criterion for a transfer operation that can be set by a user. The reference value management area 44 is set.
[0030]
Here, the reference value is a communication speed reference value used to determine the communication speed at the time of data transfer, a transfer time reference value used to determine the time required to complete the transfer of all data, and the remaining value to be transferred. A reference value for the remaining data transfer time used for determining the time until the data transfer is completed is included.
[0031]
In addition, the display control unit 52 displays the received data on the display unit 20 and the information output from the CPU 50.
[0032]
Further, by operating the input unit 10, the received data is edited by the data editing function unit 51, the edited data is transferred to the server 3, and data to be stored is stored in the transmission data management area 42. The transmission / reception data control unit 53 can transfer the data stored in the server 3 to the server 3 via the access point 2 via the communication unit 30. Here, the server 3 updates the data transferred to itself by overwriting the original data.
[0033]
Further, the communication speed of data transmitted and received through the communication unit 30 is detected by the communication speed detection unit 54. Arrows in FIG. 1 indicate data transfer or control. A storage device 40 records a program and various data files for operating the device, and a work area 43 used for executing the program and performing data processing. Is provided. The CPU 50 recognizes each piece of information and stores or displays data in accordance with a key specified from the input unit 10.
[0034]
Next, the operation of the embodiment of the information processing apparatus according to the present invention will be described with reference to FIG. When opening a file existing in the server 3 which is an external storage device connected to the network, when a desired file is selected from a file group of the server 3, the desired file data is transmitted via the access point 2 and the communication unit 30. Then, the data is fetched into the reception data management area 41 of the storage device 40 and displayed on the display unit 20. At this time, address information and the like for specifying the server 3 and the file are also stored in the reception data management 41.
[0035]
After the file data being captured and displayed is edited by the data editing function unit 51 through the operation of the input unit 10 and stored in the transmission data management area 42 of the storage device 40, temporary data of a predetermined capacity or file data of a predetermined capacity is stored. And the communication speed when transferring data using the time required until the transfer of the data of the predetermined capacity is completed is detected by the communication speed detecting unit 54, and the data is further transferred from the communication speed of the transfer to the server 3. The CPU 50 calculates the transfer time until the transfer of all the necessary file data is completed.
[0036]
Then, the CPU 50 compares the detected communication speed and the calculated transfer time with the communication speed reference value and the transfer time reference value stored in the reference value management area 44, and immediately transfers the data to the server 3. Alternatively, information for identifying that data has not been transferred when the data is transferred to the server 3 later is stored in the transmission data management area 42 in association with the file data.
[0037]
At this time, address information and the like for specifying the server 3 and the file are also stored in the transmission data management area 42. At the time of data transfer, this information is also transmitted as part of the data, and the server 3 and the file are specified. . Therefore, the server 3 receiving the file data updates the original file by overwriting the received file data.
[0038]
If the data is to be transferred to the server 3 later, when a predetermined time has elapsed, or when reconnection to the network and reconnection to the server 3 or when a retransmission request is made from the input unit 10 during network connection, The CPU 50 detects a file that has not yet been transferred to the server 3 in the transmission data management area 42 by the identification signal, and if there is a file that has not been transferred, the server 50 deletes the server 3 and the file associated with the file data. The data is again transferred to the server 3 based on the address information for specifying.
[0039]
Here, when the transfer of the file data is completed, the data stored in the transmission data management area 42 is deleted.
[0040]
As address information for specifying, for example, the transmission data management area 42 includes, as file data to be transmitted, the address of the storage destination server, the path of the storage destination folder, and the server when the transfer to the server is interrupted during transfer. It is assumed that the position information and the like of the file data up to the portion where the transfer to file 3 has been completed are stored in association with each other. Here, the data to be deleted after the completion of the file data transfer to the server 3 is the corresponding file data in the transmission data management area 42 and the address information and the identification information stored in association with the file.
[0041]
In the above embodiment, whether to transfer immediately or later is determined based on the result of comparing the communication speed and the transfer time with the respective reference values. However, the present invention is not limited to this. The determination may be made using only the communication speed without using the time.
[0042]
According to the present embodiment, when data is fetched from a server or the like, and the edited data is transferred to the server and stored, the communication speed is detected and / or the transfer time required until the data transfer is completed is calculated. Efficient operation by transferring data immediately or later according to speed and / or transfer time, so that data is not transferred immediately when transfer time is long and data is transferred when transfer time is short Can be done.
[0043]
Further, according to the present embodiment, when the transfer of the file data is completed, the data stored in the transmission data management area 42 is deleted, so that an increase in the memory capacity can be prevented.
[0044]
Further, according to the present embodiment, since the transfer is performed when the transfer time is short, in the case of a portable information processing device driven by a battery, the operable time of the information processing device can be effectively used. .
[0045]
FIG. 2 shows a case where data received from the server 3 to the information processing apparatus 1 (hereinafter referred to as the terminal 1) is edited by the data editing function unit 51, and the data stored in the transmission data management area 42 is transferred to the server 3. It is a figure showing one flowchart. Here, the communication speed reference value for data transfer is W (kbps), and the transfer time reference value until all data transfer is completed is T (sec).
[0046]
By operating the input unit 10 of the terminal 1, software for receiving and editing data from the server 3 and saving the data is started (step 201), connected to the server 3 (step 202), and stored in the server 3. When a file to be edited is selected from a list of file data in the file (step 203), the file data corresponding to the selected file is transmitted from the server 3, the file data is opened on the terminal 1, and the data is edited by the data editing function unit 51. (Step 204).
[0047]
After that, when the file data is stored in the transmission data management 42 of the terminal 1, the data transfer processing to the server 3 is started (step 205), and temporary data of a predetermined capacity for communication speed detection is transferred to the server 3, The communication speed Wn (kbps) of the data transfer to the server 3 is detected based on the time taken from the start of the transfer of the temporary data of the predetermined capacity to the completion thereof (step 206).
Then, it is determined whether or not the communication speed of the data transfer is higher than the communication speed reference value W (step 207). When the data is later than the reference value W, information for identifying that data has not been transferred when the data is transferred to the server 3 again later is stored in the transmission data management area 42 of the terminal 1 in association with the file data ( Step 208).
[0048]
If it is faster than the reference value W in step 207, the transfer time until the transfer of all the data is calculated from the transfer communication speed Wn (kbps) and the amount of data to be transferred (for example, D (kbytes)) ( In this case, D / Wn (sec)) (step 209).
[0049]
Then, it is determined whether the transfer time until the transfer is completed is longer than the transfer time reference value T (sec) (step 210).
[0050]
When the transfer time until the transfer is completed is longer than the reference value T (sec), the information for transferring the data to the server 3 again later is associated with the data and stored in the transmission data management 42 of the terminal 1 (step). 208).
[0051]
If the transfer time until the transfer is completed is shorter than the reference value T (sec), the data is transferred to the server 3 and the data stored in the transmission data management 42 of the terminal 1 is deleted (step 211).
[0052]
In step 208, the data of the file to be transferred is stored in the transmission data management area 42 of the storage device 40 in association with the address of the server 3 of the storage destination and the path of the folder of the storage destination. Then, when a predetermined time has elapsed, when a transfer operation is performed from the input unit 10, or when communication with the network is resumed and the server 3 is reconnected, the transfer to the transmission data management area 42 has not yet been completed. If there is no file data, the processing is performed again from the communication speed detection processing in step 206 based on the address information and the like associated with the file data (step 212).
[0053]
In the above one flowchart, it is determined whether to transfer immediately or later based on the result of comparing the communication speed and the transfer time with the respective reference values, but the present invention is not limited to this, and the transfer time is not limited to this. The determination may be made by using only the communication speed without using.
[0054]
According to the one flowchart, when the communication speed of the data transfer is lower than the reference value W for the communication speed, the information for identifying that the data has not been transferred when the data is transferred to the server 3 again later is added to the file data. Since the data is stored in the transmission data management area 42 of the terminal 1 in association with each other, the problem that the function of the information processing apparatus is limited during transfer and the usability is deteriorated due to the long data transfer time is solved. be able to. Further, when the communication speed of the data transfer is higher than the communication speed reference value W, and when the transfer time required to complete the transfer of all data is shorter than the transfer time reference value T (sec), the data is transferred to the server 3. The transfer time can be shortened, and the usability and efficiency of the information processing apparatus are improved. Further, since the data that has been transferred to the server and stored is deleted, an increase in memory capacity can be prevented.
[0055]
FIG. 3 is a diagram showing another flowchart when the data received from the server to the information processing apparatus 1 (hereinafter referred to as the terminal 1) is edited, and the data stored in the transmission data management area 42 is transferred to the server 3. . The reference value for communication speed of data transfer is W (kbps), and the reference value for remaining data transfer time until transfer of all remaining data to be transferred is Tn (sec). Further, a capacity when data to be transferred to the server 3 is divided and transferred in a predetermined processing unit is defined as X (kbytes). For example, it is set to 32 (kbytes).
[0056]
By operating the input unit 10 of the terminal 1, software for receiving and editing data from the server 3 and saving the data is started (step 301), connected to the server 3 (step 302), and stored in the server 3. When a file to be edited is selected from a list of existing file data or the like (step 303), the file data corresponding to the selected file is transmitted from the server 3, the file data is opened on the terminal 1, and edited by the data editing function unit 51. (Step 304).
[0057]
Thereafter, when the file data is stored in the transmission data management 42 of the terminal 1, data transfer processing to the server 3 is started (step 305), and X (kbytes) of the file data is transferred to the server 3 (step 306). .
[0058]
Then, it is determined whether or not all the file data to be transferred to the server 3 has been transferred (step 307).
[0059]
When all the file data to be transferred to the server 3 has been transferred, the data stored in the transmission data management 42 of the terminal 1 is deleted (step 308).
[0060]
If the transfer of all data to be transferred to the server 3 has not been completed, the communication speed Wn of the data transfer to the server 3 is determined based on the time taken from the start of the transfer of X (kbytes) data to the completion thereof. (Kbps) is detected (step 309).
[0061]
Then, it is determined whether or not the data transfer communication speed is higher than the communication speed reference value W (step 310).
[0062]
If it is later than the reference value W, the information for identifying that the data has not been transferred when the remaining data is transferred to the server 3 again later is associated with the file data in the transmission data management area 42 of the terminal 1. It is stored (step 311).
[0063]
If the speed is faster than the reference value W, the remaining data transfer time until all the remaining data is completely transferred is calculated from the transfer communication speed Wn (kbps) and the remaining capacity of the data to be transferred (for example, Dn (kbytes)). (In this case, Dn / Wn (sec)) (step 312).
[0064]
Then, it is determined whether the remaining data transfer time until the transfer is completed is longer than the remaining data transfer time reference value Tn (sec) (step 313).
[0065]
If the remaining data transfer time until the completion of writing is longer than the reference value Tn (sec), information for transferring the data to the server 3 later is stored in the transmission data management area 42 of the terminal 1 in association with the data. (Step 311).
[0066]
If the remaining data transfer time until the transfer is completed is shorter than the reference value Tn (sec), the process returns to step 306 of transferring X (kbytes) of file data to the server 3.
[0067]
In step 311, the data of the file to be transferred includes the address of the server 3 of the storage destination, the path of the folder of the storage destination, and the part up to the completion of the transfer to the server 3 when the transfer to the server 3 was interrupted during the transfer. The location information of the file data is stored in the transmission data management area 42 of the storage device 40 in association with each other.
[0068]
Then, when a predetermined time has elapsed, when a transfer operation is performed from the input unit 10, or when communication with the network is resumed and reconnected to the server 3, transfer to the transmission data management 42 has not been completed yet. If the transfer is interrupted based on the address information and the like associated with the file data if the file data exists, the following data is stored based on the position information stored in the transmission data management 42. The process is performed again from the step 310 (step 314).
[0069]
Here, the reference value Tn of the remaining data transfer time is a fixed value set in advance, but may be changed based on the remaining data capacity of the file data to be transferred. For example, the reference value Tn and the remaining data capacity may be in a proportional relationship, and when the remaining data capacity is reduced to half, the reference value Tn may be changed to half the time.
[0070]
In the other flowcharts described above, it is determined whether to transfer immediately or later based on the result of comparing the communication speed and the transfer time with the respective reference values. However, the present invention is not limited to this. The determination may be made using only the communication speed without using the time.
[0071]
According to the above other flowchart, the data to be transferred to the server 3 is divided and transferred in predetermined processing units, the communication speed is detected for each transfer, and the transfer is interrupted if the communication speed becomes lower during the transfer. Therefore, usability and efficiency are improved. Even when the transfer is interrupted, the remaining data can be transferred when the communication speed is increased, so that the efficiency is improved.
[0072]
Also in the present embodiment, when the transfer of the file data is completed, the data stored in the transmission data management area 42 is deleted, so that an increase in the memory capacity can be prevented.
[0073]
FIG. 4 shows a display screen 21 of the display unit 20 of FIG. 1 for determining whether to transfer file data to be transferred to the server 3 via the network immediately to the server 3 or later to the server 3. It is an example of a screen for setting a communication speed reference value W as a reference for comparison and a transfer time reference value T or a remaining data transfer time reference value Tn until transfer is completed.
[0074]
On the display screen 21, the communication speed reference value W is displayed in a column 22, and can be changed by inputting a numerical value whose unit is (kbps). The transfer time reference value T or the remaining data transfer time reference value Tn is displayed in the column 23. When "↓" 24 is selected, a selection menu 25 is displayed, and a value from 30 seconds to 15 minutes is further selected. be able to. When the “setting” 26 is selected, the above value is stored in the reference value management area 44 of the storage device 40. If "cancel" 27 is selected, the above value does not change the value stored in the reference value management area 44. In the example of FIG. 4, the values stored as the initial values in the reference value management area 44 are the communication speed reference value of 100 (kbps) and the write time reference value of 3 minutes.
[0075]
According to this display screen, the user can set the communication speed reference value W, or the communication speed reference value and the transfer time reference value T or the remaining data transfer time reference value Tn to a value appropriate for the user. Because it is possible, usability is improved.
[0076]
【The invention's effect】
ADVANTAGE OF THE INVENTION According to this invention, the information processing apparatus which performs data processing efficiently can be obtained.
[Brief description of the drawings]
FIG. 1 is a functional block diagram of an embodiment of an information processing apparatus according to the present invention.
FIG. 2 is a diagram showing a flowchart when transferring data that is edited and stored from a server to an information processing apparatus and transferred to the server.
FIG. 3 is a diagram illustrating another flowchart when data edited and stored from the server to the information processing apparatus is transferred to the server;
FIG. 4 is a display screen of the display unit in FIG. 1, which is an example of a screen for setting a reference value of a communication speed and a transfer time until transfer is completed.
[Explanation of symbols]
1: information processing device, 2: access point, 3: server, 10: input unit, 11: operation key, 20: display unit, 21: display screen, 22, 23: column, 24: ↓, 25: selection menu, 26: setting, 27: cancel, 30: communication unit, 40: storage device, 41: reception data management area, 42: transmission data management area, 43: work area, 44: reference value management area, 50: CPU , 51: data editing function unit, 52: display control unit, 53: transmission / reception data control unit, 54: communication speed detection unit, 60: power supply.

Claims (13)

After fetching file data of an external storage device connected to a network, editing and saving the fetched file data, and transferring the saved edited file data to the external storage device via the network, the network If the detected communication speed is lower than the first reference value, information to be transferred later is stored in association with the edited file data, and the detected communication speed is equal to the first communication speed. An information processing device for transferring the edited and saved file data to the external storage device via the network when the speed is faster than the reference value. After fetching file data of an external storage device connected to a network, editing and saving the fetched file data, and transferring the saved edited file data to the external storage device via the network, the network If the detected communication speed is faster than the first reference value, the transfer time until the transfer of the edited file data is completed is calculated, and the calculated transfer time is calculated as the second transfer time. When the communication speed is shorter than the reference value and / or the detected communication speed is lower than the first reference value, information for later transfer is stored in association with the edited file data, and the calculated transfer time is stored. When the length is longer than the second reference value, the stored edited file data is transferred to the external storage device via the network. Processing apparatus. 3. The information processing apparatus according to claim 1, wherein information to be transferred later is stored in association with the edited file data, and when a predetermined time has elapsed, when a transfer operation has been performed, or communication to a network has been performed. Is resumed and reconnected to the external storage device, the communication speed is detected and / or the transfer time is calculated based on the information for transfer, and the communication speed is faster than the first reference value and / or the transfer time is calculated. An information processing apparatus for transferring the edited and saved file data to the external storage device via a network when is shorter than the second reference value. 4. The information processing apparatus according to claim 1, wherein the communication speed is determined based on a time required for transferring the temporary data having a predetermined capacity and transferring the temporary data. 4. The information processing apparatus according to claim 1, wherein the communication speed is such that a predetermined amount of file data among the saved and edited file data is transferred, and the communication speed is detected based on a time required for the transfer. And the detected communication speed is higher than the first reference value and / or the remaining data transfer time required to transfer the remaining data of the edited file data to be transferred is shorter than the third reference value. In some cases, the remaining data is transferred from the edited file data to the external storage device via a network. 6. The information processing apparatus according to claim 5, wherein when the detected communication speed is lower than the first reference value and / or when the calculated remaining data transfer time is longer than the third reference value, data is later transmitted. The information for transferring is stored when the predetermined time has elapsed, when a transfer operation is performed, or when communication to the network is resumed and the external storage device is reconnected. Detecting the communication speed and calculating the remaining data transfer time on the basis of the above, if the communication speed is faster than the first reference value and / or the remaining data transfer time is shorter than the third reference value, transfer from the continuation of the transferred data An information processing apparatus characterized by performing: 7. The information processing apparatus according to claim 5, wherein the third reference value changes based on the remaining data capacity of the file data to be transferred. 7. The information processing apparatus according to claim 1, wherein the stored edited file data or the remaining data is transferred to the external storage device via the network. Deletes the saved file data after editing or the remaining data. 5. The information processing apparatus according to claim 1, wherein the stored edited file data is immediately transferred to the external storage device, or the data is transferred to the external storage device later. The information processing apparatus according to claim 1, wherein the first and second reference values for determining whether to perform the transfer can be set by an operation from an input unit. 8. The information processing apparatus according to claim 5, wherein the stored edited file data is continuously transferred to the external storage device, or is later transferred to the external storage device. The information processing apparatus according to claim 1, wherein the first and third reference values for determining whether to perform data transfer can be set by an operation from an input unit. The information processing apparatus according to any one of claims 1 to 10, wherein the external storage device connected to the network can be an access point wirelessly and is portable. Information processing device. The information processing apparatus according to any one of claims 1 to 11, wherein a power supply is a battery and a portable type. The file data of the external storage device connected to the network is fetched by the communication unit, the fetched file data is edited by the editing function unit and saved in the storage device, and the saved edited file data is stored in the external storage via the network. When transferring to the device, the communication speed with the network is detected by a communication speed detecting unit, and when the detected communication speed is lower than the first reference value, information to be transferred later is edited by the CPU. When the detected communication speed is higher than the first reference value, the stored edited file data is transferred to the external storage device via the network. Information processing device.

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