JP2012070339A - Communication apparatus - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a technique capable of determining appropriate retransmission timing.SOLUTION: A multifunctional machine uses a user-designated domain name to establish a communication session with a specific device identified with the domain name (S14). The multifunctional machine uses the domain name to acquire time information on time in a first installation district in which the specific device is installed (S28). When the communication session cannot be established (S14: NO), the multifunctional machine uses the acquired time information to determine retransmission time for retransmitting data to the specific device (S34). The multifunctional machine retransmits the data to the specific device at the determined retransmission time (S38).

Description

  The present specification discloses a communication device connected to a network.

  Patent Document 1 discloses a transmission source facsimile apparatus that transmits data to a transmission destination facsimile apparatus designated by a user. When the transmission source facsimile apparatus cannot transmit data to the transmission destination facsimile apparatus, it retransmits the data at a predetermined timing.

JP-A-3-126369

  There is a possibility that the power of the data transmission destination device is turned off at the timing when the data is retransmitted. In this case, the data transmission source device cannot retransmit the data to the data transmission destination device.

  For example, because there is a time difference between the source area where the source device is installed and the destination area where the destination device is installed, the source area is daytime and the destination area There can be situations that are night. From the viewpoint of environmental problems or the like, the power source of the destination device may be turned off during the night time when the destination device is not used. In this case, the transmission source device cannot retransmit data to the transmission destination device whose power is turned off.

  The present specification provides a technique capable of determining an appropriate retransmission timing.

  The technology disclosed by this specification is a communication device connected to a network. The communication apparatus includes a transmission unit, an acquisition unit, a determination unit, and a retransmission unit. The transmission unit transmits specific data to a specific device identified by the first identification information, using the first identification information designated by the user. The transmission unit transmits the specific data to the specific device using a communication path established between the communication apparatus and the specific device. An acquisition part acquires the specific time information regarding the time of the 1st installation area where said specific device is installed using 1st identification information. The determination unit determines a retransmission timing for retransmitting the specific data to the specific device using the acquired specific time information when the transmission of the specific data fails. To do. The retransmission unit retransmits the specific data to the specific device at the determined retransmission timing.

  In this communication apparatus, when transmission of specific data fails, the retransmission timing for retransmitting the specific data to the specific device is determined using the acquired specific time information. As a result, the communication apparatus can determine an appropriate retransmission timing in consideration of the time of the first installation area where the specific device is installed. According to this configuration, for example, the communication apparatus can determine the retransmission timing while avoiding a time period in which the power of the specific device is highly likely to be turned off.

  The acquisition unit acquires the first installation area information indicating the first installation area using the first identification information, and uses the acquired first installation area information to obtain the specific time information. You may get it. According to this configuration, the communication device can appropriately acquire the specific time information.

  The specific time information may be information indicating a time difference between the time of the first installation area and the time of the second installation area where the communication device is installed. According to this configuration, the communication apparatus can determine an appropriate retransmission timing using information indicating a time difference between the time of the first installation area and the time of the second installation area.

  The acquisition unit may include a first time difference information acquisition unit and a second time difference information acquisition unit. A 1st time difference information acquisition part may acquire the 1st time difference information between world standard time and the time of a 1st installation area using 1st identification information. The second time difference information acquisition unit acquires second time difference information between the world standard time and the time of the second installation region, using the second identification information for identifying the communication device. May be. The acquisition unit uses the acquired first time difference information and the acquired second time difference information to determine the time difference between the time of the first installation area and the time of the second installation area. The specific time information may be acquired by calculating. According to this configuration, the communication device can appropriately acquire the specific time information.

  The first time difference information acquisition unit acquires the first installation area information indicating the first installation area using the first identification information, and uses the acquired first installation area information to The time difference information may be acquired. The second time difference information acquisition unit acquires second installation area information indicating the second installation area using the second identification information, and uses the acquired second installation area information to The time difference information may be acquired. According to this configuration, the communication device can appropriately acquire the first and second time difference information.

  The acquisition unit may acquire first installation area information indicating the first installation area using the first identification information. For each of the plurality of regions, the acquisition unit uses the first set region information from the server that stores the business hours information indicating the standard business hours of the organization existing in the region. You may provide the business hours information acquisition part which acquires the business hours information corresponding to an installation area. The determination unit obtains the acquired specific time information and the acquired business hours information so that the specific data is retransmitted within the business hours indicated by the business hours information corresponding to the first installation area. And the retransmission timing may be determined. According to this configuration, the communication device can retransmit the specific data within the standard business hours of the organization existing in the first installation area. That is, the communication apparatus can determine the retransmission timing while avoiding the time period in which the power of the specific device is turned off.

  The determination unit may determine the retransmission timing using the acquired specific time information so that the specific data is retransmitted at a predetermined local time in the first installation area. . According to this configuration, the communication device can retransmit the specific data at a predetermined local time in the first installation area. That is, the communication apparatus can determine the retransmission timing while avoiding the time zone in which the power of the specific device is turned off.

  The specific time information may be information indicating the time of the first installation area. According to this configuration, the communication apparatus can determine an appropriate retransmission timing using information indicating the time of the first installation area.

  The retransmission unit may not retransmit the specific data to the specific device after the retransmission timing is determined and before the specific data is retransmitted at the retransmission timing. According to this configuration, since the retransmission process is not executed until the retransmission timing, the processing load on the communication apparatus can be reduced.

  Note that a control method, a computer program, and a computer-readable storage medium storing the computer program for realizing the communication device are also novel and useful. A system including the communication apparatus and the server is also new and useful.

The structure of a network system is shown. The flowchart of a data transmission process is shown.

(Network system configuration)
As shown in FIG. 1, the network system 2 includes a plurality of multi-function devices 10 and 120, a DNS server 200, a WHOIS server 300, a time difference server 400, a business time server 500, an SNTP (Simple Network Time Protocol). ) Server 600. The multi-function devices 10 and 120 are connected via the Internet 4 so that they can communicate with each other. The multi-function device 10 is communicably connected to the servers 200 to 600 via the Internet 4.

(Configuration of multi-function device)
The multi-function device 10 has a multi-function such as a print function and a scan function. The multi-function device 10 includes an operation unit 12, a display unit 14, a network interface 16, and a control unit 20. The control unit 20 includes a CPU 22 and a memory 30. The CPU 22 executes processing according to the program 32 stored in the memory 30. When the CPU 20 executes processing according to the program 32, the functions of the transmission unit 40, the acquisition unit 42, the determination unit 44, and the retransmission unit 46 are realized. The acquisition unit 42 includes a first time difference information acquisition unit 42a, a second time difference information acquisition unit 42b, and a business hours information acquisition unit 42c.

  The memory 30 stores a program 32 executed by the CPU 22. The program 32 is preinstalled in the multi-function device 10 when the multi-function device 10 is shipped. In the modification, the control unit 20 may acquire the program 32 from a server provided by the vendor of the multi-function device 10 and store the program 32 in the memory 30. In another modification, the control unit 20 may acquire the program 32 from a recording medium such as a USB memory connected to the multi-function device 10 and store the program 32 in the memory 30.

  The program 32 includes an SMTP server program for the CPU 22 to execute an SMTP (Simple Mail Transfer Protocol) server function, and an SMTP client program for the CPU 22 to execute an SMTP client function. The SMTP server function is, for example, directly (directly) according to the SMTP procedure without using a specific e-mail server configured separately from the multi-function devices 10 and 120. Including a function for receiving an e-mail from the server (that is, a direct SMTP reception function). The SMTP client function has, for example, a function in which the multi-function device 10 directly transmits an e-mail to the multi-function device 120 in accordance with the SMTP procedure without using the specific e-mail server (that is, a direct SMTP transmission function). Including.

  Although not shown, the memory 30 further stores URLs of the servers 200 to 600.

  The multi-function device 120 has the same configuration as the multi-function device 10.

(Configuration of DNS server)
The DNS server 200 stores an IP address table 202. In the IP address table 202, a plurality of pieces of IP combination information 202a and 202b are recorded. Each of the IP combination information 202a and 202b is obtained by associating the domain name of the external device (for example, the multi-function device 120) with the global IP address of the external device. When the domain name and the global IP address are assigned to the device, the DNS server 200 acquires the domain name and the global IP address from the device and records them in the IP address table 202. In a modification, the administrator of the DNS server 200 may record the domain name and global IP address of the device in the IP address table 202 when the domain name and global IP address are assigned to the device.

(Configuration of WHOIS server)
The WHOIS server 300 stores a country information table 302. In the country information table 302, a plurality of pieces of country combination information 302a and 302b are recorded. Each country combination information 302a and 302b is obtained by associating a global IP address range with country information indicating a country in which the global IP address range is used. The administrator of the WHOIS server 300 records the country combination information 302 a and 302 b in the country information table 302.

(Configuration of time difference server)
The time difference server 400 stores a time difference table 402. In the time difference table 402, a plurality of time difference combination information 402a and 402b are recorded. Each time difference combination information 402a, 402b is obtained by associating country information with the time difference of the country time indicated by the country information with respect to UTC (Universal Time, Coordinated, Coordinated Universal Time). For example, there is a country such as the United States of America having a plurality of regions with different time differences with respect to UTC. In this case, the time difference table 402 records the time difference between UTC and the time of the latest area that reaches a specific time (for example, 9 am) among a plurality of areas. The administrator of the time difference server 400 records the time difference combination information 402 a and 402 b in the time difference table 402.

(Business hours server configuration)
The business hours server 500 stores a business time table 502. In the business hours table 502, a plurality of business hours combination information 502a is recorded. Each business hours combination information 502a is obtained by associating country information with standard business start time information of an organization (company, store, etc.) existing in the country indicated by the country information. In the business start time information, the day of the week and the business start time are associated with each other. For example, in Germany, the business start time from Monday to Friday is 9 am, and the business start time from Saturday is 10 am, so Monday to Friday correspond to 9 am (9:00). It is recorded, and Saturday and 10:00 am (10:00) are recorded in association with each other. The administrator of the business hours server 500 records the business time combination information 502 a in the business hours table 502.

(Configuration of SNTP server)
The SNTP server 600 is a server for providing the current UTC to the external device in response to a request from the external device (for example, the multi-function device 10).

(Data transmission processing executed by multi-function devices)
Next, with reference to FIG. 2, the data transmission processing by the direct SMTP transmission function executed by the multi-function device 10 will be described. The user of the multi-function device 10 can apply an operation for causing the multi-function device 10 to scan a document to the operation unit 12. In addition, the user of the multi-function device 10 can add a designation operation for designating a domain name (for example, AAA.com) of a transmission destination of data obtained by scanning to the operation unit 12. The above designation operation may be an operation for selecting a domain name from an address book (not shown) in the memory 30 or an operation for directly inputting a domain name. Hereinafter, a case where the user specifies the domain name (AAA.com) of the multi-function device 120 will be described as an example.

  In S <b> 12, the control unit 20 transmits the domain name designated by the user to the DNS server 200. The DNS server 200 identifies the global IP address (XX.XX.64.10) recorded in the IP address table 202 in association with the domain name (AAA.com) received from the multi-function device 10. The DNS server 200 transmits the specified global IP address to the multi-function device 10. As a result, in S <b> 12, the control unit 20 acquires a global IP address corresponding to the domain name designated by the user (that is, the global IP address of the multi-function device 120) from the DNS server 200.

  Next, in S <b> 14, the transmission unit 40 tries to establish a communication session (that is, a communication path) with the multi-function device 120 according to the SMTP client program of the program 32. Specifically, the transmission unit 40 first transmits a connection request according to the SMTP procedure, with the global IP address acquired in S12 as a transmission destination. The transmission unit 40 monitors reception of connectable information (that is, 250 OK) indicating that connection is possible as a response to the connection request. When receiving the connectable information from the multi-function device 120, the transmission unit 40 determines that a communication session has been established (YES in S14), and proceeds to S16. Note that “a communication session is established between the multi-function device 10 and the multi-function device 120” means, for example, that “a communication path capable of data communication between the multi-function device 10 and the multi-function device 120 is established. Or “the multi-function device 10 and the multi-function device 120 are connected so that data communication is possible”.

  In S <b> 16, the transmission unit 40 transmits data to the multi-function device 120 using the established communication session. Specifically, the transmission unit 40 transmits an electronic mail including the above data according to the SMTP client program of the program 32. The multi-function device 120 receives the e-mail according to the SMTP server program. That is, the multi-function device 120 receives an e-mail from the multi-function device 10 without going through an e-mail server configured separately from the multi-function device 120. Next, in S18, the control unit 20 causes the display unit 14 to display information indicating that data transmission has been executed (that is, information indicating completion of data transmission), and ends the data transmission process.

  On the other hand, when a communication session has not been established with the multi-function device 120 (NO in S14), the control unit 20 executes the processing from S20 to S40. For example, a communication session is not established between the multi-function device 10 and the multi-function device 120 when the power of the multi-function device 120 is turned off. In the following situation, the power of the multi-function device 120 may be turned off. That is, because the current time (for example, 3:00 am) in the country where the multi-function device 120 is installed (Germany in this embodiment) is outside the business hours of the organization (company, store, etc.) having the multi-function device 120. In addition, the power of the multi-function device 120 is turned off. In this case, the multi-function device 10 cannot transmit data to the multi-function device 120 until the organization starts business.

  In S20, the first time difference information acquisition unit 42a acquires, from the WHOIS server 300, country information indicating the country in which the global IP address acquired in S12 is used. Specifically, the first time difference information acquisition unit 42a transmits the global IP address acquired in S12 to the WHOIS server 300. The WHOIS server 300 identifies the country information (ie, Germany) recorded in the country information table 302 in association with the global IP address (ie, XX.XX.64.10) received from the multi-function device 10. Next, the WHOIS server 300 transmits the specified country information to the multi-function device 10. As a result, the first time difference information acquisition unit 42a acquires the country information transmitted from the WHOIS server 300.

  In S22, the first time difference information acquisition unit 42a acquires, from the time difference server 400, the time difference between the country time indicated by the country information acquired in S20 and UTC. Specifically, the first time difference information acquisition unit 42a transmits the country information acquired in S20 to the time difference server 400. The time difference server 400 specifies the time difference (that is, +2 (time)) recorded in the time difference table 402 in association with the country information (that is, Germany) received from the multi-function device 10. Next, the time difference server 400 transmits the specified time difference to the multi-function device 10. As a result, the first time difference information acquisition unit 42a acquires the time difference from the time difference server 400. By the processing of S20 and S22, the first time difference information acquisition unit 42a can appropriately acquire the time difference from the time difference server 400. In the modification, the time difference table 402 may be stored in the memory 30 of the multi-function device 10. In this case, the first time difference information acquisition unit 42a acquires the time difference associated with the country information acquired in S20 from the time difference table 402 in the memory 30.

  In S <b> 24, the second time difference information acquisition unit 42 b acquires country information indicating the country in which the multi-function device 10 is installed from the WHOIS server 300. Specifically, the second time difference information acquisition unit 42 b transmits the global IP address of the multi-function device 10 to the WHOIS server 300. The WHOIS server 300 associates the country information (Japan in this embodiment) recorded in the country information table 302 in association with the global IP address (for example, ZZ.ZZ.128.10) received from the multi-function device 10. Identify. Next, the WHOIS server 300 transmits the specified country information to the multi-function device 10. As a result, the second time difference information acquisition unit 42b acquires country information from the WHOIS server 300. In the modified example, country information indicating the country in which the multi-function device 10 is installed may be stored in the memory 30 of the multi-function device 10. In this case, in S <b> 24, the second time difference information acquisition unit 42 b acquires country information from the memory 30.

  In S26, the second time difference information acquisition unit 42b transmits the country information acquired in S24 to the time difference server 400 in the same manner as in S22, so that the country time indicated by the country information acquired in S24 is obtained. The time difference between UTC and UTC (ie, +9 (time)) is acquired from the time difference server 400. Through the processes of S24 and S26, the second time difference information acquisition unit 42b can appropriately acquire the time difference from the time difference server 400.

  In S28, the acquisition unit 42 calculates the time difference between the country where the multi-function device 10 is installed (Japan) and the country where the multi-function device 120 is installed (Germany). In Japan, the time difference from UTC is +9 hours. Germany has a +2 hour time difference from UTC. Therefore, the German time is -7 hours of Japanese time. According to this configuration, the multi-function device 10 appropriately acquires the time difference between the country where the multi-function device 10 is installed (Japan) and the country where the multi-function device 120 is installed (Germany) ( That is, it can be calculated.

  In S30, the acquisition unit 42 calculates the current date and time of the country where the multi-function device 10 is installed. Specifically, first, the acquisition unit 42 acquires UTC from the SNTP server 600. Next, the acquisition unit 42 adds the time difference acquired in S26 (that is, +9 hours) to the acquired UTC (for example, 5:00 am on September 15, 2010), so that the current time of the multi-function device 10 is increased. The date and time (for example, September 15, 2010, 10:00 am) is calculated. In the modification, the multi-function device 10 may have a clock function. In this case, the acquisition unit 42 may acquire the current date and time of the multi-function device 10 using a clock function built in the multi-function device 10.

  In S32, the business hours information acquisition unit 42c acquires the business start time information of the country (that is, Germany) indicated by the country information acquired in S20 from the business hours server 500. Specifically, the business hours information acquisition unit 42c transmits the country information (Germany) acquired in S20 to the business hours server 500. The business hours server 500 identifies the business start time information recorded in the business hours table 502 in association with the country information (Germany) received from the multi-function device 10. Next, the business hours server 500 transmits the specified business start time information to the multi-function device 10. As a result, the business hours information acquisition unit 42 c acquires business start time information from the business hours server 500.

  In S34, the determination unit 44 determines the data retransmission time. Specifically, first, the determination unit 44 calculates the time difference (−7 hours) calculated in S28 and the current date and time information (September 15, 2010, 10:00 am) acquired in S30. , The current date and time (September 15, 2010, 3:00 am) of the country (Germany) in which the multi-function device 120 is installed is calculated. Next, the determination unit 44 uses the current date and time of the country (Germany) in which the multi-function device 120 is installed and the calendar function built in the multi-function device 10 to install the multi-function device 120. Identify the current day of the week (eg Wednesday) in the country (Germany). Subsequently, the determination unit 44 specifies the business start time (9:00 am) associated with the specified day of the week from the business start time information acquired in S32. The determination unit 44 uses the current date and time (3:00 am) of the country (Germany) in which the multi-function device 120 is installed, and the specified business start time (9:00 am), The retransmission timing for retransmitting data after the start time is calculated. In this embodiment, the determination unit 44 calculates a retransmission timing (that is, after 6 hours) that coincides with the business start time. In a modified example, a retransmission timing after the business start time (for example, after 7 hours) may be calculated. Next, the determination unit 44 adds the calculated retransmission timing (6 hours later) to the current date and time information in Japan (September 15, 2010, 10:00 am) acquired in S30. The retransmission time of data (September 15, 2010, 4:00 pm) is determined. According to this configuration, it is possible to determine an appropriate retransmission timing using the time difference (−7 hours) calculated in S28.

  Note that when the retransmission timing (after 6 hours) is calculated, the retransmission unit 46 measures 6 hours by executing a timer function (not shown) built in the multi-function device 10. In S36, the retransmission unit 46 causes the display unit 14 to display the retransmission time determined in S34.

  Next, in S38, when the retransmission unit 46 acquires information indicating that 6 hours have been measured from the timer function, the retransmission unit 46 retransmits the data to the multi-function device 120 using the same method as in S16. According to this configuration, it is possible to retransmit data while avoiding the business hours of the organization having the multi-function device 120, that is, avoiding a time zone in which the power of the multi-function device 120 is likely to be OFF . Further, in this embodiment, data is retransmitted at a timing that coincides with the business start time in Germany, so that data can be retransmitted as early as possible. Note that, when the retransmission timing is determined, the retransmission unit 46 does not execute the retransmission process until the retransmission timing, so that the processing load on the first multi-function device 10 can be reduced.

  When the data is retransmitted, in S40, the control unit 20 causes the display unit 14 to display information indicating that the data retransmission has been executed, and ends the process.

(Effect of this embodiment)
In the multi-function device 10, when a communication session is not established with the data transmission destination device (NO in S14 of FIG. 2), the current time in the area where the data transmission destination device is installed is used. The retransmission timing (S34 in FIG. 2) is determined. As a result, an appropriate retransmission timing is determined in consideration of the current time in the area where the data transmission destination device is installed. According to this configuration, the multi-function device 10 can retransmit data while avoiding a time period in which the power of a device to which data is to be transmitted is likely to be off.

  The correspondence between each element of the first embodiment and each element of the present invention will be described. The multi-function device 10 is an example of a “communication device”, and the multi-function device 120 is an example of a “specific device”. The domain name is an example of “first identification information”, and the global IP address of the multi-function device 10 is an example of “second identification information”. A communication session is an example of a “communication path”. The time difference between the country in which the multi-function device 10 is installed and the country in which the multi-function device 120 is installed is an example of “specific time information”. UTC is an example of “world standard time”. A case where a communication session (communication path) is not established between the multi-function device 10 and a data transmission destination device is an example of “a case where transmission of specific data fails”.

(Second embodiment)
Differences from the first embodiment will be described. The network system 2 of this embodiment does not include the business hours server 500. The memory 30 stores a retransmission execution time (for example, 10:00 am) determined in advance by the user of the multi-function device 10.

(Multifunction device data transmission processing)
The processing from S12 to S30 in FIG. 2 is the same as in the first embodiment. In the present embodiment, the following processing is executed instead of the processing of S32 and S34 in FIG. That is, when the processing of S30 is executed, the determination unit 44 transmits the data so that the data is retransmitted at the timing when the time of the country in which the multi-function device 120 is installed becomes the retransmission execution time in the memory 30. The retransmission time (time in Japan) is determined. Next, the processing from S36 to S40 in FIG. 2 is executed.

  In the second embodiment, the same effects as in the first embodiment can be obtained. Further, the multi-function device 10 does not have to acquire business start time information from the business time server 500.

(Third embodiment)
Differences from the first embodiment will be described. In the present embodiment, the data transmission process executed by the multi-function device 10 is different.

(Multifunction device data transmission processing)
The processing from S12 to S26 in FIG. 2 is the same as that in the first embodiment. The process of S28 in FIG. 2 is not executed. The processes in S30 and S32 in FIG. 2 are the same as those in the first embodiment. In the present embodiment, the following processing is executed instead of S34 in FIG. That is, when the process of S32 is executed, the determination unit 44 determines the retransmission time. Specifically, the determination unit 44 determines the time difference acquired in S22 of FIG. 2 (the time difference between the time of the country where the multi-function device 120 is installed and UTC) and the current UTC acquired from the SNTP server 600. Then, the current time of the country (Germany) in which the multi-function device 120 is installed is calculated. Next, using the calculated current time in Germany (for example, 3:00 am) and the business hours information (for example, 9:00 am) acquired in S32 of FIG. 2, the retransmission timing (after 6 hours) (Resend) is determined.

  When the above processing is executed instead of S36 in FIG. 2, the retransmission unit 46 causes the display unit 14 to display the determined retransmission timing (after 6 hours). The processes in S38 and S40 in FIG. 2 are the same as those in the first embodiment. According to this configuration, an appropriate retransmission timing can be determined using the current time of Germany (the country in which the multi-function device 120 is installed) calculated in S28.

  In the third embodiment, the same effects as in the first embodiment can be obtained. In the present embodiment, the current time in the country where the multi-function device 120 is installed is an example of “specific time information”.

(Modification)
As mentioned above, although embodiment of this invention was described in detail, these are only illustrations and do not limit a claim. The technology described in the claims includes various modifications and changes of the specific examples illustrated above.

(1) In the above embodiment, when determining the retransmission time, the retransmission time is determined using the current date and time information of the countries (Japan and Germany) in which the multi-function devices 10 and 120 are installed. However, the determination unit 44 may convert the business hours information (9:00 am) acquired in S32 into Japanese time using the time difference (−7 hours) calculated in S28 (afternoon 4:00). The determination unit 44 may determine the converted time as the retransmission time. In the first embodiment, the business start time information acquired from the business time server 500 is obtained by associating the day of the week and the business start time. However, in this embodiment, the business start time information is one business start time and may not be associated with the day of the week. In this case, the latest business start time may be the business start time information.

(2) In the above embodiment, the acquisition unit 42 acquires the time difference between the time of the country where the multi-function device 120 is installed and UTC. However, the acquisition unit 42 may acquire the current time in the country where the multi-function device 120 is installed. For example, when acquiring the request information including the country information, the acquisition unit 42 may acquire the current time from a server that provides the current time of the country indicated by the country information as a response to the request information. In this case, the acquisition unit 42 may not acquire the time difference between the time of the country where the multi-function device 120 is installed and UTC from the time difference server 400. The acquisition unit 42 may acquire the current time in the country where the multi-function device 10 is installed, as in the above method.

(3) The memory 30 of the multi-function device 10 may store at least one of the tables 202 to 502. In this case, the acquisition unit 42 may acquire the predetermined information by specifying the predetermined information from the table in the memory 30. This configuration can also be said to be “the acquisition unit acquires predetermined information”. For example, the first time difference information acquisition unit 42a acquires the country information by specifying the country information indicating the country in which the multi-function device 120 is installed from the country information table 302 in the memory 30. This is equivalent to “the first time difference information acquisition unit 42a acquires country information indicating the country in which the multi-function device 120 is installed”.

(4) In the above embodiment, the multi-function device 10 transmits data via the Internet 4. However, the multi-function device 10 may be capable of transmitting data via PSTN (Public Switched Telephone Networks). In this case, the user of the multi-function device 10 may specify a FAX number (for example, 49-11-111-1111) as a data transmission destination. In this case, the acquisition unit 42 may acquire the country information by using a portion corresponding to the country code (“49” in the above example) in the FAX number. In the present modification, the FAX number is an example of “first identification information”. The acquisition unit 42 may acquire the country information from a table in which the country code and the country information indicating the country specified by the country code are associated with each other.

  When data is to be transmitted through the PSTN, when the FAX number is designated by the user, the transmission unit 40 may designate the designated FAX number as a transmission destination and transmit a call signal. The device that has received the call signal may transmit a response signal to the multi-function device 10 as a response to the call signal. When receiving the response signal as a response to the calling signal, the transmission unit 40 may determine that the communication path has been established (YES in S14 of FIG. 2). On the other hand, the transmitter 40 may determine that the communication path has not been established when the response signal cannot be received as a response to the call signal (NO in S14 of FIG. 2).

(5) In the above embodiment, the transmission unit 40 cannot execute a process for establishing a communication session between the multi-function device 10 and a data transmission destination device, and cannot establish a communication session. If this happens (NO in S14 of FIG. 2), the process of S20 is executed. However, the transmission unit 40 may execute the session establishment process for establishing the communication session again when the communication session cannot be established. The transmission unit 40 may execute the process of S20 when the communication session is not established even if the session establishment process is continuously performed a plurality of times. There is a situation in which a communication session has already been established between the multi-function device 120 and another device, and a communication session has not been established between the multi-function devices 10 and 120. In this situation, when the communication session between the multi-function device 120 and other devices is terminated, the multi-function device 10 may establish a communication session with the multi-function device 120. For this reason, a communication session can be established between the multi-function devices 10 and 120 by continuously executing the session establishment process over a plurality of times.

(6) In the above embodiment, the user of the multi-function device 10 designates the domain name as the transmission destination. However, the user of the multi-function device 10 may specify a global IP address as a transmission destination. In this case, the acquisition unit 42 does not have to acquire a global IP address from the DNS server 200. In this modification, the global IP address is an example of “first identification information”.

(7) In the above embodiment, the time difference table 402 records the country information and the time difference between UTC in association with each other. Instead, the time difference table 402 may record a global IP address range and a time difference between UTCs in association with each other. Similarly, in the above embodiment, the country information and the business hours information are recorded in association with each other in the business hours table 502. Instead, the business hours table 502 includes a range of global IP addresses. And business hours information may be recorded in association with each other. In this case, the first and second time difference information acquisition units 42a and 42b transmit the global IP address acquired in S12 of FIG. 2 to each of the time difference server 400 and the business hours server 500, so that You may acquire time difference and business hours information. In this modification, the network system 2 may not include the WHOIS server 300.

(8) “World Standard Time” may be GMT (Greenwich Mean Time) or GPS time in addition to UTC.

(9) In the above embodiment, when a communication session cannot be established (NO in S14 of FIG. 2), the processing from S20 to S32 of FIG. 2 is executed. However, at least one of the processes from S20 to S32 in FIG. 2 may be executed before S14 in FIG.

(10) In the above embodiment, the multi-function device 10 measures the time until the retransmission timing by executing the timer function. However, the retransmission unit 46 may determine whether or not the retransmission time determined in S34 of FIG. 2 has been reached using a clock function built in the multi-function device. When it is determined that the retransmission time has come, the retransmission unit 46 may retransmit the data to the multi-function device 120.

(11) In the multi-function device 10, a function of turning off the power of the multi-function device 10 may be realized by the CPU 22 executing processing according to the program 32. For example, in a specific case in which the power of the multi-function device 10 is ON and the state where the control unit 20 does not execute a predetermined process (for example, printing process, data transmission process) is continued for a predetermined period of time. In addition, the control unit 20 may turn off the power of the multi-function device 10. In this case, when the retransmission time (that is, the retransmission timing) is determined (S34 in FIG. 2), the control unit 20 determines whether the data is retransmitted at the retransmission time, even in the above specific case. The 10 power supplies may be maintained in the ON state. In the multi-function device 10, a function of turning on the power of the multi-function device 10 may be realized by the CPU 22 executing a process according to the program 32. In this case, the control unit 20 may turn on the power of the multi-function device 10 when the power of the multi-function device 10 is OFF at the retransmission time. According to these configurations, it is possible to prevent a situation in which data is not retransmitted when the power of the multi-function device 10 is turned off.

(12) In the above embodiment, each unit 40 to 46 is realized by the CPU 20 of the multi-function device 10 executing the process according to the program 32. At least one of the units 40 to 46 is a logic circuit or the like. It may be realized by hardware.

(13) In addition to the multi-function device 10, the “communication device” may be a communication device such as a PC, a printer, or a PDA.

  The technical elements described in this specification or the drawings exhibit technical usefulness alone or in various combinations, and are not limited to the combinations described in the claims at the time of filing. In addition, the technology illustrated in the present specification or the drawings achieves a plurality of objects at the same time, and has technical utility by achieving one of the objects.

2: Network system, 4: Internet, 10, 120: Multi-function device, 40: Transmission unit, 42: Acquisition unit, 42a: First time difference information acquisition unit, 42b: Second time difference information acquisition unit, 42c: Sales Time information acquisition unit, 44: determination unit, 46: retransmission unit, 200: DNS server, 300: WHOIS server, 400: time difference server, 500: business hours server, 600: SNTP server

Claims (9)

A communication device connected to a network,
A transmission unit that transmits specific data to a specific device identified by the first identification information using the first identification information specified by a user, the communication device and the specific device The transmission unit that transmits the specific data to the specific device using a communication path established between the communication unit,
Using the first identification information, an acquisition unit that acquires specific time information related to the time of the first installation area where the specific device is installed;
A determination unit that determines a retransmission timing for retransmitting the specific data to the specific device, using the acquired specific time information when transmission of the specific data fails;
And a retransmission unit configured to retransmit the specific data to the specific device at the determined retransmission timing.   The acquisition unit acquires first installation area information indicating the first installation area using the first identification information, and uses the acquired first installation area information to identify the specific installation area. The communication apparatus according to claim 1, wherein time information is acquired.   The specific time information is information indicating a time difference between the time of the first installation area and the time of the second installation area where the communication device is installed. The communication device described. The acquisition unit
Using the first identification information, a first time difference information acquisition unit that acquires first time difference information between the world standard time and the time of the first installation area;
Second time difference information acquisition that acquires second time difference information between the world standard time and the time of the second installation area, using second identification information for identifying the communication device. And comprising
The acquisition unit uses the acquired first time difference information and the acquired second time difference information, and uses the time of the first installation area and the time of the second installation area. The communication device according to claim 3, wherein the specific time information is acquired by calculating a time difference between. The first time difference information acquisition unit acquires first installation area information indicating the first installation area using the first identification information, and uses the acquired first installation area information. And obtaining the first time difference information,
The second time difference information acquisition unit acquires second installation area information indicating the second installation area using the second identification information, and uses the acquired second installation area information. The communication apparatus according to claim 4, wherein the second time difference information is acquired. The acquisition unit uses the first identification information to acquire first installation area information indicating the first installation area;
For each of a plurality of regions, the acquisition unit uses the first set region information from a server storing business hours information indicating standard business hours of an organization existing in the region, A business hours information acquisition unit for acquiring the business hours information corresponding to the first installation area;
The determination unit includes the acquired specific time information and the acquired business time so that the specific data is retransmitted within business hours indicated by the business time information corresponding to the first installation area. The communication device according to claim 1, wherein the retransmission timing is determined using time information.   The determination unit determines the retransmission timing using the acquired specific time information so that the specific data is retransmitted at a predetermined local time in the first installation area. Item 6. The communication device according to any one of Items 1 to 5.   The communication device according to claim 1, wherein the specific time information is information indicating a time of the first installation area.   9. The retransmission unit according to claim 1, wherein the retransmission unit does not retransmit the specific data to the specific device after the retransmission timing is determined and before the specific data is retransmitted at the retransmission timing. The communication apparatus as described in any one.

Images