JP2012175152A - Communication terminal device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To lower a billing amount in the case that a unit price is charged to communication within a unit time or a unit price is different depending on a selected communication speed.SOLUTION: A communication terminal device performs transmission processing depending on data quantity of transmission information. In the case that entire data of transmission information cannot be transmitted within a unit time even if a communication speed having the largest transmission data quantity per unit time among multiple communication speeds is used, the communication terminal device transmits the data at the communication speed having the largest transmission data quantity per unit time. In the case that entire data of transmission information can be transmitted within the unit time at some communication speeds, the communication terminal device transmits the data at a communication speed about which a billing amount per unit time is the lowest among the communication speeds capable of transmitting the entire data.

Description

  The present invention relates to a communication terminal device such as a communication terminal device that is connected to a communication line and communicates with another communication terminal device, and performs communication corresponding to charging for communication via the communication line.

  In recent years, services of NGN networks (NEXT GENERATION NETWORK) based on the Internet protocol as communication lines have been started. For example, data connection services of the NTT (Nippon Telegraph and Telephone Corporation) group have started.

This service is a service for transferring real-time-oriented data such as voice, video, or image over a public line network. For example, IP-FAX that has been used only for an intranet so far is used for this public line. By connecting to other networks, other IP-FAXs on the network can be connected in the same manner as G3-FAX.
In this network service, a plurality of communication speeds are prepared, and the user can arbitrarily select which communication speed to use.

  A billing method for such network service communication is billing in units of communication time, and a predetermined amount (hereinafter referred to as “unit price”) is charged for communication for a predetermined time (hereinafter referred to as “unit time”). It has become. This unit price varies depending on the communication speed, and is set so that the unit price increases as the communication speed increases.

  In the conventional network service charging method, a communicable time is set for a predetermined amount, and the communicable time is set to be shorter as the distance to the transmission destination is longer.

  Therefore, in the past, in order to reduce the charged amount and reduce the communication cost, it has been a problem to increase the communication speed and shorten the communication time by increasing the function of the communication terminal device. Development has been done.

  Further, as for the problem of reducing the amount to be charged, Patent Document 1 discloses a communication cost when a transmission original is read and accumulated at a plurality of reading line densities and transmitted to a designated partner terminal at that time. The communication cost is minimized by calculating the predicted value of each of the image information of each reading line density, and setting the reading line density having the minimum predicted value and the maximum reading line density as the reading line density at that time. In addition, there is described a technique capable of transmitting image information having the maximum image quality of a transmission image to a counterpart terminal.

  However, if the unit price is imposed on communication within a unit time as in the above network service billing method, or if the unit price varies depending on which communication speed is selected, It is not possible to sufficiently solve the problem of reducing the charged amount by simply shortening the communication time so that communication can be performed at a high communication speed by simply increasing the function of the communication terminal device.

  Further, as in the technique described in Patent Document 1, the technique is such that the read line density with the smallest predicted communication cost and the highest read line density is selected for transmission to the counterpart terminal and transmitted. In the above case, reducing the communication cost cannot be sufficiently solved.

  The present invention addresses this problem and reduces the charge amount when a unit price is imposed on communication within a unit time or when the unit price varies depending on which communication speed is selected. It is something that can be done.

  The communication terminal device according to the present invention is a communication terminal device capable of transmitting data at a plurality of communication speeds, and is set with a transmittable data amount per unit time as a basis for charging for each of the plurality of communication speeds. Transmittable data amount setting means, transmission information data amount detecting means for detecting the data amount of transmission information after data compression of information read from a transmission original or information input to the apparatus, and the transmission information data amount detecting means When the data amount of the transmission information detected by is compared with the transmittable data amount set in the transmittable data amount setting means, and the data amount of the transmission information is less than or equal to one of the transmittable data amounts , Communication speed selection means for selecting the communication speed with the smallest charge per unit time among the communication speeds corresponding to the following, and the data of the transmission information Characterized in that it has a transmission processing unit for transmitting by the communication speed selected by year communication speed selecting means.

  In the communication terminal device according to the present invention, the communication speed selection means can further transmit data per unit time out of the plurality of communication speeds when the data amount of the transmission information exceeds all of the transmittable data amount. The communication speed with the largest amount of data is selected.

  The communication terminal apparatus according to the present invention is a communication terminal apparatus capable of transmitting data at a plurality of communication speeds, and detects a data amount to be transmitted, and transmits data according to the detected data amount. A determination unit that determines a communication speed to be used; and a transmission unit that transmits data at the determined communication speed. The detection unit detects a remaining data amount that has not yet been transmitted when transmitting the data. In addition, the determining means includes the remaining data amount detected by the detecting means and a transmittable data amount indicating a transmittable data amount per predetermined unit time provided for each of the plurality of communication speeds. Then, the communication speed used for transmitting the untransmitted data is determined.

  The communication terminal device according to the present invention is a communication terminal device capable of transmitting data at a plurality of communication speeds, and is set with a transmittable data amount per unit time as a basis for charging for each of the plurality of communication speeds. Transmittable data amount setting means, transmission information data amount detecting means for detecting the data amount of transmission information after data compression of information read from a transmission original or information input to the apparatus, and the transmission information data amount detecting means The data amount of the transmission information detected by the above is compared with the transmittable data amount set in the transmittable data amount setting means, and if the data amount of the transmission information exceeds all of the transmittable data amount, the plurality of data The communication speed with the largest amount of data that can be transmitted per unit time is selected, and the data amount of the transmission information is the amount of data that can be transmitted. If it is any of the following, the first communication speed selection means for selecting the communication speed with the smallest charge per unit time among the communication speeds corresponding to the following, and the data of the transmission information in the previous period Transmission processing means for transmitting at the communication speed selected by the communication speed selecting means, and transmission information data amount not yet transmitted before the unit time elapses after starting transmission using the communication speed selected by the communication speed selecting means. A residual data amount detecting means for detecting a residual data amount for transmission, and comparing the residual data amount detected by the residual data amount detecting means with a transmittable data amount set in the transmittable data amount setting means, When the remaining data amount exceeds all of the transmittable data amount, the largest transmittable data amount per unit time among the plurality of communication speeds. If the remaining data amount is less than or equal to one of the transmittable data amounts, the communication rate with the smallest charge amount per unit time is selected from the communication rates corresponding to the following If the communication speed selected by the second communication speed selection means and the second communication speed selection means is a communication speed different from the communication speed being transmitted, the transmission is interrupted before the unit time elapses. And a communication speed change processing means for starting transmission at the communication speed selected by the second communication speed selection means.

  In the communication terminal device according to the present invention, when the communication speed selected by the second communication speed selection means is the same communication speed as the transmission speed being transmitted, the transmission at the communication speed is continued as it is. It is characterized by being.

  According to the present invention, in the case of a billing form in which the unit price varies depending on the communication speed, the transmission processing is performed by selecting the communication speed corresponding to the data amount of the transmission information. The communication speed suitable for the amount can be used, and the billing amount can be kept low.

It is a figure which shows the example of the accounting form applied to embodiment of this invention. 1 is a block diagram showing a hardware configuration of a facsimile apparatus according to an embodiment of the present invention. 1 is a block diagram illustrating a functional configuration of a facsimile apparatus according to an embodiment of the present invention. It is a figure which shows the communication speed corresponding to the transmission information data amount in 1st Embodiment. It is a figure which shows the communication speed corresponding to the transmission information data amount in 2nd Embodiment, and the communication speed corresponding to residual data amount. It is a figure which shows the flowchart of the process in 1st Embodiment. It is a figure which shows the flowchart of the process in 2nd Embodiment. It is a figure explaining the process in the case of performing printing output on the receiving side.

≪Example of billing form≫
FIG. 1 shows an example of a billing form that is actually used commercially.

  In the embodiment of the present invention described below, a case where the accounting form shown in FIG. 1 is applied will be described.

  In the billing example shown in FIG. 1, three types of network communication speeds of 64 Kbps, 512 Kbps, and 1 Mbps are prepared, and the user can arbitrarily select the communication speed to be used for each communication. Can be used.

  For each of these communication speeds, a unit price is charged for communication per unit time. That is, the unit price is charged if the communication time is within the unit time, and the multiple of the unit price is charged if the communication time requires a plurality of unit times.

  In this billing mode, the unit time is 30 seconds, and the unit price is 1.0 yen for a communication speed of 64 Kbps, 1.5 yen for 512 Kbps, and 2.0 yen for 1 Mbps.

  Thus, the unit price varies depending on the communication speed, and the unit price is set higher if the communication speed is higher. Although not shown in this table, the unit time may be set longer as the communication speed increases. For example, when the communication speed is 2.6 Mbps, the unit time is set to 3 minutes and the unit price is set to 15 yen.

  FIG. 1 shows the unit price, the amount of data that can be transmitted per unit time, the number of transmissions of an ordinary document per unit time, and the charge amount per ordinary document for each communication speed.

  As shown here, in this billing mode, when a high communication speed is used when the amount of data to be transmitted is small, it is expensive, and conversely, when a low communication speed is used, it is cheap. Thus, the communication cost varies depending on the communication speed.

<< Hardware Configuration of Embodiment >>
FIG. 2 is a block diagram showing a hardware configuration of the facsimile apparatus according to the embodiment of the present invention.

  As shown in FIG. 2, the facsimile apparatus 1 of this embodiment includes a CPU (Central Processing Unit) 11 that controls the operation of the entire facsimile apparatus 1, and a ROM 12 (Read Only Memory) that stores various programs of the facsimile apparatus 1. ), A RAM 13 (Random Access Memory) used as a work area of the CPU 11, and an HD (Hard Disk Memory) 14 for storing various data such as image information and setting values used for various processes.

  The facsimile apparatus 1 further includes a scanner 15, a plotter 16, operation buttons 17, a display 18, and a network interface 19. Reference numeral 20 denotes a bus line such as an address bus and a data bus for electrically connecting these components, and reference numeral 30 denotes a network which is a communication line.

  The scanner 15 scans a document image and converts it into image information, and the plotter 16 prints an image such as received image information on paper.

  The operation button 17 is used by the user to operate the facsimile apparatus 1 such as destination input and transmission conditions, and the display 18 displays a status when operating the facsimile apparatus 1 and an operation state.

  The network interface 19 is an interface for performing communication such as data transmission with another facsimile apparatus 1 via the network 30.

  The HD 14 is not limited to the HD, and other memories such as a flash memory may be used as long as they are nonvolatile.

<< Functional Configuration of Embodiment >>
FIG. 3 is a block diagram showing a functional configuration of the facsimile apparatus according to the embodiment of the present invention.
As shown in FIG. 3, the facsimile apparatus 1 includes a system control unit 41, a scanner unit 42, a plotter unit 43, an operation display unit 44, a storage unit 45, a network control unit 46, an encoding / decoding unit 47, and a transmission processing unit. 48 and a reception processing unit 49.

Each of these units is a function realized by any one of the components shown in FIG. 2 operating according to a command from the CPU 11 according to a program stored in the ROM 12.
Each of these parts will be described.

  The system control unit 41 controls the entire facsimile apparatus 1.

  The scanner unit 42 and the plotter unit 43 are executed by the scanner 15 and the plotter 16, and convert a document image into image information and print the image information on paper.

  The operation display unit 44 is executed by the operation buttons 17 and the display 18, and the user inputs transmission conditions such as a transmission destination and a line density through the operation display unit 44.

  The storage unit 45 includes image information obtained by converting an image into electronic data, transmission information obtained by compressing image information, bibliographic information such as destination information associated with the transmission information, information on the data amount of the transmission information, Various types of information such as information on the remaining data amount and communication speed information to be used are stored, and the RAM 13 and the HD 14 are used.

  The storage unit 45 also stores the received transmission information, the image information obtained by decoding the transmission information, and information in the reception process such as information associated therewith.

  The network control unit 46 exchanges data with the network 30 side, such as transmitting image information packetized via the network interface 19 to the network 30 or receiving image information packetized from the network 30.

  The encoding / decoding unit 47 is a T.264 of ITU (International Telecommunication Union). The image information is encoded and converted into data-compressed transmission information according to the method specified in Recommendation 4, and the received transmission information is decoded to reproduce the original image information.

  The transmission processing unit 48 performs transmission processing for selecting and transmitting the optimum communication speed from the viewpoint of communication cost among a plurality of communication speeds corresponding to the data amount of transmission information. A transmission process corresponding to the data amount of the information and a transmission process corresponding to the remaining data of the transmission information being transmitted are performed.

  The transmission processing unit 48 includes a transmission information data amount detection unit 481, a remaining data amount detection unit 482, a communication speed selection unit 483, a communication speed change processing unit 484, a transmittable data amount setting unit 485, a unit time measurement unit 486, a detection A time measurement unit 487 and a communication ID creation unit 488 are provided.

  The transmission information data amount detection unit 481 detects the data amount of transmission information obtained by compressing the image information read from the transmission original or the image information directly input to the apparatus by the encoding / decoding unit 47 before the first transmission. To do.

  The remaining data amount detection unit 482 detects an untransmitted remaining data amount from the data amount of transmission information being transmitted at the timing set in the detection time measurement unit 487.

  The communication speed selection unit 483 selects the communication speed to be used for the first transmission corresponding to the transmission information data amount before transmission detected by the transmission information data amount detection unit 481 and detects it by the remaining data amount detection unit 482. Corresponding to the amount of remaining data, the communication speed used after the unit time has elapsed is selected.

  4 and 5 show examples of communication speeds corresponding to the data amount.

  FIG. 4 is used in the first embodiment, and shows the communication speed corresponding to the transmission information data amount detected by the transmission information data amount detection unit 481.

  FIG. 5 is used in the second embodiment. The communication speed corresponding to the transmission information data amount detected by the transmission information data amount detection unit 481 and the communication corresponding to the remaining data amount detected by the remaining data amount detection unit 482 are used. Showing speed.

  The communication speed change processing unit 484 performs processing for changing the communication speed used after a unit time during transmission.

  If the communication speed used after the unit time selected during transmission is the same as the currently used communication speed, the communication speed change processing unit 484 continues the transmission process using the communication speed even after the unit time has elapsed. If it is not the same as the currently used communication speed, the transmission process at the used communication speed is interrupted before the unit time elapses, and then the transmission process is started at the communication speed selected during transmission and the remaining data is transmitted. Process.

  The transmittable data amount setting unit 485 sets the transmittable data amount per unit time for charging at each communication speed. FIG. 1 shows an example of transmittable data amount per unit time for each communication speed set in FIG.

  The unit time measuring unit 486 measures whether or not a unit time for which charging is performed has elapsed. In the accounting form shown in FIG. 1, “30 seconds” is set as the unit time.

  The detection time measurement unit 487 measures whether or not the time for detecting the remaining data amount has elapsed. The detection time is set to be shorter than the unit time, and the remaining data amount is detected when this time has elapsed. And the time which can complete the predetermined process based on it before unit time progress is set. In the accounting form shown in FIG. 1, for example, “29 seconds” is set as the detection time.

  The unit time measurement unit 486 starts measurement at the start of transmission, is reset every time the measured unit time has elapsed, and repeats starting a new measurement. The detection time measurement unit 487 repeats starting measurement at the start of measurement by the unit time measurement unit 486, and resetting at the same time when the unit time measurement unit 486 is reset to newly start measurement.

  The communication ID creation unit 488 creates a communication ID to be transmitted after the transmission information is transmitted, and creates a communication ID whose number is updated, for example, “001, 002...” For each communication.

  Information on various settings in the transmission processing unit 48 is stored in the storage unit 45.

  The reception processing unit performs processing for receiving transmission information and performing print output on the reception side. Transmission is performed based on the communication ID transmitted from the facsimile machine on the transmission side and the page number created on the reception side. When information is interrupted in the middle of a page and one page is divided and transmitted, a process of printing as one page is performed.

<< Processing and Operation of Embodiment >>
Next, execution of transmission processing will be described with reference to a flowchart.

  FIG. 6 shows the transmission processing of the first embodiment. Before starting transmission, the data amount of transmission information is detected, and an optimum communication speed is selected from a plurality of communication speeds corresponding to the detected data amount. It is a flowchart which shows the process in the case of selecting and transmitting.

  In FIG. 6, first, image information to be transmitted is input to the facsimile machine (step S1). When the transmission target is an image of a document, the document is scanned by the scanner unit 42 and converted into image information that is electronic data.

  When inputting the transmission information, the user inputs transmission conditions such as a transmission destination and a line density through the operation display unit 44. The image information and the information are stored in the storage unit 45.

  If the transmission target is electronic data, the electronic data is directly input and stored in the storage unit 45.

  Next, the input image information is encoded and encoded by the encoding / decoding unit 47 (step S2). The data-compressed transmission information is stored in the storage unit 45 with a transmission destination and a data amount attached.

  Next, the data amount of the compressed transmission information is detected by the transmission information data amount detection unit 481 (step S3). This data amount information is stored in the storage unit 45 in association with the transmission information.

  Next, referring to the relationship of the communication speed corresponding to the transmission information data amount shown in FIG. 4, the communication speed corresponding to the transmission information data amount is selected.

  First, the communication speed selection unit 483 determines whether or not the data amount of the detected transmission information exceeds 15.4 Mbyte, which is the transmittable data amount at the communication speed of 512 Kbps (step S4).

  If the data amount of the transmission information exceeds 15.4 Mbytes (YES in step S4), the communication speed selection unit 483 selects 1 Mbps as the communication speed to be used (step S5).

  When the data amount of the transmission information exceeds 15.4 Mbytes, the case where the data amount of the transmission information exceeds 30.0 Mbytes and the case where the data amount of the transmission information is 30.0 Mbytes or less are included, In either case, 1 Mbps is selected as the communication speed to be used, but the meaning of selecting in each case is different.

  When the data amount of transmission information exceeds 30.0 Mbytes, transmission information cannot be completed within one unit time regardless of the communication speed, and transmission is performed over a plurality of unit times. Done. In this case, the greater the amount of transmission data per unit time, the lower the charge amount.

  Therefore, 1 Mbps, which is the communication speed with the largest amount of data that can be transmitted per unit time, is selected from the network communication speeds.

  On the other hand, if the data amount of the transmission information does not exceed 30.0 Mbytes, the transmission information can be transmitted within one unit time by using a communication speed that allows the data amount of the transmission information to be less than or equal to the transmittable data amount. Can be completed. In such a case, if the communication speed with the smallest charge amount per unit time is selected from the communication speeds in which the data amount of the transmission information is equal to or less than the transmittable data amount, the charge amount is minimized.

  In this embodiment, when the data amount of the transmission information is 30.0 Mbytes or less and exceeds 15.4 Mbytes (YES in step S4), the communication speed corresponding to the transmission information data amount less than the transmittable data amount is only 1 Mbps. Therefore, the communication speed of 1 Mbps is selected.

  Thus, when the data amount of transmission information exceeds 15.4 Mbytes, the communication speed is selected depending on whether the data amount of transmission information exceeds 30.0 Mbytes or not. The meaning of is different.

  In this embodiment, 1 Mbps is selected as the communication speed to be used in both cases where the data amount of transmission information exceeds 30.0 Mbytes and the data amount of transmission information is 30.0 Mbytes or less. Therefore, the determination process of whether or not the data amount of the transmission information exceeds 30.0 Mbytes is omitted.

  If the data amount of the transmission information does not exceed 15.4 Mbytes in step S4 (NO in step S4), the communication speed selection unit 483 determines whether or not the data amount of the transmission information exceeds 1.9 Mbytes. Judgment is made (step S6).

  If the data amount of the transmission information exceeds 1.9 Mbytes (YES in step S6), the data amount of the transmission information exceeds 1.9 Mbytes and is equal to or less than 15.4 Mbytes. Then, 512 Kbps, which is the communication speed with the smallest charge amount per unit time, is selected from the communication speeds in which the data amount of the transmission information is equal to or less than the transmittable data amount (step S7).

  That is, in this case, the communication speed corresponding to the transmission information data amount equal to or less than the transmittable data amount is 1 Mbps and 512 Kbps. Since 512 Kbps has a smaller charge per unit time, this 512 Kbps communication speed. Select.

  If the data amount of the transmission information does not exceed 1.9 Mbytes in step S6 (NO in step S6), the data amount of the transmission information is 1.9 Mbytes or less. Of the communication speeds in which the data amount of the transmission information falls below the transmittable data amount, 64 Kbps, which is the communication speed with the smallest charge per unit time, is selected (step S8).

  That is, in this case, the communication speed corresponding to the transmission information data amount equal to or less than the transmittable data amount is 1 Mbps, 512 Kbps, and 64 Kbps, but 64 Kbps has the smallest charge per unit time, so the communication speed is 64 Kbps. Select.

  In this way, the transmission speed is selected by the transmission processing means, and the transmission processing means performs transmission processing at the selected communication speed (step S9).

  As described above, in the processing of the first embodiment, transmission processing is performed in accordance with the data amount of transmission information, and a communication speed having the largest amount of data that can be transmitted per unit time is used among a plurality of communication speeds. However, if all the data of the transmission information cannot be transmitted within the unit time, the transmission speed is set so that the amount of data that can be transmitted per unit time is the largest.

  In addition, when all data of transmission information can be transmitted within a unit time at any communication speed, transmission is performed using the communication speed with the smallest charge per unit time among the transmission speeds that can be transmitted. I have to.

  By doing in this way, the communication speed suitable for the data amount of the transmission information can be used in the case of the charge form in which the unit price differs according to the communication speed, and the charge amount can be kept low.

  FIG. 7 shows the transmission processing according to the second embodiment. Before the end of the unit time after the start of transmission, an untransmitted residual data amount is detected from the data amount of transmission information being transmitted, and this residual data is detected. It is a flowchart which shows the process in the case of selecting and transmitting the optimal communication speed according to quantity.

  7, first, as in the case shown in FIG. 6, input of image information (step S11), data compression (step S12), and detection of the data amount of the compressed transmission information (step S13) are performed.

  Next, the communication speed corresponding to the transmission information data amount is selected with reference to the relationship between the transmission information data amount and the communication speed shown in FIG.

  First, the communication speed selection unit 483 determines whether or not the data amount of transmission information exceeds 30.0 Mbytes (step S14).

  If the data amount of the transmission information exceeds 30.0 Mbytes (YES in step S14), the communication speed selection unit 483 uses the communication speed to be used as the communication speed to be used. 1 Mbps, which is the highest communication speed, is selected (step S15), and transmission processing is started at the selected communication speed of 1 Mbps (step S16).

  If the data amount of the transmission information does not exceed 30.0 Mbytes (NO in step S14), the communication speed is selected according to the data amount of the transmission information, and transmission processing is performed.

  Next, after the start of transmission, the detection time measurement unit 487 determines whether or not a detection time that is a predetermined time (for example, 29 seconds) before the passage of 30 seconds that is a unit time has elapsed (step S17). If so, the remaining amount of untransmitted data is detected from the amount of transmitted transmission information (step S18).

  Next, it is determined whether or not the remaining data amount exceeds 30.0 Mbytes (step S19).

  If the remaining data amount exceeds 30.0 Mbytes (YES in step S19), the transmission process performed at the communication speed of 1 Mbps is continued (step S20).

  While the transmission process is continuing, it is determined whether or not the detection time has passed after the unit time has passed (step S21). If it has passed, the process returns to step S18 to detect the remaining data amount at that time. It is determined whether the data amount exceeds 30.0 Mbytes (step S19).

  In step S19, if the remaining data amount does not exceed 30.0 Mbytes, it is next determined whether or not the remaining data amount exceeds 15.4 Mbytes (step S22), and the remaining data amount is 15.4 Mbytes. If the transmission rate exceeds 1, the transmission processing performed at the communication speed of 1 Mbps is continued (step S23).

If the remaining data amount does not exceed 15.4 Mbytes in step S22, a communication ID is transmitted (step S24), the connection to the network is disconnected by the communication speed change processing unit 484, and the transmission process is interrupted (step S25). ).
This interruption process is performed before the unit time currently being measured elapses in order to prevent charging for the next unit time. Conversely, the detection time is set in consideration of the time required for this process.

  Next, it is determined whether or not the remaining data amount detected in step S18 exceeds 1.9 Mbytes (step S26).

  The process in step S26 may be performed before step S24.

  If the data amount of the transmission information does not exceed 30.0 Mbytes in step S14, it is determined whether or not the data amount of the transmission information exceeds 15.4 Mbytes (step S27). If the data amount of the transmission information exceeds 15.4 Mbytes, the communication speed selection unit 483 selects 1 Mbps as the communication speed to be used (step S28), and starts transmission processing at the selected communication speed of 1 Mbps. (Step S29) After the transmission of the transmission information is completed, the communication ID created by the communication ID policy western part is transmitted (Step S30).

  If the data amount of the transmission information does not exceed 15.4 Mbytes in step S27, it is next determined whether or not the data amount of the transmission information exceeds 1.9 Mbytes (step S31). If the data amount of the transmission information exceeds 1.9 Mbytes, the communication speed selection unit 483 selects 512 Kbps as the communication speed to be used (step S32), and starts transmission processing at the selected 512 Kbps communication speed. (Step S33) After the transmission of the transmission information is completed, the communication ID is transmitted (Step S34).

  If the data amount of the transmission information does not exceed 1.9 Mbytes in step S31, the communication speed selection unit 483 selects 64 Kbps as the communication speed to be used (step S35), and transmission processing is performed at the selected communication speed of 64 Kbps. Is started (step S36), and the communication ID is transmitted after the transmission information is transmitted (step S37).

  If the remaining data amount exceeds 1.9 Mbytes in step S26, the communication speed selection unit 483 selects 512 Kbps as the communication speed to be used (step S32), and starts transmission processing at the selected 512 Kbps communication speed. (Step S33).

  The transmission process in this case is a transmission process subsequent to the transmission process of step S16 or step S20, and transmits the remaining data of the transmission information. A communication ID is transmitted after the remaining data has been transmitted (step S34).

  If the remaining data amount does not exceed 1.9 Mbytes in step S26, the communication speed selection unit 483 selects 64 Kbps as the communication speed to be used (step S35), and starts transmission processing at the selected communication speed of 64 Kbps. (Step S36).

  The transmission process in this case is a transmission process subsequent to the transmission process of step S16 or step S20 as described above, and transmits the remaining data of the transmission information. After the transmission of the existing data is completed, the communication ID is transmitted (step S37).

  FIG. 8 is a diagram for explaining processing when printing is performed on the receiving side.

  In the second embodiment shown in FIG. 7, the transmission process is temporarily interrupted according to the remaining data amount of the transmission information, and the remaining data is transmitted by restarting the transmission process using the changed communication speed. However, in this case, there is a case where the transmission information is interrupted in the middle of the page and the remaining part is transmitted in the next transmission process.

  As a result, when the received document is printed on the receiving side, a state occurs in which one page is interrupted in the middle and printed separately on another page.

  FIG. 8 illustrates processing for dealing with such a situation, and shows a relationship between a table in which a received document number is associated with a communication ID and transmission information data.

  In FIG. 8, the communication ID is information for identifying each communication, and is sent from the transmission side to the reception side for each communication. The transmission information data is stored in the storage unit 45 for each communication ID on the receiving side.

  The received document number is information for identifying the received transmission information document and each page of the document, and includes the document number and the page number, and is generated for each page.

  When the transmission information is received at the reception side, a document number is created based on the document separation information of the received transmission information, a page number is created based on the page separation information of the received transmission information, and a reception document number is created.

  The created received document number is stored in the storage unit 45 in association with each communication ID.

  Therefore, when one document of a plurality of pages is transmitted by one transmission process, a plurality of received document numbers having different page numbers are associated with the communication ID, and one page is divided by a plurality of transmission processes. When transmitted, the received document numbers having the same document number and the same page number are associated with a plurality of communication IDs.

  Specifically, when there is no document break information at the beginning of the received transmission information, the same document number as before is used, and when there is no page break information at the beginning of the received transmission information, it is set as the same page number as before. Create a received document number.

  As shown in FIG. 8, for example, when a two-page document is transmitted in the transmission process of the communication ID “001”, the received document numbers “1111-P1” and “1111-P2” for the first page and the second page, respectively. Is created and associated with the communication ID “001”.

  Further, the part from page 1 to the middle of page 3 of the 3-page document was transmitted by the transmission process of communication ID “002”, and the remaining part of the middle of page 3 was transmitted by the transmission process of communication ID “003”. In this case, the received document numbers “1112-P1”, “1112-P2” and “1112-P3” corresponding to the middle of the first page, the second page, and the third page are created and correspond to the communication ID “002”. Attached.

  Then, received document numbers “1112-P3” for the third and subsequent pages of the document are created and associated with the communication ID “003” to be transmitted subsequently.

  Thus, each time transmission information data is received, a table in which a communication ID and a received document number are associated is created on the receiving side. When the transmission of the document ends, the transmission information data accumulated for each communication ID is output and printed. In this case, the received document numbers having the same page number are associated with a plurality of communication IDs. If the received document number data is included, the received document number data is concatenated into one page of data and printed.

  As a result, even when transmission information is interrupted in the middle of a page and one page is divided and transmitted by a plurality of transmission processes, it is possible to prevent one page from being divided into different pages and printed. .

  As described above, in the processing of the second embodiment, transmission processing is performed in accordance with the data amount of transmission information, and the communication speed with the largest amount of data that can be transmitted per unit time among a plurality of communication speeds. If all the data of the transmission information cannot be transmitted within a unit time even if is used, transmission is first performed using the communication speed with the largest amount of data that can be transmitted per unit time.

  Then, before the unit time elapses after the start of transmission or before the unit time elapses during the next transmission, the remaining amount of untransmitted data is detected from the data amount of the transmission information being transmitted. If there is another communication speed that can transmit all the remaining data within the time, the transmission process during communication is interrupted before the unit time elapses, and the charge per unit time of other communication speed is I try to switch to the lowest communication speed.

  Thereby, compared with the case where the communication speed used first is used as it is until the completion of transmission, the billing amount can be kept low.

1 Fax machine 11 CPU
12 ROM
13 RAM 13
14 HD
15 Scanner 16 Plotter 17 Operation Button 18 Display 19 Network Interface
20 Bus line 30 Network 41 System control unit 42 Scanner unit 43 Plotter unit
44 Operation display unit 45 Storage unit 46 Network control unit 47 Coding / decoding unit 48 Transmission processing unit 481 Transmission information data amount detection unit 482 Residual data amount detection unit 483 Communication speed selection unit 484 Communication speed change processing unit 485 Transmittable data amount Setting unit 486 Unit time measurement unit 487 Detection time measurement unit 488 Communication ID creation unit 49 Reception processing unit

Japanese Patent Laid-Open No. 10-294847

Claims (5)

A communication terminal device capable of transmitting data at a plurality of communication speeds,
A transmittable data amount setting means in which a transmittable data amount per unit time, which is a basis for charging for each of the plurality of communication speeds, is set;
Transmission information data amount detection means for detecting a data amount of transmission information after data compression of information read from a transmission original or information input to the apparatus;
The data amount of the transmission information detected by the transmission information data amount detection unit is compared with the transmittable data amount set in the transmittable data amount setting unit, and the data amount of the transmission information is any of the transmittable data amounts. Or a communication speed selection means for selecting a communication speed with the smallest charge per unit time among communication speeds corresponding to the following,
A communication terminal apparatus comprising: a transmission processing unit that transmits data of the transmission information at the communication speed selected by the communication speed selection unit in the previous period.   2. The communication terminal device according to claim 1, wherein when the data amount of the transmission information exceeds all of the transmittable data amount, the communication speed selecting unit further includes the communication speed per unit time of the plurality of communication speeds. A communication terminal apparatus, wherein a communication speed with the largest amount of data that can be transmitted is selected. A communication terminal device capable of transmitting data at a plurality of communication speeds,
Detection means for detecting the amount of data to be transmitted;
Determining means for determining a communication speed used for data transmission according to the detected data amount;
Comprising a transmission means for transmitting data at the determined communication speed;
The detecting means detects the remaining data amount that has not yet been transmitted when transmitting the data,
The determining means includes the remaining data amount detected by the detecting means and a transmittable data amount indicating a transmittable data amount per predetermined unit time provided for each of the plurality of communication speeds. A communication terminal apparatus for determining a communication speed used for transmitting the untransmitted data. A communication terminal device capable of transmitting data at a plurality of communication speeds,
A transmittable data amount setting means in which a transmittable data amount per unit time, which is a basis for charging for each of the plurality of communication speeds, is set;
Transmission information data amount detection means for detecting a data amount of transmission information after data compression of information read from a transmission original or information input to the apparatus;
The data amount of the transmission information detected by the transmission information data amount detection unit is compared with the transmittable data amount set in the transmittable data amount setting unit, and the data amount of the transmission information is all of the transmittable data amount. If the communication speed exceeds the transmission speed, the communication speed with the largest amount of data that can be transmitted per unit time is selected, and the data amount of the transmission information is less than or equal to the amount of data that can be transmitted. Is a first communication speed selection means for selecting a communication speed with the smallest charge per unit time among the communication speeds corresponding to the following:
Transmission processing means for transmitting the data of the transmission information at the communication speed selected by the previous communication speed selection means;
A residual data amount detecting means for detecting an untransmitted residual data amount of the transmission information data amount after the unit time has elapsed after the start of transmission using the communication speed selected by the communication speed selecting means;
When the remaining data amount detected by the remaining data amount detection unit is compared with the transmittable data amount set in the transmittable data amount setting unit, and the remaining data amount exceeds all the transmittable data amounts Selects the communication speed with the largest amount of data that can be transmitted per unit time from among the plurality of communication speeds, and if the remaining data amount is less than or equal to the amount of data that can be transmitted, the following applies Second communication speed selection means for selecting a communication speed with the smallest charge amount per unit time among the communication speeds to be transmitted;
If the communication speed selected by the second communication speed selection means is a communication speed different from the communication speed being transmitted, the transmission is interrupted and terminated before the unit time elapses, and the second communication A communication terminal apparatus comprising: a communication speed change processing means for starting transmission at a communication speed selected by the speed selection means. The communication terminal device according to claim 4,
If the communication speed selected by the second communication speed selection means is the same communication speed as the transmission speed being transmitted, the transmission at the communication speed is continued as it is. .

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