JP2004304324A - Data transmission system, terminal equipment and program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a technique by which data transmission between terminal equipment having a plurality of communication interfaces is always efficiently done. <P>SOLUTION: A host PC (Personal Computer) 3 of (1) to (3) uses one communication I/F (Interface) connected to an MFP (Multi Function Peripheral) 5, transmits a selection request signal to the MFP 5, and receives, through the same communication I/F, a selection permission signal from the MFP 5. (4) The host transmits the same measuring data by using all the communication I/Fs connected to the MFP 5 to the MFP 5. (5) and (6) Upon receiving the measuring data, the MPF 5 measures a transmission time for the measuring data in each of the communication I/Fs 5 and transmits, through the communication I/F used for transmitting the selection permission signal, time data indicative of the result to the host PC 3. (7) and (8) The host PC 3 decides the communication I/F having the shortest transmission time from received time data as the communication I/F used for transmitting printing data and transmits the printing data by using the communication I/F used for transmitting the printing data. <P>COPYRIGHT: (C)2005,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention includes a first terminal device and a second terminal device connected to each other via a plurality of communication interfaces provided therein, and from the first terminal device to the second terminal device via the communication interface. The present invention relates to a data transmission system for transmitting data, and a technology related to the data transmission system.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, a network printer generally includes a plurality of communication interfaces such as a wired LAN, a wireless LAN, a USB (Universal Serial Bus), and Centronics, and a one-to-one connection or a network connection to a host computer via these communication interfaces. Is done. When the host computer issues a print command to the network printer, data from the host computer is transmitted to the network printer via a communication interface set by default in the host computer or a communication interface specified by the user. .
[0003]
Some of these network printers have been developed to enable connection of a host computer for each communication interface (for example, see Patent Document 1).
[0004]
[Patent Document 1]
JP-A-6-305204 (paragraphs [0023] to [0107], FIGS. 2 to 4)
[0005]
[Problems to be solved by the invention]
By the way, in any of the above-mentioned network printers, the communication interface is specified with reference to the transmission speed in the standard, and usually the communication interface having the largest maximum speed is specified. However, when transmitting data from the host computer to the network printer, the data transmission speed is affected by data communication traffic by other terminal devices and peripheral devices connected to the communication interface.
In other words, if the specified communication interface cannot transmit data at the maximum speed even when the data transmission is performed by specifying the communication interface using the conventional method, the communication interface is warped more than the other communication interfaces having the lower maximum speed. In some cases, data transmission takes time.
[0006]
Therefore, an object of the present invention is to provide a technology capable of constantly and efficiently transmitting data between terminal devices having a plurality of communication interfaces.
[0007]
Means for Solving the Problems and Effects of the Invention
In order to achieve the above object, the invention according to claim 1 includes a first terminal device and a second terminal device connected to each other via a plurality of communication interfaces provided therein, and the communication device includes a first terminal device and a second terminal device. A data transmission system for transmitting data from a first terminal device to a second terminal device by using a plurality of communication interfaces to transfer preset measurement data from the first terminal device to the second terminal device. To the communication interface, and measures the measurement data transmission time required for transmission of the measurement data in each communication interface, and selects a communication interface to be used for data transmission from the plurality of communication interfaces based on the measurement result. It is characterized by the following.
[0008]
In this data transmission system, the first terminal device transmits preset measurement data to the second terminal device via a plurality of communication interfaces, while the second terminal device performs measurement at each communication interface. The measurement data transmission time required for transmitting the application data is measured. Then, based on the measurement result of the second terminal device, the first terminal device or the second terminal device selects a communication interface used for data transmission from the plurality of communication interfaces.
[0009]
Therefore, according to the data transmission system of the present invention, the first terminal device or the second terminal device is set so that the communication interface having the shortest measurement data transmission time is selected as the communication interface used for data transmission. Thereby, data can be transmitted efficiently.
[0010]
However, the “measurement result” may be data indicating the measurement data transmission time at each communication interface, or data indicating which communication interface has the shortest measurement data transmission time. There may be. Also, data indicating the result of comparing the measurement data transmission times of the respective communication interfaces with each other (for example, data indicating a difference between the measurement data transmission times and data indicating the short or long order of the measurement data transmission times). There may be.
[0011]
Further, the transmission of the measurement data may be performed prior to the transmission of the data when transmitting the data as described in claim 2, or may be performed periodically as described in claim 3. May be. When the measurement data transmission is performed periodically, the measurement data transmission time in each communication interface is measured in advance before the data transmission request is issued, and the data transmission is performed based on the measurement result. The communication interface to be used can be selected. Then, upon receiving a data transmission request, it is possible to immediately start data transmission.
[0012]
By the way, if it takes a lot of time to transmit data, even if the selected communication interface is optimal for efficient data transmission at the beginning of data transmission, other communication interfaces will gradually transmit data There may be cases where it is optimal to do so.
[0013]
Therefore, the data transmission system, if the data transmission continues even if the elapsed time from the start of data transmission reaches a preset upper limit value, or If the data transmission continues even if the data transmission amount reaches the preset upper limit, the data for measurement is transmitted, and the data transmission is performed based on the measurement result of the data transmission time for measurement. It is preferable to select the communication interface to be used again.
[0014]
In any of the above data transmission systems, the data to be transmitted to the second terminal device may be used as measurement data.
In this case, since the communication interface can be selected while transmitting the data to be transmitted to the second terminal device, the data is transmitted to the second terminal device more than when the dedicated measurement data is transmitted and the communication interface is selected. Can be transmitted quickly.
[0015]
By the way, in the above data transmission system, for example, a host computer may be used as the first terminal device and a printer or a facsimile may be used as the second terminal device. Further, a scanner or a facsimile may be used as the first terminal device and a host computer may be used as the second terminal device.
[0016]
Next, an eighth aspect of the present invention is a terminal device having a plurality of communication interfaces and receiving data transmitted from an external device via the communication interface, wherein the terminal device has a preset measuring device. Measuring means for measuring, for each communication interface, a measurement data transmission time required for data to be transmitted to a plurality of communication interfaces, and a result transmission for transmitting a measurement result of the measuring means to an external device via the communication interface Means.
[0017]
In this terminal device, the measuring means measures the data transmission time for measurement for each communication interface, and the result transmitting means transmits the measurement result of the measuring means to the external device via the communication interface.
That is, according to the terminal device of the present invention, the external device can grasp which communication interface should be selected based on the measurement result. Therefore, if the external device is set so as to select the communication interface with the shortest measurement data transmission time, the external device is used as the first terminal device in the data transmission system, and the terminal device of the present invention is used as the second terminal device Can be suitably used.
[0018]
Next, according to a ninth aspect of the present invention, there is provided a terminal device having a plurality of communication interfaces for receiving data transmitted from an external device via the communication interface, wherein the terminal device is provided with a measuring device set in advance from the external device. Measuring means for measuring the data transmission time for measurement required for data to be transmitted to the plurality of communication interfaces for each communication interface; and, based on the measurement result of the measuring means, data from the plurality of communication interfaces. Selecting means for selecting a communication interface to be used for transmission.
[0019]
In this terminal device, the measuring means measures the data transmission time for measurement for each communication interface, and the selecting means selects the communication used for data transmission from the plurality of communication interfaces based on the measurement result of the measuring means. Select an interface.
[0020]
That is, if the selection means is set so as to select the communication interface with the shortest measurement data transmission time, the terminal device of the present invention can be suitably used as the second terminal device in the data transmission system.
Next, a tenth aspect of the present invention is a terminal device that includes a plurality of communication interfaces and transmits data to an external device via the communication interface, and transmits preset measurement data to the plurality of communication interfaces. Measurement data transmission means for transmitting to the external device via the communication device, and measurement results of measurement data transmission time required for transmission of measurement data at each communication interface measured by the external device transmitted from the external device via the communication interface Receiving means for selecting a communication interface to be used for data transmission from the plurality of communication interfaces based on the measurement result.
[0021]
In this terminal device, the measurement data transmitting means transmits the measurement data to the external device via the plurality of communication interfaces. Then, the selection means receives a measurement result of the measurement data transmission time in each communication interface from the external device via the communication interface, and, based on the measurement result, a communication interface used for data transmission from among the plurality of communication interfaces. Select
[0022]
That is, if the selection means is set so as to select the communication interface with the shortest measurement data transmission time, the terminal device of the present invention can be suitably used as the first terminal device in the data transmission system.
Here, the terminal device according to claim 10 includes recognition means for recognizing a communication interface connected to an external device, and the measurement data transmission unit is provided in the terminal device. It is preferable that the measurement data is transmitted only to the communication interface that is recognized as being connected to the external device by the recognition unit among the communication interfaces.
[0023]
According to the terminal device configured as described above, it is possible to prevent the measurement data transmission unit from transmitting measurement data to a communication interface that is not connected to an external device.
In the terminal device according to the tenth or eleventh aspect, when the terminal device transmits the data, the measurement data transmitting means may perform the measurement data transmission prior to the transmission of the data. The data may be transmitted, or the data may be transmitted periodically. When the measurement data is transmitted periodically, the terminal device measures the measurement data transmission time in each communication interface before the data transmission request, similarly to the third aspect of the invention. The communication interface used for data transmission can be selected based on the measurement result. Then, upon receiving a data transmission request, it is possible to immediately start data transmission.
[0024]
In this case, the terminal device may include a period changing unit that changes a period at which the measurement data transmitting unit transmits the measurement data.
If the terminal device is configured as described above, it is possible to optimally adjust the cycle of transmitting the measurement data in accordance with the data transmission timing.
[0025]
The terminal device according to any one of the ninth to fourteenth aspects is configured such that the operation permission means for setting whether or not the operation of the selection means is permitted, and the selection means by the operation permission means. If the operation is set to be not permitted, an interface designating means for deciding to use a communication interface designated in advance for data transmission may be provided.
[0026]
In this case, data can be transmitted using an external device or a communication interface specified by a user.
Here, when the terminal device according to any one of claims 9 to 15 includes a notification device that notifies a user of information, a communication interface used for data transmission is set as the notification device as described in claim 16. It is preferable to provide a first notifying unit for notifying the user via.
[0027]
That is, the user can be notified which communication interface is to be used for data transmission.
In a case where the terminal device according to any one of claims 8 to 15 includes a notification device that notifies a user of information, there is a communication interface that is not connected to an external device as described in claim 17. In such a case, it is preferable to provide a second notification unit that notifies the user of the fact via a notification device.
[0028]
In this case, it is possible to notify the user that there is a communication interface that is not connected to the external device, and to prompt connection if necessary.
The invention according to claim 18 is a program that causes a computer to function as the first terminal device or the second terminal device in the data transmission system according to any one of claims 1 to 5.
[0029]
That is, the computer that executes this program functions as the first terminal device or the second terminal device in the data transmission system according to any one of claims 1 to 5.
The invention according to claim 19 is a program for causing a computer to function as at least one of the means in the terminal device according to any one of claims 8 to 17.
[0030]
That is, the computer that executes the program functions as a part of the terminal device according to any one of claims 8 to 17. That is, the terminal device can obtain the same effect as the terminal device according to any one of claims 8 to 17 by using a computer that executes the program as a part of the configuration.
[0031]
The invention according to claim 20 is a program for causing a computer to function as the terminal device according to any one of claims 8 to 17.
That is, since the computer that executes this program functions as the terminal device according to any one of claims 8 to 17, it is possible to obtain the same effects as those of the terminal device according to any one of claims 8 to 17. .
[0032]
Note that these programs are recorded on a computer-readable recording medium such as a flexible disk (FD), an optical disk (MO), a DVD, a CD-ROM, a hard disk, and a memory card, and are loaded from the recording medium to the computer. It may be used. In addition, the program may be recorded in a ROM or a backup RAM incorporated in the computer, and may be used by being loaded into the computer from the ROM or the backup RAM, or may be used by being loaded into the computer via a network.
[0033]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[First Embodiment]
First, FIG. 1 is a schematic diagram of a data transmission system 1 according to the present embodiment.
[0034]
As shown in FIG. 1, a data transmission system 1 includes a host computer (hereinafter, referred to as a “host PC”) 3 according to the present invention and a multifunction peripheral having a printer function, a scanner function, and a facsimile function according to the present invention. And a multifunction peripheral (hereinafter, referred to as “MFP”) 5.
[0035]
Note that the host PC 3 and the MFP 5 are connected to each other via four communication interfaces (hereinafter, referred to as “communication I / Fs”) provided therein, and perform bidirectional data communication via these communication I / Fs. .
However, among these communication I / Fs, the communication I / Fs 310 and 510 each include a wired LAN, and are connected to each other via a wired network including a plurality of terminal devices 11. Further, the communication I / Fs 330 and 530 each include a wireless LAN and are connected to each other via a wireless network configured by a plurality of terminal devices 11. The communication I / Fs 350 and 550 are respectively made of Centronics and are connected to each other on a one-to-one basis. The communication I / Fs 370 and 570 are each made of USB and are connected to each other via two USB hubs 15 to which a plurality of peripheral devices 13 are connected.
[0036]
Next, FIG. 2 is a block diagram showing the internal configuration of the host PC 3 and the MFP 5.
As shown in FIG. 2, the MFP 5 includes, in addition to the above-described four communication I / Fs 510, 530, 550, and 570, a CPU 51 that performs overall control of each unit of the MFP 5, and a ROM 52 that stores programs for various processes performed by the CPU 51. And a RAM 53 for temporarily storing data used when the CPU 51 performs various processes.
[0037]
Note that the header portion of the data transmitted from the host PC 3 to the MFP 5 includes an identification code indicating the type of data. Each of the communication I / Fs of the MFP 5 is configured to detect an identification code of measurement data, which is one of data transmitted from the host PC 3, and at a timing when the identification code is detected, A reception start notification indicating that reception of the measurement data has started is transmitted to the CPU 51 via a path (not shown). An end code indicating the end of the measurement data is inserted at the end of the measurement data, and the communication I / F of the MFP 5 is configured to detect this end code. Then, at the timing when this end code is detected, a reception end notification indicating that the reception of the measurement data has ended is transmitted to the CPU 51 via a path (not shown).
[0038]
The MFP 5 includes a print control unit 54 that controls a printing mechanism that prints on paper stored in the MFP 5, a reading control unit 55 that reads a document, a photograph, or the like captured by the MFP 5 as image data; A modem 56 that mediates communication between the telephone line and the MFP 5 is provided, and these components realize a printer function, a scanner function, and a facsimile function. Note that the components of the MFP 5 exchange data with each other via the data bus 57.
[0039]
On the other hand, in addition to the above-described four communication I / Fs 310, 330, 350, and 370, the host PC 3 includes a CPU 31 that integrally controls each unit of the host PC 3, a ROM 32 that stores programs for various processes performed by the CPU 31, Has a RAM 33 for temporarily storing data used when performing various processes. These components exchange data with each other via the data bus 37.
[0040]
By the way, the CPU 31 transmits data to the host PC 3 in response to a request from a user input to the CPU 31 via a keyboard (not shown) or a mouse (not shown) connected to the host PC 3. A setting screen showing the setting contents of each communication I / F is displayed on a display (not shown) connected to the host PC 3.
[0041]
Here, as shown in FIG. 3, the setting screen 20 includes a communication I / F selection unit 21 for a user to select and set a communication I / F used for data transmission, and a communication I / F selection unit 21 used for data transmission. A selection mode setting unit 22 is provided for the user to set ON / OFF of an automatic selection mode for causing the CPU 31 to select a communication I / F.
[0042]
Note that a GUI (Graphical User Interface) is used for the setting screen 20, and a circular frame on the left of each item displayed on the setting screen 20 can be simply clicked with a mouse connected to the host PC 3. , The communication I / F to be used can be switched, and ON / OFF of the automatic selection mode can be set. In the communication I / F selection section 21 of the setting screen 20, a display section 211 for displaying a data transmission speed in each communication I / F is formed corresponding to each communication I / F. The communication I / F used for data transmission can be selected with reference to the displayed transmission speed. At the bottom of the setting screen 20, a setting button 23 marked "Setting" is formed using a GUI, and various settings can be confirmed by simply clicking the setting button 23.
[0043]
When recognizing that the setting button 23 has been clicked, the CPU 31 reads the setting contents set on the setting screen 20 and transmits data according to the read setting contents.
Further, the CPU 31 is configured to recognize whether each communication I / F is connected to an external device (here, the MFP 5). If any of the communication I / Fs 310, 330, 350, and 370 is not connected to an external device, the display unit 211 that displays the transmission speed of the corresponding communication I / F displays, for example, “not connected”. And notifies the user that there is an unconnected communication I / F.
[0044]
Hereinafter, the flow of processing performed by the CPU 31 of the host PC 3 and the CPU 51 of the MFP 5 when performing data communication between the host PC 3 and the MFP 5 will be described.
FIG. 4 is a flowchart showing a flow of a print data transmission process performed by the CPU 31 of the host PC 3 when the host PC 3 transmits print data to the MFP 5.
[0045]
As shown in FIG. 4, when receiving a print request from a user via a keyboard or a mouse connected to the host PC 3, the CPU 31 starts this processing. First, each communication I / F of the host PC 3 is transmitted to the MFP 5. The connection state of the connection is confirmed (S10). Subsequently, the setting screen 20 is displayed on the display (S15), and the process waits until the setting button 23 of the setting screen 20 is recognized to be clicked (S20). At this time, the CPU 31 displays “not connected” on the display unit 211 corresponding to the communication I / F not connected to the MFP 5, while displaying the display unit corresponding to the communication I / F connected to the MFP 5. Nothing is displayed in 211.
[0046]
Then, when recognizing that the setting button 23 has been clicked, the setting contents set on the setting screen 20 are read (S25), and it is confirmed whether or not the automatic selection mode is set to ON (S30). If the communication I / F is set to ON, the communication I / F having the highest standard speed among the communication I / Fs connected to the MFP 5 is used to select the communication I / F. A selection request signal to be requested is transmitted to MFP 5 (S35), and the process waits until a selection permission signal for permitting selection of the communication I / F is received from MFP 5 (S40).
[0047]
When receiving the selection permission signal from the MFP 5, the CPU 31 transmits the same measurement data to the MFP 5 using all the communication I / Fs connected to the MFP 5 (S45), and the communication I / Fs connected to the MFP 5 are transmitted. The process waits until time data indicating the transmission time of the measurement data in F is received from the MFP 5 (S50). This selection permission signal is received via the communication I / F used for transmitting the selection request signal.
[0048]
Upon receiving the time data from the MFP 5, the CPU 31 refers to the received time data and determines the communication I / F having the shortest transmission time as the communication I / F used for transmitting the print data (S55). At this time, the CPU 31 displays a black point in a circular frame on the left side of the item indicating the communication I / F used for transmitting the print data in the communication I / F selection unit 21 of the setting screen 20, It indicates to the user which communication I / F has been selected. At the same time, the transmission speed of each communication I / F connected to the MFP 5 is calculated from the received time data, and the calculation result is displayed on the corresponding display unit 211.
[0049]
Then, after activating the transmission execution processing set separately from this processing (S60), the setting screen 20 is deleted from the display (S95), and this processing ends. In the transmission execution processing, the print data is transmitted to the MFP 5 using the communication I / F determined in S55.
[0050]
If the automatic selection mode is set to OFF in S30, the CPU 31 immediately shifts the processing to S60 to S80, and ends the processing. However, in this case, in S60, the print data is transmitted to the MFP 5 using the communication I / F selected by the user.
[0051]
Next, FIG. 5 is a flowchart illustrating a flow of a communication I / F selection process performed by the CPU 51 of the MFP 5 when the MFP 5 receives a selection request signal from the host PC 3.
As shown in FIG. 5, when the CPU 51 receives the selection request signal from the host PC 3, the CPU 51 starts this processing, and first receives data from an external device other than the host PC 3 via one of the communication I / Fs of the MFP 5. It is confirmed whether or not reception is being performed (S100). If the data is being received, the process waits until the data reception is completed.
[0052]
Then, when it is confirmed that no data has been received, a selection permission signal is transmitted to the host PC 3 using the communication I / F that has received the selection request signal (S110). When the transmission of the selection permission signal ends, the CPU 51 immediately starts a measurement process set separately from the present process (S120), and waits until the measurement process ends (S130).
[0053]
Note that this measurement process includes tasks prepared in correspondence with the communication I / F of the MFP 5. Then, each task performs an up-count based on the clock signal supplied to the CPU 51 from when the CPU 51 receives the reception start notification to when the CPU 51 receives the reception end notification from the corresponding communication I / F. The processing consists of making the count value the result of the measurement processing.
[0054]
When the measurement processing is completed, the CPU 51 calculates the transmission time of the measurement data in all the communication I / Fs connected to the host PC 3 based on the count value obtained by the measurement processing, and generates the above-described time data. (S140). Then, the time data is transmitted to the host PC 3 using the communication I / F to which the selection request signal has been transmitted (S150), and the reception of the print data transmitted through any of the communication I / Fs is completed. Then, the process waits (S160). At this time, the CPU 51 sequentially stores the received print data in the RAM 53.
[0055]
When the reception of the print data is completed, the CPU 51 starts a print process set separately from the present process (S170), and ends the present process. In the printing process, the print data in the RAM 53 is read by the print control unit 54, and printing is executed based on the read print data.
[0056]
By the way, when the print data is transmitted from the beginning instead of the selection request signal from the host PC 3 to the MFP 5, the CPU 51 immediately starts the above-described print processing.
In the data transmission system 1 of the present embodiment as described above, as shown in FIG. 6, when the automatic selection mode is set to ON, first, the host PC 3 establishes a standard among the communication I / Fs connected to the MFP 5. A selection request signal is transmitted to the MFP 5 using the one having the highest maximum speed (1). After receiving the selection request signal, the MFP 5 confirms that data has not been received from an external device other than the host PC 3 ((2)), and then via the communication I / F to which the selection request signal has been transmitted. A selection permission signal is transmitted to the host PC 3 ((3)). When receiving the selection permission signal, the host PC 3 transmits the same measurement data to the MFP 5 using all communication I / Fs connected to the MFP 5 ([4]). Upon receiving the measurement data, the MFP 5 measures the transmission time of the measurement data in each communication I / F ((5)), and uses the measurement result time data as the communication I / F used to transmit the selection permission signal. The data is transmitted to the host PC 3 via F ([6]). Then, the host PC 3 determines the communication I / F having the shortest transmission time from the received time data as the communication I / F used for transmitting the print data ((7)), and uses this communication I / F. Then, the print data is transmitted to the MFP 5 ([8]). When the reception of the print data is completed, the MFP 5 executes printing based on the print data ([9]).
[0057]
As described above, according to the data transmission system 1 of the present embodiment, by turning on the automatic selection mode of the host PC 3, the host PC 3 transmits print data using the communication I / F with the shortest transmission time. The print data can be efficiently transmitted from the host PC 3 to the MFP 5.
[0058]
Further, the CPU 31 of the host PC 3 recognizes the communication I / F connected to the MFP 5 and transmits measurement data only to the communication I / F connected to the MFP 5, so that the communication I / F not connected to the MFP 5 is connected. / F can be prevented from being transmitted.
[0059]
In the host PC 3, since the automatic selection mode can be set to ON / OFF on the setting screen 20, if the automatic selection mode is set to OFF, the print data can be transmitted to the MFP 5 using the communication I / F specified by the user. .
When transmitting the print data, the host PC 3 displays the setting screen 20 on the display, so that the user can know which communication I / F is used to transmit the print data.
[0060]
In addition, when there is a communication I / F that is not connected to the MFP 5, the host PC 3 displays that fact on the setting screen 20, so that the user can be prompted to connect.
In the present embodiment, S120 to S150 in the communication I / F selection processing performed by the CPU 51 of the MFP 5 correspond to the measuring means, and S160 corresponds to the result transmitting means. In addition, S45 in the print data transmission process performed by the CPU 31 of the host PC 3 corresponds to a measurement data transmission unit according to claim 12, and S55 corresponds to a selection unit according to claim 10.
[0061]
Further, S10 in the print data transmission process performed by the CPU 31 of the host PC 3 corresponds to the recognition means according to claim 11, and the selection mode setting section 22 of the setting screen 20 corresponds to the operation permission means according to claim 15, and the host PC 3 Steps S30 and S60 in the print data transmission process performed by the CPU 31 correspond to the interface designating means. Further, the setting screen 20 corresponds to a first notifying means according to claim 16 and a second notifying means according to claim 17.
[0062]
By the way, in the present embodiment, the host PC 3 transmits the measurement data different from the print data in order to cause the MFP 5 to measure the data transmission time in each communication I / F. It may be divided into long segments, and the divided segments may be inserted into the measurement data and transmitted to the MFP 5.
[0063]
In this case, the CPU 31 of the host PC 3 may transmit measurement data in which the same segment is inserted to all communication I / Fs connected to the MFP 5, or may use different segments for each communication I / F. May be transmitted.
However, when the host PC 3 uses measurement data into which the same divided data has been inserted, the CPU 51 of the MFP 5 may store one of the received measurement data in the RAM 53 as print data. On the other hand, when the host PC 3 uses measurement data into which different divided data has been inserted, the CPU 51 of the MFP 5 may store all the received measurement data in the RAM 53 as print data.
[0064]
If the host PC 3 and the MFP 5 are set in this manner, the measurement of the transmission time of the measurement data in each communication I / F and the transmission of the print data can be performed in parallel, so that the host PC 3 can be more quickly operated than in the present embodiment. Can transmit print data to the MFP 5.
In the present embodiment, the host PC 3 determines the communication I / F to be used for transmitting the print data. On the contrary, the MFP 5 determines the communication I / F to be used for transmitting the print data. Is also good.
[0065]
In this case, the CPU 51 of the MFP 5 selects the communication I / F with the shortest transmission time with reference to the generated time data, and further uses the selected communication I / F for the CPU 31 of the host PC 3. What is necessary is just to instruct to transmit the print data. Here, the CPU 51 of the MFP 5 may indicate to the CPU 31 of the host PC 3 the communication I / F to be used, for example, or may prohibit the use of communication I / Fs other than the communication I / F to be used. .
[0066]
On the other hand, the CPU 31 of the host PC 3 may transmit the print data using the communication I / F instructed by the CPU 51 of the MFP 5.
Further, in the present embodiment, the host PC 3 transmits the measurement data to the MFP 5 when receiving the print request from the user, but the measurement data may be transmitted to the MFP 5 periodically. In this case, the CPU 51 of the MFP 5 may transmit the time data to the host PC 3 every time the time data is generated, or may temporarily store the generated time data in the RAM 53 and receive a selection request signal from the host PC 3. In this case, the information may be read from the RAM 53 and transmitted to the host PC 3. However, when storing the time data in the RAM 53, the generated time data may be stored in the same area, and the time data in the RAM 53 may be updated.
[0067]
According to the host PC 3 and the MFP 5 set as described above, when the host PC 3 receives a print request from the user, the host PC 3 immediately prints based on the time data obtained by periodically transmitting the measurement data. You can start sending data.
[0068]
In this case, for example, as shown in FIG. 10, the selection mode setting section 22 of the setting screen 20 is provided with a cycle setting section 221 for setting a cycle for transmitting the measurement data, and the CPU 31 of the host PC 3 is accordingly operated. Can transmit the measurement data at an arbitrary cycle according to the situation.
[Second embodiment]
Next, a second embodiment will be described.
[0069]
This embodiment is the same as the first embodiment except that the flow of processing performed by the CPU 31 of the host PC 3 and the CPU 51 of the MFP 5 in the data transmission system 1 of the first embodiment is partially different. Therefore, only the flow of these processes will be described here. However, the same steps as those in the first embodiment are denoted by the same reference numerals, and description thereof is omitted.
[0070]
First, FIG. 7 is a flowchart illustrating a flow of a print data transmission process performed by the CPU 31 of the host PC 3 in the present embodiment.
As shown in FIG. 7, when a CPU 31 receives a print request from a user via a keyboard or a mouse connected to the host PC 3, the CPU 31 starts this processing, and executes S10 as in the print data transmission processing of the first embodiment. To S60. However, if the automatic selection mode is set to OFF in S30, the transmission execution process is immediately started (S90), and the process of S95 is performed, followed by terminating the present process.
[0071]
When the execution of S60 ends, the CPU 31 immediately starts counting up based on the clock signal supplied to the CPU 31 (S65). Then, it is determined whether or not the count value by the up-count (that is, the time elapsed since the start of the transmission of the print data) has reached a preset upper limit value (S70). If not, it stands by while continuing the up-count. On the other hand, if the upper limit has been reached, the up-count is stopped, the count value is reset (S75), and it is confirmed whether the transmission execution processing has been completed (S80).
[0072]
Here, if the transmission execution processing has been completed, the processing of S95 is executed, and then this processing is ended.
On the other hand, if the transmission execution process has not been completed in S80, the transmission execution process is temporarily interrupted (S85), and the process returns to S45. Then, when the count value reaches the upper limit value, if the transmission execution processing has not been completed, S45 to S80 are repeatedly executed. If the transmission execution processing has been completed, this processing proceeds to S95, and The process ends.
[0073]
Next, FIG. 8 is a flowchart illustrating a flow of a communication I / F selection process performed by the CPU 51 of the MFP 5 according to the present embodiment.
As shown in FIG. 8, when receiving the selection request signal from the host PC 3, the CPU 51 starts this processing and executes S100 to S150 similarly to the communication I / F selection processing of the first embodiment. Then, it is determined whether a reception start notification has been received from any of the communication I / Fs of the MFP 5 (S155). If no reception confirmation notification has been received, the process proceeds to S160. If the reception of the print data has not been completed, the process returns to step S155. If the reception of the print data has been completed, the process ends via step S170.
[0074]
If a reception start notification is received in S155, the process returns to S120, and S120 to S155 are executed again. Then, when the reception of the print data is completed without receiving the reception start notification, the process of S170 is executed, and then the process is terminated.
[0075]
In the data transmission system of the present embodiment as described above, as shown in FIG. 9, when the automatic selection mode is set to ON, first, printing is performed in the same processing flow as the data transmission system 1 of the first embodiment. A communication I / F to be used for data transmission is determined (1), and print data is transmitted from the host PC 3 to the MFP 5 using the determined communication I / F (2). If the transmission of the print data is not completed even when the count value of the up-count in the host PC 3 reaches the upper limit value, the host PC 3 temporarily suspends the transmission of the print data ((3)) and sends the print data to the MFP 5 again. The measurement data is transmitted to the MFP 5 using all the connected communication I / Fs (4). Upon receiving the measurement data, the MFP 5 measures the transmission time of the measurement data in each communication I / F ((5)), and uses the measurement result time data as the communication used for transmitting the print data. The data is transmitted to the host PC 3 via the I / F ([6]). When receiving the time data, the host PC 3 determines the communication I / F having the shortest transmission time from the received time data as the communication I / F to be used for transmitting the print data ((7)). Using F, the remaining print data is transmitted to the MFP 5 ([8]). Then, if the transmission of the print data is completed before the count value of the up-count in the host PC 3 reaches the upper limit value, the MFP 5 executes printing based on the received print data ([9]).
[0076]
As described above, according to the data transmission system of the present embodiment, it takes a long time to transmit print data, and other communication I / Fs may become more optimal for transmitting data gradually. The print data can always be efficiently transmitted from the host PC 3 to the MFP 5.
[0077]
By the way, in the present embodiment, the communication I / F used for transmitting the print data is determined again during the transmission of the print data based on the time required for the transmission of the print data. During the transmission of the print data, the communication I / F used for the transmission of the print data may be determined again. In this case, an upper limit (for example, 10 pages) of the transmission amount (for example, the number of pages) of the print data is set in advance, and even if the transmission amount reaches the upper limit during the transmission of the print data, If the transmission is continuing, the communication I / F may be determined again.
[0078]
Further, in the present embodiment, the upper limit of the count value is set in advance, but the upper limit may be set based on the transmission speed of the selected communication I / F and the data amount of the print data.
As described above, the embodiments of the present invention have been described, but the present invention is not limited to the above embodiments, and it goes without saying that various forms can be adopted as long as they belong to the technical scope of the present invention. .
[0079]
For example, in the above embodiment, the CPU 31 of the host PC 3 transmits the measurement data to all communication I / Fs connected to the MFP 5 at the same time, but transmits the measurement data to each communication I / F in order. May be.
In the above embodiment, the present invention is applied to the transmission of print data from the host PC 3 to the MFP 5, but the present invention may be applied to the transmission of image data from the MFP 5 to the host PC 3.
[0080]
In the above embodiment, the present invention is applied to the host PC and the MFP. However, the present invention may be applied to other terminal devices having a plurality of communication interfaces.
[Brief description of the drawings]
FIG. 1 is a schematic diagram of a data transmission system 1 according to a first embodiment.
FIG. 2 is a block diagram showing the internal configuration of a host PC 3 and an MFP 5 according to the first embodiment.
FIG. 3 is a schematic diagram of a setting screen 20 displayed on a display by a CPU 31 of a host PC 3 according to the first embodiment.
FIG. 4 is a flowchart illustrating a flow of a print data transmission process performed by a CPU 31 of the host PC 3 according to the first embodiment.
FIG. 5 is a flowchart illustrating a flow of a communication I / F selection process performed by a CPU 51 of the MFP 5 according to the first embodiment.
FIG. 6 is a sequence diagram illustrating a processing flow in the data transmission system 1 according to the first embodiment.
FIG. 7 is a flowchart illustrating a flow of a print data transmission process performed by a CPU 31 of a host PC 3 according to the second embodiment.
FIG. 8 is a flowchart illustrating a flow of a communication I / F selection process performed by a CPU 51 of the MFP 5 according to the second embodiment.
FIG. 9 is a sequence diagram illustrating a processing flow in the data transmission system 1 according to the second embodiment.
FIG. 10 is a schematic diagram showing a modification of the setting screen 20.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Data transmission system, 3 ... Host PC, 5 ... MFP, 11 ... Terminal device, 13 ... Peripheral device, 15 ... USB hub, 20 ... Setting screen, 21 ... Communication I / F selection part, 22 ... Selection mode setting part 23, setting buttons, 31, 51 CPU, 32, 52 ROM, 33, 53 RAM, 37, 57 data bus, 54 printing control unit, 55 reading control unit, 56 modem, 211 display Section, 221 ... cycle setting section, 310, 330, 350, 370, 510, 530, 550, 570 ... communication I / F.

Claims (20)

A first terminal device and a second terminal device connected to each other via a plurality of communication interfaces included in each of the first and second terminal devices, wherein data is transmitted from the first terminal device to the second terminal device via the communication interface A data transmission system for transmitting
Transmission of preset measurement data from the first terminal device to the second terminal device via the plurality of communication interfaces, and measurement data transmission required for transmission of the measurement data at each communication interface A data transmission system which measures time and selects a communication interface used for transmitting the data from the plurality of communication interfaces based on the measurement result. 2. The data transmission system according to claim 1, wherein the transmission of the measurement data is performed prior to the transmission of the data. The data transmission system according to claim 1, wherein the transmission of the measurement data is performed periodically. If the transmission of the data continues even if the elapsed time from the start of the data transmission reaches the preset upper limit, or if the data transmission amount reaches the preset upper limit. Even if the transmission of the data is continued, transmitting the measurement data, based on the measurement result of the measurement data transmission time, to select again a communication interface to be used for the data transmission. The data transmission system according to claim 1 or 2, wherein The data transmission system according to claim 1, wherein the data is used as the measurement data. The first terminal device includes a host computer,
6. The data transmission system according to claim 1, wherein said second terminal device comprises a printer or a facsimile. The first terminal device comprises a scanner or a facsimile,
The data transmission system according to any one of claims 1 to 5, wherein the second terminal device comprises a host computer. A terminal device that includes a plurality of communication interfaces and receives data transmitted from an external device via the communication interfaces,
Measuring means for measuring, for each communication interface, measurement data transmission time required for measurement data set in advance from an external device to be transmitted to the plurality of communication interfaces,
And a result transmitting means for transmitting a measurement result of the measuring means to the external device via the communication interface. A terminal device that includes a plurality of communication interfaces and receives data transmitted from an external device via the communication interfaces,
Measuring means for measuring, for each communication interface, measurement data transmission time required for measurement data set in advance from an external device to be transmitted to the plurality of communication interfaces,
Selecting means for selecting a communication interface to be used for transmitting the data from the plurality of communication interfaces based on a measurement result of the measuring means. A terminal device that includes a plurality of communication interfaces and transmits data to an external device via the communication interface,
Measurement data transmission means for transmitting preset measurement data to the external device via the plurality of communication interfaces,
Based on the measurement result of the measurement data transmission time required for transmission of the measurement data in each communication interface measured by the external device transmitted from the external device via the communication interface, based on the measurement result, Selecting means for selecting a communication interface used for transmitting the data from a plurality of communication interfaces. A recognition unit that recognizes a communication interface connected to the external device,
The measurement data transmitting unit transmits the measurement data only to a communication interface recognized as being connected to the external device by the recognition unit, among communication interfaces provided in the terminal device. The terminal device according to claim 10, wherein The terminal device according to claim 10, wherein, when the terminal device transmits the data, the measurement data transmitting unit transmits the measurement data prior to the transmission of the data. . The terminal device according to claim 10, wherein the measurement data transmitting unit periodically transmits the measurement data. 14. The terminal device according to claim 13, further comprising a period changing unit that changes a period at which the measurement data transmitting unit transmits the measurement data. Operation permission means for setting whether to permit the operation of the selection means,
When the operation of the selection unit is set to be non-permission by the operation permission unit, an interface designation unit that determines to use a communication interface designated in advance for transmitting the data is provided. The terminal device according to any one of claims 9 to 14. A notification device that notifies the user of information is provided,
The terminal device according to any one of claims 9 to 15, further comprising a first notification unit configured to notify a user of a communication interface used for transmitting the data via the notification device. A notification device that notifies the user of information is provided,
16. The communication apparatus according to claim 8, further comprising: a second notification unit that notifies a user via the notification device when there is a communication interface that is not connected to the external device. Terminal device. A program for causing a computer to function as a first terminal device or a second terminal device in the data transmission system according to any one of claims 1 to 5. A program for causing a computer to function as at least one of the means in the terminal device according to any one of claims 8 to 17. A program for causing a computer to function as the terminal device according to any one of claims 8 to 17.

Images