JP5438726B2 - Communication device - Google Patents

Description

  The present invention relates to a communication apparatus, and more particularly to a process for establishing a connection when communication with a communication partner is started.

  2. Description of the Related Art Conventionally, a communication terminal device that performs communication by SIP (Session Initiation Protocol) is known (see Patent Document 1 below). For example, when transmitting image data to a communication partner device, this communication terminal device requests a connection request (INVITE) from the communication partner at the start of communication, and a response signal indicating a successful connection is returned from the communication partner. Then, the connection with the communication partner is established and image data is transmitted. On the other hand, when a response signal indicating that the connection is impossible is returned from the communication partner at the time of the connection request, the communication terminal device disconnects the communication and redials after the timeout period elapses. Then, since response status information is included in this response signal, redial control is performed according to the response status information. When the response status information is Retry-After (which means that a request is requested again after a predetermined period has elapsed), the communication terminal apparatus performs redial after the period indicated by the Retry-After.

JP 2004-112182 A

  The communication terminal device disclosed in Patent Document 1 can improve the efficiency of data communication by performing redialing at an appropriate time when it can be connected to a communication partner. Will be disconnected once. Since the communication terminal device repeats the connection request (INVITE) request to the communication partner at the time of redialing, further improvement is desired for this point. Further, even when redial control is performed, it is required to further improve the efficiency of data communication.

  The present invention has been made to solve the above problems, and an object of the present invention is to perform data communication by a communication device through a network more efficiently than a conventional communication device.

The invention according to claim 1 of the present invention includes a communication control unit that performs a request request with a communication partner, a response from the communication partner, and a response to the request by SIP (Session Initiation Protocol).
When the connection processing according to the connection request transmitted to the communication partner as the request by the communication control unit is not performed with the communication partner, the connection process is executed by the communication partner. A timeout management unit for setting a waiting time for the communication control unit to wait to be performed,
In response to the connection request transmitted to the communication partner, the timeout manager receives a response received from the communication partner by the communication control unit, and a connection process corresponding to the connection request is queued. The waiting time is extended by a predetermined time,
The communication control unit waits for the connection process according to the connection request to be executed by the communication partner based on the standby time extended by the timeout management unit, and the extended standby time has elapsed. After that, the communication apparatus interrupts the standby and disconnects communication.

  In this invention, the response from the communication partner that responded to the connection request to the communication partner is not a content indicating an error due to the occurrence of a failure, but is likely to be connected as long as waiting, such as 182 Queued, When the response indicating that the connection process corresponding to the connection request has entered the queue, the timeout management unit extends the waiting time, and the communication control unit continues until the extended waiting time elapses. Since the communication partner waits for the connection process to be executed without disconnecting the communication, when a response signal indicating the success of the connection process is received from the communication partner, the connection is immediately established, data transmission, etc. Can be done. For this reason, it is possible to perform communication efficiently by reducing the number of signal transmission / reception times as compared with the conventional case where the communication is once disconnected and the redial control is performed.

The invention according to claim 2 is the communication device according to claim 1, wherein a notification unit that notifies the operator of operation guidance;
When the timeout management unit extends the standby time by a predetermined time, the information management unit further includes a notification control unit that notifies the notification unit of a message indicating that the connection process corresponding to the connection request is waiting. It is.

  According to this invention, when the notification control unit is extended by the timeout management unit, the notification unit notifies the notification unit of a message that is waiting for the execution of the connection process. It is possible to recognize that the communication device does not operate due to a communication problem but is waiting for connection processing by the communication partner.

  The invention according to claim 3 is the communication apparatus according to claim 1 or 2, wherein the communication control unit is configured to perform the operation based on the standby time extended by the predetermined time. When another communication request is generated while waiting for connection processing, the waiting is stopped and communication is disconnected without waiting for the extended waiting time to elapse. .

  According to this invention, when another communication request is newly generated during standby based on the extended standby time, the communication control unit does not wait for the extended standby time to elapse. Since standby is canceled and communication is disconnected, after the communication is disconnected, the time that must be waited as the extended standby time is effectively used to execute another new communication request. Is possible.

The invention according to claim 4 is the communication apparatus according to any one of claims 1 to 3, wherein the communication control unit sets the same connection request after disconnection of communication due to the elapse of the standby time. Redial control is performed to execute the process of transmitting to the other party of communication for a predetermined number of times for each predetermined period,
The time-out management unit extends the standby time within a time range determined by multiplying the predetermined period and the predetermined number of times when the standby time is extended by a predetermined time. A predetermined time is determined.

  According to the present invention, the time-out management unit multiplies the predetermined period and the predetermined number of times, which is the longest period for continuing the redial control when the standby time is extended by a predetermined time. The waiting time is extended within the time range determined by the above, so that the state of waiting for the connection processing to be executed at the communication partner is longer than the period during which the redial control is performed. As a result, it is possible to avoid a situation in which communication processing by the communication device is occupied for communication based on the connection request.

  Further, the invention according to claim 5 is the communication apparatus according to claim 3, wherein the communication control unit does not wait for the elapse of the extended waiting time to stop the waiting and perform communication. In the case of disconnection, the redial control is performed within a time range obtained by subtracting the elapsed time from the start of standby based on the extended standby time to the communication disconnection time from the extended standby time. is there.

  According to the present invention, when the communication control unit stops the standby and disconnects the communication without waiting for the extended standby time to elapse, the communication control unit starts the standby based on the extended standby time. Since the redial control is performed within the time range obtained by subtracting the elapsed time from when the communication is disconnected to the extended standby time from the extended standby time, the connection request is interrupted and the communication is disconnected and the redial control is started. Even when the redial control is continued, the situation where the redial control continues to be executed beyond the extended waiting time can be avoided, and the situation where the communication processing by the communication apparatus is occupied for a long time due to waiting for processing or execution of the redial control can be avoided. .

  ADVANTAGE OF THE INVENTION According to this invention, the data communication by the communication apparatus through a network can be performed still more efficiently than the conventional communication apparatus.

It is a figure which shows the network block diagram in the case of performing network communication using the facsimile apparatus as one Embodiment of the communication apparatus which concerns on this invention. FIG. 2 is a functional block diagram schematically illustrating a main internal configuration of a multifunction peripheral. FIG. 5 is a diagram illustrating a communication procedure during facsimile communication between a multifunction peripheral serving as a transmission source and a multifunction peripheral serving as a communication partner. 3 is a flowchart illustrating a first embodiment of facsimile communication by SIP in a multi-function peripheral. 10 is a flowchart illustrating a second embodiment of facsimile communication by SIP in a multi-function peripheral. 12 is a flowchart illustrating a third embodiment of facsimile communication by SIP in a multi-function peripheral.

  Hereinafter, a communication apparatus according to an embodiment of the present invention will be described with reference to the drawings. FIG. 1 is a diagram showing a network configuration when network communication is performed using a facsimile apparatus as an embodiment of a communication apparatus according to the present invention.

  In the present embodiment, an example in which the multifunction machine 1 is applied as a facsimile apparatus which is an embodiment of a communication apparatus according to the present invention will be described. The multifunction machine 1 has a copy function, a facsimile function, a scanner function, and a printer function. The multi-function device 1 has a call control function based on SIP and a facsimile function on an IP network compliant with the T.38 recommendation. In the present embodiment, the multi-function device 1 having a facsimile communication function through a public telephone line network in addition to the facsimile function using the SIP call control function is described as an example.

  The multifunction device 1 is network-connected to an arbitrary number of personal computers (hereinafter referred to as PCs) 2 and 3 by a LAN (Local Area Network) 5 at, for example, a company office. In the LAN 5, the multifunction device 1 and the PCs 2 and 3 can recognize each other by the IP address and transmit / receive data between the devices. The LAN 5 is connected to the external Internet 6 via the router 4.

  In this embodiment, the multifunction device 1 transmits the transmission target data by facsimile transmission by the facsimile function on the IP network using the call control function by SIP (the other party receiving the transmission target data). It is a facsimile machine or a multi-function machine having a facsimile function on an IP network using a call control function by SIP. In the present embodiment, the apparatus serving as the communication partner will be described as the multifunction machine 7. Similar to the multifunction device 1, the multifunction device 7 is also connected to an arbitrary number of PCs 8 and 9 via a LAN 10 or the like so as to be able to transmit and receive data within the environment where the multifunction device 7 is installed. The LAN 10 is connected to the Internet 6 via the router 11, and data can be transmitted / received to / from the MFP 1 that is the transmission source of the transmission target data via the Internet 6.

  Next, the configuration of the multifunction machine 1 will be described. FIG. 2 is a functional block diagram schematically showing the main internal configuration of the multifunction machine 1.

  The multifunction machine 1 includes a control unit 10. The control unit 10 includes a CPU (Central Processing Unit), a RAM, a ROM, a dedicated hardware circuit, and the like, and controls the overall operation of the multifunction machine 1.

  The control unit 10 is connected to a scanner unit 51, an image processing unit 31, a recording unit 41, an operation unit 61, a facsimile communication unit 71, an HDD (hard disk drive) 81, and a network interface unit 91.

  The control unit 10 includes a main control unit 100 that controls the overall operation of the multifunction machine 1 described above. A main control unit (an example of a notification control unit in the claims) 100 drives and drives each mechanism unit necessary to execute operation control for each of the scanner function, printer function, copy function, and printer function. Control processing.

  The scanner unit (an example of a reading unit in the claims) 51 includes an image irradiation lamp 511 and a CCD (Charge Coupled Device) sensor 512 that constitute a scanner (not shown). The scanner unit 51 irradiates the document with the image irradiation lamp 511 and receives the reflected light with the CCD sensor 512, thereby reading the image from the document.

  The image processing unit 31 includes a correction unit 311 and an image processing unit 312. The image processing unit 31 processes the image data read by the scanner unit 51 by the correction unit 311 and the image processing unit 312 as necessary. The image data processed by the image processing unit 31 is stored in the image memory 32 or output to the recording unit 41 or the facsimile communication unit 71 or the like. The correction unit 311 performs predetermined correction processing such as level correction and gamma correction on the image data read by the scanner unit 51. The image processing unit 312 performs various types of processing such as image data compression or expansion processing and enlargement or reduction processing. The image memory 32 stores image data read by the scanner unit 51.

  The recording unit 41 includes a recording paper transport unit 411 including a paper cassette and a paper supply roller (not shown), an image forming unit 412 including a photosensitive drum, an exposure device, a developing device, and the like (not shown), And a fixing unit 414 including a fixing roller (not shown). The recording unit 41 plays a role of printing an image based on image data to be printed on a recording sheet. The image data to be printed by the recording unit 41 includes image data read by the scanner unit 51, image data transmitted from the PCs 2 and 3 via the LAN 5 and the network control unit 104, the Internet 6, the LAN 5, and the network. This is image data transmitted from the external multifunction device 7 and the PCs 8 and 9 via the control unit 104. Specifically, the recording paper transport unit 411 transports the recording paper to the image forming unit 412, the image forming unit 412 forms a toner image corresponding to the image data, and the transfer unit 413 converts the toner image onto the recording paper. After the transfer, the fixing unit 414 fixes the toner image on the recording paper. In this way, image formation on the recording paper by the recording unit 41 is performed.

  The operation unit 61 includes a touch panel unit and operation key units that receive instructions from the operator regarding various operations and processes that can be executed by the multifunction machine 1. The touch panel unit includes a display unit (an example of a notification unit referred to in the claims) 611 such as an LCD (Liquid Crystal Display) provided with a touch panel. The touch panel unit and the operation key unit receive, for example, an instruction for designating a communication partner of transmission target data for facsimile transmission from the operator. The instruction received by the operation unit 61 is sent to the main control unit 100, and the main control unit 100 controls various operations and processes performed by the multifunction machine 1 based on the instruction.

  The facsimile communication unit 71 includes an unillustrated encoding / decoding unit, modulation / demodulation unit, and NCU (Network Control Unit), and performs facsimile transmission using a public telephone network. For example, the facsimile communication unit 71 transmits image data of a document read by the scanner unit 51 to a facsimile device or the like via a telephone line, and receives image data transmitted from the facsimile device or the like.

  An HDD (hard disk drive) 81 stores image data read by the scanner unit 51 and various data such as an output format set in the image data. The image data stored in the HDD 81 is used in the multifunction machine 1 and various programs employed therein.

  The network interface unit 91 is composed of a communication module such as a LAN board. Via the LAN 5 or the like connected to the network interface unit 91, an external device (multifunction device 7 or PC 8, 9 or the like) and various data Send and receive. In this embodiment, the network interface unit 91 corresponds to a protocol for facsimile communication by a facsimile function on an IP network using a call control function by SIP.

  The control unit 10 further includes a network control unit 104 and a timeout management unit 105.

  The network control unit 104 is in charge of control for performing network communication by SIP. For example, the network control unit 104 performs a request request such as a connection request with a communication partner, a response (response) transmitted from the communication partner, and a response to the request request. The network control unit 104 establishes a connection according to the connection request with the communication partner, and then transmits transmission target data including original image data read by the scanner unit 51 to the operation unit 61 from the operator. An IP using a call control function based on SIP from the network interface unit 91 to the communication partner indicated by the received communication partner information (information indicating the communication partner of facsimile transmission) through the network such as the LAN 5 and the Internet 6. Send by facsimile communication on the network. Further, the network control unit 104 encodes and decodes the transmission target data acquired by the scanner unit 51 and the like by a predetermined encoding method used for SIP communication (facsimile transmission in this embodiment). Note that the network control unit 104 and the network interface unit 91 use the image data received from the PCs 2 and 3 through the network as the transmission target data (the data type is not limited as long as it is a data format that can represent an image). In this way, it may be transmitted to the communication partner.

  Further, the network control unit 104 executes connection processing according to the connection request transmitted to the communication partner at the transmission destination based on a timeout time (standby time) set by the timeout management unit 105 described later. It waits until it enters a state, and after the timeout time has elapsed, control is performed to cancel the standby and disconnect the communication.

  Note that the network control unit 104 and the network interface unit 91 are an example of a communication control unit in claims and an example of a data transmission control unit.

  The communication partner apparatus shown in the claims is not limited to the facsimile apparatus shown as the multi-function device 7 as described above, and may be a personal computer or another communication apparatus such as a mobile device. As the communication partner apparatus, any apparatus capable of transmitting and receiving data corresponding to the facsimile function on the IP network using the above-described SIP call control function can be adopted. In the following description, a case where the communication partner apparatus is a multifunction peripheral will be described as an example.

  Note that the multifunction machine 7 that is a communication partner in the present embodiment includes, for example, a network control unit 70, a main control unit 72, and a data storage unit 73. Similar to the network control unit 104 and the network interface unit 91 of the multifunction device 1, the network control unit 70 controls data communication through the network. The main control unit 72 governs overall operation control of the multifunction machine 7. The data storage unit 73 is a device that includes a memory, an HDD, or the like, and stores data received from an external device via a network.

  When the network control unit 104 and the network interface unit 91 do not receive a connection success signal indicating that the connection according to the connection request transmitted to the communication partner is successful, the network management unit 104 and the network interface unit 91 do not A timeout time (waiting time) is set for causing the network control unit 104 to wait for the connection processing to be executed by the communication partner. In addition, the timeout management unit 105 waits for the response received from the communication partner by the network control unit 104 or the like as a response signal to the connection request to the communication partner to execute the connection process that is the target of the connection request. When indicating that the user has entered the queue, the timeout time is extended by a predetermined time. For example, the timeout management unit 105 waits for an order in which the received response is 182 Queued, and the connection process that is the target of the connection request is performed after execution of the process already accepted by the communication partner. When indicating that the state (queue) has been entered, the timeout time is extended by a predetermined time (for example, 120 seconds).

  Next, the first embodiment of the communication processing with the communication partner apparatus by the multi function device 1 will be described by taking facsimile communication by SIP as an example. FIG. 3 is a diagram showing a communication procedure at the time of facsimile communication between the multifunction device 1 serving as a transmission source and the multifunction device 7 serving as a communication partner. FIG. 4 is a flowchart showing a first embodiment of facsimile communication by SIP in the multifunction machine 1. Facsimile communication by the facsimile function on the IP network using the SIP call control function shown below is performed through the LAN 5 and the Internet 6 or the like, but these are not particularly mentioned for simplification of description. In the following, facsimile communication or transmission by a facsimile function on an IP network using a call control function by SIP is simply referred to as facsimile communication or transmission.

  When the operation unit 61 of the multifunction device 1 receives an instruction to perform facsimile transmission and input of communication partner information indicating a communication partner of facsimile transmission based on an operation by the operator (YES in S1). ), The network control unit 104 and the network interface unit 91 (hereinafter simply referred to as the network control unit 104) of the MFP 1 request connection to the communication partner (S2). For example, as shown in FIG. 3, the network control unit 104 sends an INVITE requesting a SIP proxy connection to the multifunction device 7 of the communication partner (for example, a URI and a SIP version indicating the destination of the request for the connection request). Signal). This INVITE is first sent to the SIP server. The SIP server that has received this INVITE transmits a provisional response 100 Trying to the multifunction device 1 that is the transmission source. The SIP server transmits the received INVITE to the MFP 7 that is the communication partner. Upon receiving this INVITE, the multifunction machine 7 of the communication partner performs a predetermined calling process and returns a provisional response 180 Ringing to the multifunction machine 1 that is the transmission source. The 180 Ringing is sent to the MFP 1 as a transmission source via the SIP server.

  Subsequently, the network control unit 104 determines whether or not the signal received as a response to the connection request indicates successful connection (S3). If the received signal indicates content indicating successful connection (in S3). YES), a connection with the communication partner is established (S11). For example, after transmitting the connection request (INVITE) to the communication partner, the network control unit 104 sends a successful 200OK response signal (the received signal) to the SIP server from the multifunction device 7 of the communication partner. When the request is received via S3 (YES in S3), for example, an ACK request is transmitted to the multifunction machine 7 of the communication partner to establish a connection (session) (S11).

  After this connection is established, the network control unit 104 of the multifunction device 1 sends the scanned image data of the document read by the scanner unit 51 to the communication partner device 7 as the transmission target data to the communication partner device. Transmit (S12).

  When the transmission source multifunction device 1 completes the transmission of the transmission target data, the transmission source multifunction device 1 transmits a BYE request (session disconnection request) to the communication partner multifunction device 7, and in response to this, the communication partner device When the previous multifunction device 7 returns a 200OK response to the multifunction device 1 that is the transmission source, the session ends and communication ends.

  On the other hand, in S3, when the network control unit 104 determines that the received signal does not indicate the connection success (NO in S3), the content of the received signal waits for execution of the connection process. It is determined whether or not the entry is in the queue (S4).

  When the network control unit 104 determines that the content of the received signal indicates that the execution of the connection process has been queued (YES in S4), the timeout management unit 105 determines the timeout time in advance. Extend only the given time. For example, the response received as a response signal from the multifunction device 7 of the communication partner is 182 Queued (YES in S4), and the connection process requested from the multifunction device 1 is sent to the multifunction device 7 which is the communication partner. In the case of indicating that a state of waiting for a turn (queue) performed after execution of another process that has already been accepted is entered, the timeout management unit 105 sets the timeout time to a predetermined time (for example, Extend for 120 seconds (S5).

  When the network control unit 104 determines that the content of the received signal does not indicate that the execution of the connection process has been queued (NO in S4), the timeout management unit 105 No time extension (S5) is performed. For example, when the received signal is 486 Busy Here, 404 Not Found, 603 Decline, or the like and indicates an error or the like, the timeout management unit 105 does not extend the timeout time.

  The time-out management unit 105 determines the time-out time by using a built-in timer or the like after determining the time-out time through the processing of NO or S5 in S4 (S6). The time-out time may be measured by the network control unit 104 using a built-in timer or the like instead of the time-out management unit 105 (the same applies to each embodiment).

  When the network control unit 104 receives a signal (200 OK) indicating a successful connection from the communication partner multifunction device 7 after the time-out time has been measured and before the time-out time elapses (YES in S7), network control The unit 104 establishes a connection with the communication partner (S11), and transmits transmission target data to the multifunction device 7 of the communication partner (S12).

  If the network control unit 104 does not receive a signal indicating a successful connection from the communication partner MFP 7 before the timeout time elapses (NO in S7, YES in S8), the network control The unit 104 transmits an ACK or CANCEL request to the multifunction device 7 of the partner, and in response to this, the partner multifunction device 7 returns a 200OK response to the multifunction device 1 that is the sender. Is disconnected and communication ends.

  When the communication is thus disconnected, the network control unit 104 then performs redial control (S10). For example, the network control unit 104 performs a process of transmitting the connection request to the multi-function device 7 that is the same communication partner as described above, for a predetermined number of times (for example, 1 minute) ( For example, a redial process is performed to retry only 10 times.

  According to the first embodiment, the time-out management unit 105 does not indicate that the response from the multi-function device 7 in response to the connection request to the multi-function device 7 that is the communication partner indicates an error or busy due to the occurrence of a failure. It indicates that the connection process corresponding to the connection request has entered the queue, and if there is only a wait, there is a high possibility that the connection will be made relatively early.For example, if the signal is 182 Queued, the waiting time will be extended. The network control unit 104 waits for a response signal (for example, 200 OK) indicating a successful connection from the multifunction device 7 that is the communication partner without disconnecting the communication. Can be immediately established and data transmission can be started. For this reason, it is possible to reduce the number of times of communication and perform communication efficiently compared to the conventional case where communication is once connected and redial control is performed to try again.

  In the first embodiment, when the timeout management unit 105 extends the timeout time as described above (S5), the timeout management unit 105 communicates a connection request again in the redial control by the network control unit 104. An extension time of the timeout time within a time range determined by multiplying the predetermined period, which is an interval for performing processing to be transmitted to the other party, and the predetermined number of times to transmit the connection request again. May be determined.

  According to this, the state of waiting for the connection processing to be executed at the communication partner is over a longer time than the period during which the redial control is performed, and thus based on the connection request. It is possible to avoid a situation in which communication processing by the multifunction device 1 is occupied for communication.

  Next, a second embodiment of the communication processing with the communication partner apparatus by the multi-function device 1 will be described by taking facsimile communication by SIP as an example. FIG. 5 is a flowchart showing a second embodiment of facsimile communication by SIP in the multifunction machine 1. Note that the description of the same processing as in the first embodiment is omitted.

  In the second embodiment, when the time-out management unit 105 extends the time-out time (S26), the main control unit 100 causes the display unit 611 to execute the connection process by the multifunction device 7 of the communication partner. A message indicating that the multifunction device 1 is in a standby state is displayed (S27). Thereafter, the network control unit 104 proceeds to a process of waiting for a signal indicating a successful connection from the multifunction machine 7 of the communication partner (S28) and a series of processes subsequent thereto.

  According to the second embodiment, when the timeout time is extended by the timeout management unit 105, under the control of the main control unit 100, the process of the connection is executed by the communication partner that requested the connection. Since a message indicating that the multifunction device 1 is in a standby state is displayed on the display unit 611, the multifunction device 1 does not operate due to a problem in communication (facsimile communication) to the operator. In addition, it is possible to recognize that the MFP 7 which is the communication partner is in a state of waiting for processing.

  Next, a third embodiment of communication processing with the communication partner apparatus by the multifunction device 1 will be described by taking facsimile communication by SIP as an example. FIG. 6 is a flowchart showing a third embodiment of facsimile communication by SIP in the multifunction machine 1. Note that the description of the same processing as in the first or second embodiment will be omitted.

  In the third embodiment, after the time-out management unit 105 starts measuring the time-out time (S46) and until the time-out time elapses (S50), the network control unit 104 requests the communication partner that requested the connection. When the network control unit 104 is in a state of waiting for the connection process to be executed, the network control unit 104 waits for reception of a signal indicating a successful connection from the multifunction device 7 of the communication partner (S48). It waits whether there is a request for starting another new communication (facsimile communication or the like) different from the connection requesting communication (S49).

  When the network control unit 104 receives a request for starting another communication based on the operation of the operation unit 61 by the operator during the standby state (YES in S49), the network control unit 104 is on standby at this time. Without waiting for the timeout time to elapse, for example, the communication request is immediately disconnected by transmitting a CANCEL request to the MFP 7 that is the communication partner (S53).

  Subsequently, the network control unit 104 transmits a connection request for the new another communication to the communication partner indicated by the new another communication start request (S54), and the establishment of the new another communication is established. Try. With regard to the communication for the connection request with the communication disconnected, the network control unit 104 starts redial control (S52).

  Note that when the time-out time comes, the network control unit 104 sends a signal indicating successful connection from the multifunction device 7 of the communication partner and another new communication different from the communication for which the connection is requested. When none of the requests for starting the connection has been received (NO in S48, NO in S49, YES in S50), as in the first and second embodiments, the multi-function device that is the communication partner that is making the connection request For example, an ACK or CANCEL request is transmitted to 7 to disconnect the communication (S51).

  According to the third embodiment, it is possible to execute another new communication request by effectively utilizing the time that must be waited as the extended waiting time.

  In the third embodiment, the process of displaying on the display unit 611 a message that the display unit 611 is waiting for the connection partner to execute the connection process (S47 in FIG. 6) It is also possible not to do so.

  In addition, when the network control unit 104 stops the standby and disconnects communication without waiting for the extended timeout time to elapse, the network control unit 104 determines that the extended timeout time. Is obtained by subtracting the elapsed time from the start of standby based on the above (when the network controller 104 starts measuring the extended timeout time) until the communication disconnection at S53 from the extended timeout time. Redial control (S52) may be executed within the time range.

  According to this, even when the communication request is interrupted by interrupting the waiting for the connection request and the redial control is entered, the situation where the redial control continues to be executed beyond the extended waiting time is avoided, It is possible to avoid a situation where communication processing by the communication device is occupied for a long time by executing waiting or redial control.

  The present invention is not limited to the configuration of the above embodiment, and various modifications can be made. For example, in each of the above embodiments, the facsimile communication with the communication partner by the MFP 1 is performed by IP communication, for example, the facsimile function on the IP network using the call control function by SIP. An arbitrary protocol can be used for communication after being connected to the destination. For example, another network communication, for example, an Internet facsimile function or the like may be used.

  In each of the above embodiments, the communication apparatus according to the present invention is described as a multifunction peripheral and a facsimile apparatus, but the communication apparatus according to the present invention is not limited to this. For example, when the communication apparatus according to the present invention is a personal computer and communication is performed from the personal computer or the like to a communication partner apparatus, the communication processing described in each of the above embodiments may be performed.

  The configurations and processes shown in the above embodiments using FIGS. 1 to 6 are only one embodiment of the present invention, and the present invention is not limited to the configurations and processes.

1 MFP 10 Control Unit 91 Network Interface Unit 100 Main Control Unit 104 Network Control Unit 105 Timeout Management Unit 611 Display Unit

Claims (5)

A communication control unit that performs a request request with a communication partner, a response from the communication partner, and a response to the request by SIP (Session Initiation Protocol);
When the connection processing according to the connection request transmitted to the communication partner as the request by the communication control unit is not performed with the communication partner, the connection process is executed by the communication partner. A timeout management unit for setting a waiting time for the communication control unit to wait to be performed,
In response to the connection request transmitted to the communication partner, the timeout manager receives a response received from the communication partner by the communication control unit, and a connection process corresponding to the connection request is queued. The waiting time is extended by a predetermined time,
The communication control unit waits for the connection process according to the connection request to be executed by the communication partner based on the standby time extended by the timeout management unit, and the extended standby time has elapsed. After that, a communication device that stops the standby and disconnects communication. A notification unit for notifying an operator of operation guidance;
And a notification control unit configured to notify the notification unit of a message indicating that the connection processing according to the connection request is waiting when the timeout management unit extends the standby time by a predetermined time. Item 4. The communication device according to Item 1.   When the communication control unit waits for the connection process based on the standby time extended by the predetermined time and a request for another communication is newly generated, the communication control unit is extended. The communication device according to claim 1 or 2, wherein the communication is disconnected by canceling the standby without waiting for the elapse of the standby time. The communication control unit performs redial control to execute a process of transmitting the connection request to the same communication partner after a communication disconnection due to the elapse of the standby time, a predetermined number of times for each predetermined period,
The time-out management unit extends the standby time within a time range determined by multiplying the predetermined period and the predetermined number of times when the standby time is extended by a predetermined time. The communication apparatus according to claim 1, wherein a predetermined time is determined.   When the communication control unit stops the standby and disconnects communication without waiting for the extended standby time to elapse, the communication control unit disconnects the communication from the start of the standby based on the extended standby time. The communication device according to claim 3, wherein the redial control is performed in a time range obtained by subtracting an elapsed time until the time from the extended waiting time.