JP2016158130A - Communication device and method, and computer program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a communication device for connection with an analog line, capable of reducing increase in the communication time when the communication device for connection with an analog line performs facsimile communication through the IP network.SOLUTION: A communication device has waiting for signal processing means for waiting the incoming of facsimile communication from an opposite device via an analog line, and receiving a notification of calling terminal identification information for identifying the calling opposite device from the analog line upon reception of an incoming call, and communication parameter setting means for determining whether or not the opposite device is a communication device connected with an IP telephone, on the basis of the calling terminal identification information, and notifying the opposite device of a signal for prohibiting ECM in facsimile communication, when the opposite device is a communication device connected with an IP telephone.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a communication control technique in a communication apparatus capable of facsimile communication.

  Facsimile communication is generally performed via a PSTN (Public Switched Telephony Network) line or a private line that is an analog line. However, in recent years, facsimile communication by an IP telephone having a VoIP (Voice over IP) function is increasing due to the advancement of the IP (Internet Protocol) network. Hereinafter, in order to distinguish from a facsimile apparatus (communication apparatus) connected to an analog line, a facsimile apparatus connected to an IP telephone is referred to as an “IP facsimile apparatus”.

  As a characteristic of such an IP telephone, it is known that packet loss and transmission delay occur. Due to this packet loss and transmission delay, when a facsimile machine connected to an analog line communicates with an IP facsimile machine, a communication error (communication error) may occur due to retransmission and a reception wait timeout. . As a result, in the communication between the facsimile apparatus connected to the analog line and the IP facsimile apparatus, there is a problem that the communication time increases or communication disconnection occurs due to a communication abnormality. Further, it is known that this problem appears particularly prominently when communication between these facsimile apparatuses is performed with the setting of “ECM (Error Correction Mode)”. The ECM is a function that corrects errors in received data.

  As a technique related to facsimile communication via such an IP network, Patent Document 1 discloses a communication apparatus that omits the ECM procedure when using a transport protocol having an error correction function such as an IP network. . The communication apparatus described in Patent Document 1 reads transport protocol information from a SIP message transmitted by a SIP (Session Initiation Protocol) protocol that is a session control protocol in the Internet network. When the communication apparatus performs facsimile communication using TCP having an error correction function, ITU-T recommendation T.30, which is a standard facsimile procedure on the Internet. 38, a signal for omitting the ECM function is transmitted. Specifically, in the case of the receiving side, the communication device transmits a DIS signal indicating that it does not have an ECM function. On the other hand, in the case of the transmitting side, the communication apparatus sends out a DCS signal indicating that facsimile communication is executed without using the ECM function even if the receiving side receives DIS indicating that the receiving side has the ECM function. To do. In this way, in the communication apparatus described in Patent Document 1, the communication apparatus can efficiently communicate by omitting the ECM function in the facsimile communication performed via the IP network in this way. .

  Patent Document 2 discloses a communication terminal apparatus that executes a low-speed facsimile transmission process for a facsimile apparatus connected via an IP network. In the communication terminal device described in Patent Document 2, the main control unit is configured to call the counterpart facsimile machine based on the information signal received from the IP network side in the calling process for the counterpart (receiver) facsimile machine. Is determined to be connected via the IP network. If the main control unit determines that the connection is made via the IP network, the V. A facsimile transmission process in a mode slower than the 34-mode facsimile transmission process is executed. In this way, the communication terminal device described in Patent Document 2 can prevent the occurrence of a communication error due to high-speed communication in facsimile transmission processing performed via the IP network.

  Patent Document 3 discloses a communication terminal device that reduces communication errors in data communication via an IP telephone network. In the communication terminal device described in Patent Document 3, when making a call, the main control unit detects that the counterpart facsimile machine is connected to the IP telephone network based on the telephone number to be dialed. When detecting that the other party's facsimile machine is connected to the IP telephone network, the main control unit turns off the high speed flag to lower at least one of the maximum data rate and the maximum symbol rate of the fax modem. . In this way, the communication terminal device described in Patent Document 3 can reduce communication errors caused by a high modem data rate or symbol rate in data communication performed via the IP telephone network.

JP 2008-109638 A JP 2007-043420 A JP-A-2005-130036

  However, the communication apparatus disclosed in Patent Document 1 has a problem that it cannot be applied to a facsimile apparatus connected to an analog line. The reason for this is that the communication device described in Patent Document 1 uses the SIP protocol and T.264. This is because the function of the IP facsimile machine for controlling the 38 standard facsimile procedure is required. That is, when the facsimile apparatus connected to the analog line communicates with the IP facsimile apparatus, the facsimile apparatus connected to the analog line solves the above problem by using the function of the communication apparatus disclosed in Patent Document 1. It is not possible.

  Moreover, since the communication terminal device disclosed in Patent Document 2 or 3 performs communication at a speed lower than the communication speed available in the communication network, there is a problem that the communication time increases.

  One object of the present invention is to reduce an increase in communication time when a communication device (facsimile device) connected to an analog line performs facsimile communication via an IP network. Is to provide.

  In order to achieve the above object, a communication apparatus according to one embodiment of the present invention includes the following configuration.

That is, a communication device according to one aspect of the present invention is provided.
Waiting for incoming facsimile communication from the partner device via the analog line, and when receiving the incoming call, a signal waiting process for receiving from the analog line a notification of calling terminal identification information, which is information for identifying the calling partner device Means,
Based on the calling terminal identification information, it is determined whether or not the counterpart device is a communication device connected to an IP phone, and if the counterpart device is a communication device connected to an IP phone, the facsimile communication Communication parameter setting means for notifying the counterpart device of a signal for prohibiting ECM in the network.

In order to achieve the above object, a communication method according to an aspect of the present invention is performed by an information processing device.
Wait for incoming facsimile communication from the other device via analog line,
When receiving the incoming call, receiving a notification of the calling terminal identification information that is information for identifying the other party device that has sent, from the analog line,
Based on the calling terminal identification information, execute a determination process to determine whether the counterpart device is a communication device connected to an IP phone,
If the partner apparatus is a communication apparatus connected to an IP phone, a signal prohibiting ECM in the facsimile communication is notified to the partner apparatus.
Also, the same object is to provide a communication device having the above-described configurations and a computer program for realizing the corresponding method by the information processing device, and a storage readable by the information processing device in which the computer program is stored. It is also achieved by the medium.

  The present invention has an effect of reducing an increase in communication time when a communication device connected to an analog line performs facsimile communication via an IP network.

It is a block diagram which shows the structure of the communication apparatus 1 which concerns on the 1st and 2nd embodiment of this invention. It is a block diagram which shows an example of the communication environment in the communication system which concerns on 2nd Embodiment. It is a flowchart which shows the operation | movement which the communication control part 2 performs in 2nd Embodiment. It is a conceptual diagram which shows an example of the communication operation between the communication apparatus 1 and the other party facsimile apparatus 20 in 2nd Embodiment. It is a figure which illustrates the structure of the communication apparatus applicable to the communication apparatus 1 and the communication system which concern on the 1st and 2nd embodiment of this invention.

  Next, embodiments of the present invention will be described in detail with reference to the drawings.

<First Embodiment>
FIG. 1 is a block diagram showing a configuration of a communication device 1 according to the first and second embodiments of the present invention. Referring to FIG. 1, a communication device 1 according to the present embodiment includes a communication control unit 2. The communication control unit 2 includes a signal control unit 3, a signal waiting processing unit 4, and a communication parameter setting unit 5.

  The communication device 1 can perform facsimile communication with a partner device (not shown) via the communication network 1000. The communication network 1000 is an analog line such as a public line network. Note that another communication network (not shown) can be interposed between the communication network 1000 and the counterpart device.

  The communication device 1 may be configured by a general information processing device (computer) that operates under the control of a computer program (software program) executed using a CPU (Central Processing Unit: not shown). Alternatively, each unit of the communication device 1 may be configured by a dedicated hardware device or a logic circuit. A configuration example for realizing the communication device 1 will be described later with reference to FIG.

  The communication control unit 2 can communicate with a partner device via, for example, an NCU (Network Control Unit) control unit 6 and a modem control unit 7.

  The signal control unit 3 can control the facsimile communication protocol.

  The signal waiting processing unit 4 performs signal waiting processing for waiting for an incoming call (incoming call) of facsimile communication from the partner apparatus via the communication network 1000 via the signal control unit 3. When receiving an incoming call, the signal waiting processing unit 4 receives from the communication network 1000 notification of calling terminal identification information (hereinafter also referred to as “calling ID”), which is information for identifying the calling partner apparatus. Here, “receive notification of calling ID” can be rephrased as “receive calling ID information indicating calling ID”.

  The communication parameter setting unit 5 determines whether the partner device is a communication device connected to the IP phone based on the caller ID of the partner device that has received the call. When the partner apparatus is a communication apparatus connected to the IP phone, the communication parameter setting section 5 notifies the partner apparatus of a signal for prohibiting ECM in facsimile communication via the signal control section 3.

  As described above, according to the present embodiment, it is possible to realize prohibition of ECM in facsimile communication when an incoming call is received from a partner apparatus connected to an IP telephone.

  As described above in the Background Art section, an increase in communication time or abnormal communication (disconnection), which is a problem when a communication device (facsimile device) connected to an analog line communicates with an IP facsimile device connected to an IP telephone, There is a tendency to become prominent when the setting is “with ECM” (communication parameter). This is considered to be due to the fact that a general communication apparatus connected to an analog line has a shorter signal waiting timer in the case of “with ECM” than the signal waiting timer in the case of “without ECM”. That is, in the case of “with ECM”, a general communication apparatus is considered to easily generate a signal waiting timeout (communication error) with respect to packet loss and transmission delay in the IP network. Therefore, the communication apparatus 1 can reduce the occurrence of communication abnormality in facsimile communication via the IP network by prohibiting ECM. As a result, the communication device 1 can reduce problems such as an increase in communication time or communication disconnection due to the occurrence of communication abnormality.

  As described above, the communication device 1 according to the present embodiment has an effect of reducing an increase in communication time when a communication device connected to an analog line performs facsimile communication via an IP network.

  The reason is that the communication parameter setting unit 5 can notify the communication device connected to the IP telephone determined based on the caller ID of an ECM prohibition signal.

  In addition, since the communication device 1 does not limit the communication to a low speed unlike the communication terminal device disclosed in Patent Document 2 or 3, the communication device 1 can communicate at a communication speed that can be used in the communication network. is there.

  The reason is that the communication parameter setting unit 5 reduces the occurrence of communication abnormality by notifying the signal for prohibiting ECM without changing the setting of the communication speed (as usual).

<Second Embodiment>
Next, a second embodiment based on the above-described first embodiment will be described. In the following, the characteristic part according to the second embodiment will be mainly described, and the components of the second embodiment having the same configuration as the first embodiment are attached in the first embodiment. The same reference numerals as those of the reference numerals are attached, and the detailed description of the constituent elements is omitted.

  First, the configuration of this embodiment will be described below with reference to FIG. FIG. 2 is a configuration diagram illustrating an example of a communication environment in the communication system according to the second embodiment.

  Referring to FIG. 2, the communication system according to the present embodiment includes a communication device 1, a gateway device 10, a partner facsimile device 20, and a VoIP adapter device 21.

  The communication device 1 can communicate with the gateway device 10 via a public line network (analog network) 1001. The gateway device 10 connects the public line network 1001 and the IP network 1002 when the communication device 1 communicates with the counterpart facsimile device 20 connected to the IP network 1002. The counterpart facsimile machine 20 is connected to the IP network 1002 via the VoIP adapter device 21. That is, the communication device 1 in the present embodiment passes through the public network 1001, the gateway device 10, the IP network 1002, and the VoIP adapter device 21 when communicating with the counterpart facsimile device 20.

  The communication device 1 and the counterpart facsimile device 20 are devices capable of facsimile communication such as a multifunction machine or a facsimile machine. Communication apparatus 1 and counterpart facsimile apparatus 20 may be general information processing apparatuses (computers) capable of facsimile communication. Here, a general information processing apparatus is an information processing apparatus that operates under the control of a computer program (software program) that is executed using a CPU (not shown). Alternatively, each unit of the communication device 1 and the counterpart facsimile device 20 may be configured by a dedicated hardware device or a logic circuit. A configuration example for realizing the communication apparatus 1 and the counterpart facsimile apparatus 20 will be described later with reference to FIG.

  The communication device 1 is based on the communication device 1 in the first embodiment as shown in FIG. Similar to the first embodiment, the communication device 1 includes a communication control unit 2. The communication control unit 2 includes a signal control unit 3, a signal waiting processing unit 4, and a communication parameter setting unit 5.

  In the present embodiment, the signal waiting processing unit 4 receives a telephone number as an originating ID of the counterpart facsimile machine 20 when receiving an incoming call from the counterpart facsimile machine 20. This telephone number is notified to the communication apparatus 1 by the facsimile service of the public line network 1001.

  Further, in the present embodiment, the communication parameter setting unit 5 determines whether or not the other party facsimile apparatus 20 is connected to the IP phone by determining whether or not the head of the telephone number is “050”. . It should be noted that other generally known techniques can be adopted as a method for determining that the IP telephone is connected based on the telephone number.

  Since the structure and contents of the communication device 1 are the same as those in the first embodiment except for the points described above, a detailed description thereof will be omitted.

  Next, the operation of the present embodiment having the above-described configuration will be described in detail.

  FIG. 3 is a flowchart illustrating an operation performed by the communication control unit 2 in the second embodiment. FIG. 4 is a conceptual diagram illustrating an example of a communication operation between the communication apparatus 1 and the counterpart facsimile apparatus 20 in the second embodiment. Hereinafter, as shown in FIG. 4, the operation will be described by taking as an example a case where the partner facsimile machine 20 makes a call to the communication apparatus 1.

  First, as shown in FIG. 3, in the communication device 1, the signal waiting processing unit 4 is in a state of waiting for a signal (step S10). In this state, the counterpart facsimile machine 20 calls the communication apparatus 1 as shown in FIG. After the call is made, the partner facsimile machine 20 enters a calling state. A call to the communication device 1 is processed in the communication device 1 as an incoming call from the public network 1001.

  In the communication apparatus 1, the signal waiting processing unit 4 receives the notification of the calling ID via the NCU control unit 6, the modem control unit 7, and the signal control unit 3 (step S11 in FIG. 3). Specifically, referring to FIG. 4, the signal waiting processing unit 4 receives a telephone number as the caller ID information 200 of the partner facsimile machine 20. Since the telephone number of the partner facsimile machine 20 is the number of the connected IP telephone, it starts with “050”. The signal waiting processing unit 4 outputs the received telephone number to the communication parameter setting unit 5.

  In step 11, when the signal waiting processing unit 4 receives the notification of the calling ID, the NCU control unit 6 and the modem control unit 7 perform incoming call control. The signal control unit 3 controls a protocol related to facsimile communication. Description of incoming / outgoing call control and protocol control performed by the NCU control unit 6, the modem control unit 7, and the signal control unit 3 in the following communication scene is omitted.

  As shown in FIG. 4, when the calling ID information 200 is notified to the communication device 1, the communication between the communication device 1 and the public line network 1001 is temporarily disconnected. When the communication apparatus 1 receives the next reception from the public line network 1001, the counterpart facsimile apparatus 20 and the communication apparatus 1 are in a connection state in which mutual communication is possible.

  The communication parameter setting unit 5 determines whether the other party is a device connected to the IP phone (step S12 in FIG. 3). In the present embodiment, the communication parameter setting unit 5 determines that the partner facsimile machine 20 is an apparatus connected to the IP phone by starting with “050” as the telephone number received as the caller ID information 200.

  If it is determined in step S12 that the other party is not a device connected to the IP phone, the communication parameter setting unit 5 does not have to do anything. Thereafter, normal call connection processing is performed by the NCU control unit 6, the modem control unit 7, and the signal control unit 3 (step S20). The presence / absence of ECM is determined according to the capabilities of the communication device 1 and the counterpart device in the call connection process. Thereafter, the communication apparatus 1 transmits / receives facsimile data according to the ECM setting determined in the normal call connection process (step S21). That is, when it is determined that there is ECM, the communication device 1 may perform transmission / reception with ECM.

  On the other hand, if it is determined in step S12 that the partner is a device connected to the IP phone, the communication parameter setting unit 5 transmits an ECM prohibition signal to the partner facsimile device 20 (step S13). In the present embodiment, the communication parameter setting unit 5 is configured to receive a DIS (digital identification signal) and NSF (non-standard device signal) including setting information (communication parameters) for ECM prohibition (no ECM) via the signal control unit 3. Send.

  Specifically, as shown in FIG. 4, the communication parameter setting unit 5 first transmits a CED (called station confirmation signal) 300 according to a standard facsimile procedure after communication is possible. Then, the communication parameter setting unit 5 transmits NSF / CSI / DIS 301 including DIS indicating NSF, CSI (called station identification signal), and ECM prohibition.

  The meaning and structure of the above-described CED, NSF, CSI, and DIS, and TSI and DCS signals described later are described in ITU-T Recommendation T.30. 30, the detailed description in this embodiment will be omitted. In addition, the character “/” in the description “NSF / CSI / DIS301” and “TSI / DCS400” described later is merely a delimiter.

  Note that NSF is a signal equivalent to DIS that may be defined by the manufacturer outside the scope of the ITU-T recommendation. Therefore, the communication parameter setting unit 5 does not necessarily have to transmit the NSF.

  The counterpart facsimile machine 20 usually transmits a signal for setting a function for prohibiting ECM to the communication apparatus 1 in accordance with the received DIS. Specifically, the counterpart facsimile machine 20 receives TSI / DCS 400 including a digital command signal (DCS) including setting information indicating TSI (transmission station identification signal) and ECM prohibition (no ECM) in accordance with a standard facsimile procedure. It transmits with respect to the communication apparatus 1. Then, the counterpart facsimile machine 20 performs the “no ECM” operation in the subsequent transmission / reception of facsimile data.

  By receiving the TSI / DCS 400, the communication device 1 performs an operation of “no ECM” in subsequent transmission / reception of facsimile data (step S14).

  In this way, the communication device 1 according to the present embodiment can realize prohibition of ECM in facsimile (data) communication when an incoming call is received from the partner facsimile device 20 connected to the IP telephone.

  As described above, the communication device 1 according to the present embodiment is similar to the first embodiment when the communication device 1 connected to the public line (analog) network 1001 performs facsimile communication via the IP network. There is an effect that an increase in communication time can be reduced.

  The reason is that the communication parameter setting unit 5 can notify the counterpart facsimile machine 20 that is determined to be connected to the IP telephone based on the telephone number (calling ID) to notify the ECM prohibition signal. is there.

  Further, the communication device 1 has an effect that it can communicate at a communication speed that can be normally used in a communication network (public network 1001 and IP network 1002). Also, the communication device 1 according to the present embodiment has an effect that communication can be performed at a communication speed that can be used in the communication network, as in the first embodiment.

The reason is that the communication parameter setting unit 5 reduces the occurrence of communication abnormality by notifying the signal for prohibiting ECM without changing the setting of the communication speed (as usual).
<Configuration example capable of realizing each embodiment>
In each of the above-described embodiments, each unit illustrated in FIG. 1 may be configured by an independent hardware circuit, or may be regarded as a function (processing) unit (software module) of a software program. However, the division of each part shown in these drawings is a configuration for convenience of explanation, and various configurations can be assumed for mounting. An example of the hardware environment in such a case will be described with reference to FIG.

  FIG. 5 is a diagram illustrating a configuration of a hardware environment applicable to the communication device 1 and the communication system according to the first and second embodiments of the present invention. That is, FIG. 5 shows a configuration of a communication apparatus (information processing apparatus) capable of realizing at least one of the communication apparatus 1 and the counterpart facsimile apparatus 20 in each of the above-described embodiments, and each function in each of the above-described embodiments. An example of a hardware environment capable of realizing

  The communication apparatus 100 shown in FIG. 5 includes a CPU 101, a ROM (Read Only Memory) 102, a RAM (Random Access Memory) 103, an operation display unit 104, an image information reading unit 105, an image information output unit 106, a communication interface 107, an image An information storage unit 108 and an encoding / decoding unit 109 are provided, and these are connected via a bus 110. In the communication apparatus 100 shown in FIG. 5, the operation display unit 104, the image information reading unit 105, and the image information output unit 106 need not always be provided.

  The communication interface 107 is a general communication unit that realizes communication in the communication device 1 and the counterpart communication device 20 through the communication network 1000 in each of the above-described embodiments. For example, when the communication network 1000 is an analog line, the communication interface 107 may be configured by an NCU and a modem.

  The ROM 102 stores a program group (not shown). The program group is, for example, a computer program for realizing a function corresponding to each block (each unit) shown in FIG. 1 described above.

  The operation display unit 104 includes various keys such as letters, numbers, and function designations for receiving operations on the communication apparatus 100, and receives inputs related to the operations from these keys. The operation display unit 104 displays the operation state of the communication device 100, received image data, transmitted image data, and the like on a display or a liquid crystal display device. The operation display unit 104 may also serve as various keys and a display by a touch panel.

  The image information reading unit 105 reads a document with a scanner or the like and outputs image data.

  The image information output unit 106 uses a printer or the like to print the facsimile data received by facsimile communication from another communication device.

  The image information storage unit 108 stores facsimile data to be transmitted or received facsimile data. The image information storage unit 108 is realized by a semiconductor memory device or a disk device.

  The encoding / decoding unit 109 performs an encoding process for converting the image data read by the image information reading unit 105 as transmittable facsimile data. The encoding / decoding unit 109 performs a decoding process for converting the received facsimile data as image data that can be output by the image information output unit 106.

  In such a configuration, the CPU 101 governs the overall operation of the communication apparatus 100.

  Then, the present invention described by taking the above-described embodiments as an example, after supplying a computer program capable of realizing the functions of the block configuration diagram (FIG. 1) or the flowchart (FIG. 3) referred to in the description of each embodiment The computer program is read by the CPU 101 of the communication apparatus 100 and executed. The computer program supplied to the communication device may be stored in a RAM 103 that is a readable / writable temporary storage memory or a non-volatile storage device (storage medium) such as a hard disk device (not shown).

  In the above case, the computer program can be supplied to each device by a method of installing it in the device via various recording media such as a CD-ROM or by downloading from the outside via the communication network 1000. The general procedure can now be adopted, such as the method of doing so. In such a case, the present invention can be understood to be configured by a computer-readable storage medium in which the code constituting the computer program or the code is recorded.

DESCRIPTION OF SYMBOLS 1,100 Communication apparatus 2 Communication control part 3 Signal control part 4 Signal waiting process part 5 Communication parameter setting part 6 NCU control part 7 Modem control part 10 Gateway apparatus 20 Counterpart facsimile apparatus 21 VoIP adapter apparatus 101 CPU
102 ROM
103 RAM
DESCRIPTION OF SYMBOLS 104 Operation display part 105 Image information reading part 106 Image information output part 107 Communication interface 108 Image information storage part 109 Coding / decoding part 110 Bus 200 Calling ID information (calling terminal identification information)
300 CED
301 NSF / CSI / DIS
400 TSI / DCS
1000 Communication network 1001 Public line network (analog network)
1002 IP network

Claims (9)

Waiting for incoming facsimile communication from the partner device via the analog line, and when receiving the incoming call, a signal waiting process for receiving from the analog line a notification of calling terminal identification information, which is information for identifying the calling partner device Means,
Based on the calling terminal identification information, it is determined whether or not the counterpart device is a communication device connected to an IP phone, and if the counterpart device is a communication device connected to an IP phone, the facsimile communication Communication parameter setting means for notifying the counterpart device of a signal prohibiting ECM in the communication device. The signal waiting processing means receives the telephone number of the counterpart device as the calling terminal identification information,
The communication apparatus according to claim 1, wherein the communication parameter setting unit determines whether the partner apparatus is a communication apparatus connected to an IP phone based on a starting number of the telephone number. The communication apparatus according to claim 1, wherein the communication parameter setting unit notifies the signal for prohibiting the ECM by transmitting a digital identification signal including setting information for prohibiting the ECM. Wait for incoming facsimile communication from the other device via analog line,
When receiving the incoming call, receiving a notification of the calling terminal identification information that is information for identifying the other party device that has sent, from the analog line,
Based on the calling terminal identification information, execute a determination process to determine whether the counterpart device is a communication device connected to an IP phone,
A communication method for notifying the partner device of a signal for prohibiting ECM in the facsimile communication when the partner device is a communication device connected to an IP phone. When receiving the notification of the calling terminal identification information from the analog line, the telephone number of the counterpart device is received as the calling terminal identification information,
5. The communication method according to claim 4, wherein, in the determination process, it is determined whether or not the counterpart device is a communication device connected to an IP phone based on a starting number of the telephone number. The communication method according to claim 4 or 5, wherein a digital identification signal including setting information for ECM prohibition is transmitted when notifying the counterpart device of a signal prohibiting the ECM. Waiting for incoming facsimile communication from the partner device via the analog line, and when receiving the incoming call, a signal waiting process for receiving from the analog line a notification of calling terminal identification information, which is information for identifying the calling partner device When,
Based on the calling terminal identification information, it is determined whether or not the counterpart device is a communication device connected to an IP phone, and if the counterpart device is a communication device connected to an IP phone, the facsimile communication A computer program for causing a communication device to execute a communication parameter setting process for notifying the counterpart device of a signal for prohibiting ECM. In the signal waiting process, the telephone number of the counterpart device is received as the calling terminal identification information,
8. The computer program according to claim 7, wherein, in the communication parameter setting process, it is determined whether the counterpart device is a communication device connected to an IP phone based on a starting number of the telephone number. The computer program according to claim 7 or 8, wherein, in the communication parameter setting process, a signal for prohibiting the ECM is notified by transmitting a digital identification signal including setting information for prohibiting the ECM.

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