WO2018220718A1 - Dispositif s'adaptant au décalage horaire - Google Patents

Dispositif s'adaptant au décalage horaire Download PDF

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Publication number
WO2018220718A1
WO2018220718A1 PCT/JP2017/020119 JP2017020119W WO2018220718A1 WO 2018220718 A1 WO2018220718 A1 WO 2018220718A1 JP 2017020119 W JP2017020119 W JP 2017020119W WO 2018220718 A1 WO2018220718 A1 WO 2018220718A1
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WO
WIPO (PCT)
Prior art keywords
terminal
time
time difference
transmission
time zone
Prior art date
Application number
PCT/JP2017/020119
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English (en)
Japanese (ja)
Inventor
巧詞 中野
浄久 高橋
大 山本
Original Assignee
Oqta株式会社
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Oqta株式会社 filed Critical Oqta株式会社
Priority to PCT/JP2017/020119 priority Critical patent/WO2018220718A1/fr
Publication of WO2018220718A1 publication Critical patent/WO2018220718A1/fr

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    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F13/00Interconnection of, or transfer of information or other signals between, memories, input/output devices or central processing units
    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04MTELEPHONIC COMMUNICATION
    • H04M11/00Telephonic communication systems specially adapted for combination with other electrical systems

Definitions

  • the present invention relates to a time difference adjusting communication apparatus capable of adjusting a time difference between a transmitting side and a receiving side and transmitting a message.
  • the time zone where the partner is located may be midnight even if the time zone where the partner is located is in the daytime. If there is a time difference due to time zone differences, if you send a message, you can communicate like a messenger that sends text and images instead of a call, but the other party pushes notifications. If the setting is set to receive the sound and the sound is also sounded, the other party's mobile terminal may be sounded at midnight. Therefore, it is necessary to select the transmission timing on the transmission side in order not to communicate at the time when the other party is assumed to be sleeping.
  • the present invention has an object to provide a time difference adjusting communication device that enables a sender who wants to send a message to transmit without worrying about the time difference from the time zone where the receiver is located.
  • the time difference adjusting communication device is a time difference adjusting communication device that adjusts a time difference and transmits message data from a transmitting terminal to a receiving terminal via a server.
  • the server stores message data.
  • a time zone detection unit that detects a time zone of the terminal, a time zone storage unit that stores a time zone for each terminal, and each time of the transmission terminal and the reception terminal stored in the time zone storage unit
  • a data transmission unit that transmits the message data stored in the message data storage unit based on a time difference between zones.
  • the time zone detecting unit for detecting the time zone of the terminal is provided, and the data transmitting unit is a time difference between each time zone of the transmitting terminal and the receiving terminal stored in the time zone storage unit. Since the message data is transmitted based on the message, the message data can be received by the receiving terminal at the same time as the local transmission from the transmitting terminal. You can send without worrying about the time difference.
  • FIG. 1 is a schematic diagram showing a configuration example of a time difference adjusting communication apparatus according to the present embodiment.
  • the time difference adjusting communication apparatus according to the present embodiment includes a server 10 serving as a center of data transmission / reception, a mobile terminal 12 serving as a transmission terminal, and a mobile terminal 14 serving as a reception terminal, and further includes a transmission switch device 16, a watch A shape receiving device 18 or the like can also be connected.
  • the server 10 can be connected to various devices by network communication such as the Internet, and transmits and receives data by connecting to a transmission terminal and a reception terminal using a program stored in a storage area in advance.
  • the server 10 can be connected to an administrator terminal 20 that performs program change or update via a network, and the administrator can perform necessary maintenance such as system update by operating the administrator terminal 20. .
  • time difference adjusting communication apparatus communication that connects two regions having a time difference is possible.
  • a portable terminal 12 that is a transmitting terminal in time zone A
  • the time The mobile terminal 14 as a receiving terminal exists in the time zone B having a time difference from the zone A.
  • time zone A is Japan
  • senders in Japan will be in a time zone with a time difference of +9 hours (UTC + 9) from Universal Time
  • recipients in Atlanta, USA will be The time difference from standard time is minus 4 hours (UTC-4, EDT daylight saving time), and there is a total time difference of 13 hours.
  • time difference adjusting communication apparatus such communication that connects two regions having a time difference can be provided with the time difference adjusted.
  • the time difference including zero can be adjusted by the time difference adjusting communication device of the present embodiment, but the effectiveness is small compared to the case where there is a time difference in size.
  • the mobile terminals 12 and 14 are devices that also function as mobile phones and can download various applications to expand the functions. Typically, the mobile terminals 12 and 14 are used for transmission and reception of the time difference adjusting communication device of the present embodiment. In order to be used as a terminal, a dedicated application is downloaded from a download site for a fee or free of charge, and the application is activated when used. Each of the mobile terminals 12 and 14 is equipped with a GPS module that receives radio waves from the GPS satellite 19, and can send GPS data as terminal position information to the server 10. Messages communicated by the mobile terminals 12 and 14 are transmitted from the mobile terminal 12 to the server 10 in the form of message data, and further transmitted from the server 10 to the receiving terminal 14.
  • the message data handled by the time difference adjusting communication device can include various data such as image data, moving image data, audio data as well as text data.
  • FIG. 1 shows only one transmission terminal and one reception terminal
  • the server 10 itself can handle a larger number of transmission terminals and reception terminals at the same time.
  • the mobile terminals 12 and 14 themselves can be simultaneously connected to the server 10 by changing the roles of transmission and reception.
  • the mobile terminal 14 is a receiving terminal in the communication of FIG. It can also be made to function as a transmitting terminal. Since the mobile terminals 12 and 14 also function as mobile communication terminals, signals can be transmitted to and received from a contracted mobile communication network, and GMM ((GPRS) (Mobility Management) Information is received and connected. It is also possible to send information related to the time zone to the server 10 instead of GPS data as the location information of the terminal after giving the mobile terminals 12 and 14 information such as the time difference between the world standard time and the region.
  • GPS Global System for Mobile Communications
  • FIG. 2 and 3 are diagrams showing a GUI (Graphic User Interface) of the mobile terminals 12 and 14 of the present embodiment.
  • FIG. 2 shows the mobile terminal 12 for transmission
  • FIG. 3 shows the mobile terminal 14 for reception. Yes.
  • the communication partner can be registered in advance like other SNS (social networking service), and it can also be used mutually with other SNS by setting an address book etc.
  • FIG. 2 shows a screen after transmitting a message by specifying a communication partner in the mobile terminal 12 for transmission.
  • FIG. 3 is a monitor screen showing a standby state of the receiving mobile terminal 14 on the receiver side, and an avatar and a nickname used by the receiver are displayed in the center of the screen.
  • the time difference adjusting communication apparatus can connect not only the mobile terminals 12 and 14 but also other devices as terminals.
  • the transmission switch apparatus 16 and the clock-type receiving terminal 18 can be connected. it can.
  • the transmission switch device 16 is a device that can be operated with one hand.
  • the transmission switch device 16 can be transmitted by pressing a push button 17 in the center, and can transmit voice data to a built-in microphone or the like to transmit message data. it can. Further, instead of recording the voice of the sender, it may be a pre-input text or simple sound, or a signal that only activates any device on the receiving side.
  • the transmission switch device 16 has, for example, a GPS module, and can send GPS data as terminal location information to the server 10.
  • the clock-type receiving terminal 18 is an example of a receiving terminal, has a display function as a clock, and also has a speaker that is a voice output device (not shown) for simultaneous messages.
  • the voice output apparatus may be a system that reproduces voice data sent as message data, or may be a system that reads out text sent as message data with machine voice.
  • the clock-type receiving terminal 18 is merely an example of various types of receiving terminals.
  • a robot-type receiving terminal can be used, and a predetermined application can be installed on a personal computer, or an example of the receiving terminal. Can be configured.
  • the time difference adjusting communication apparatus of the present embodiment can connect a plurality of devices such as portable terminals 12 and 14 to the server 10, but a required program is installed in the server 10 and stores message data.
  • a data transmission unit 26 for transmitting the message data stored in the message data storage unit 24 based on the time difference between the time zones of the receiving terminal.
  • FIG. 4 is a block diagram illustrating a configuration example of the server 10, and a control unit 22 for operating the server as a system is provided, and control of the control unit 22 allows data transmission / reception, message data storage, I / O is performed.
  • a message data storage unit 24 is connected to the control unit 22, and the message data storage unit 24 holds message data from the mobile terminal 12 for transmission via the input / output unit 30, a buffer (not shown), and the like.
  • the time zone detection unit 36 that detects the time zone of the terminal includes a terminal GPS storage unit 32 and a time zone calculation unit 34 in the time difference adjusting communication device of the present embodiment.
  • the terminal GPS storage unit 32 is a storage area for storing the GPS (Global Positioning System) information of each terminal, and holds data in a table format while distinguishing each terminal by the MAC address of the terminal.
  • the data to be held is, for example, information including time information and latitude / longitude information in the NMEA format output from the transmission terminal and the reception terminal, and these are stored in the terminal GPS storage unit 32.
  • the time zone calculation unit 34 is a processing unit for determining the time zone from the information stored in the terminal GPS storage unit 32. For example, the time zone calculation unit 34 performs processing such as resetting the time zone when the terminal crosses the time zone.
  • time zone data time zone data centered on UTC (Coordinated Universal Time) such as UTC + 14 and UTC-3 is stored for each terminal.
  • the server 10 further includes a data transmission unit 26 that transmits the message data stored in the message data storage unit 24 based on the time difference between the time zones of the transmission terminal and the reception terminal stored in the time zone storage unit 38.
  • the timing for transmitting the message data is based on the time difference of the time zone, and is the time with no time difference in the local time. That is, if the time zone A of the transmitting terminal 12 is, for example, UTC + 9 and the time zone B of the receiving mobile terminal 14 is UTC-4, there is a time difference of 13 hours, and the time at which there is no time difference in local time is The mobile terminal 12 transmits the message so that the message is received 13 hours after the message is transmitted.
  • the transmission time and the time zone for transmission are recorded together with the message by the operation of the mobile terminal 12.
  • the partner ID of the application of the time difference adjusting communication device linked with the partner's telephone number, partner's e-mail address, partner's SNS data, etc.
  • the partner ID is associated with an avatar and a nickname, and can be controlled to be displayed on the screen by output from a member storage area of an application (not shown).
  • the control unit 22 acquires the GPS information of the mobile terminal 14 for reception, and calculates the time difference from the time zone.
  • the calculated time difference is 13 hours
  • a timer 28 for transmitting after 13 hours is set, and after 13 hours, the data transmitting unit 26 is operated to direct the server 10 to the portable terminal 14 for reception. To send a message.
  • FIG. 5 is a diagram illustrating an example of a data format transmitted from the mobile terminal 12 for transmission.
  • a header side 41 is followed by a transmitter side position information data unit 42 including GPS side information on the transmitter side, followed by receiver terminal data 43 on the receiver side, followed by message data 44.
  • the transmission-side position information data 42 includes time information, latitude / longitude information, etc. in the NMEA format of the portable terminal 12 for transmission.
  • the receiving terminal data unit 43 on the receiving side includes information such as a partner ID, for example, and the MAC address of the mobile terminal 14 for reception linked to the partner ID from a memory table (not shown) of the control unit 22 Is used to acquire GPS position information of the mobile terminal 14 for reception.
  • the message data 44 can be various files and data such as text, still images, moving images, and voices from the sender.
  • the message data 44 is a device that outputs only a limited sound to the receiving terminal. In such a case, a signal for operating the terminal may be included.
  • the time difference adjusting communication apparatus of the present embodiment having the above-described configuration can perform communication with the time difference adjusted in the flow shown in FIG.
  • FIG. 6 is a diagram showing data transmission between terminals centering on a server, and is a time chart in which time flows from top to bottom. It is assumed that an application for performing time difference adjustment communication has already been installed in the transmission terminal, and some IDs of other parties that can already be transmitted are registered in the transmission terminal. Furthermore, an application for performing time difference adjustment communication is also installed in the mobile terminal for reception. In use, first, the sender activates an application for communication adjusted for time difference (time t 0 ), and the GPS location information of the sender's terminal is taken into the portable terminal by this activation (time t 1 ).
  • the communication partner After starting the application, select the communication partner (recipient) from data such as contact information. When there are a plurality of selected opponents, adjustments are performed in consideration of each opponent's time zone. After selecting a communication partner and records the message at time t 2.
  • the message here is, for example, a moving image such as mp4, and once stored in the mobile phone for transmission, if confirmation is obtained on the transmission confirmation screen, the message is transmitted to the server (time t 3 ).
  • data is transmitted from the transmission terminal to the server.
  • the data at this time includes GPS position information of the place where the transmitting terminal is located, and is received by the server.
  • the message data in the data is stored in the message data storage unit 24, and the GPS position information in the data is stored in the terminal GPS storage unit 32.
  • the server receives data from the transmission terminal, the time zone of the transmission terminal and the time zone of the reception terminal are determined. The work of determining the time zone of the terminal for transmission is performed using the GPS position information of the terminal for transmission stored in the terminal GPS storage unit 32 and processed by the time zone calculation unit 34, for example, latitude information and longitude information.
  • the time zone of the transmission terminal is calculated from the position of the transmission terminal.
  • the time zone of the terminal for reception is also determined. That is, at time t 4 , the control unit 22 identifies the receiving terminal from the partner ID included in the transmission data, and the server itself asks the receiving terminal to acquire the GPS position information. In response, the receiving terminal returns its GPS position information via an application for performing time difference adjustment communication.
  • the time zone of the receiving mobile terminal is calculated from the GPS position information of the receiving mobile terminal.
  • the calculation method is the same as the time zone determination of the transmitting portable terminal, and the time zone of the receiving terminal is calculated from the position of the receiving terminal based on, for example, latitude information and longitude information.
  • the time zone of the mobile terminal for reception is obtained.
  • the time zone of the mobile terminal for transmission already calculated and the time of the mobile terminal for reception are calculated. Both time zones of the zone are known, and a time difference that is the difference between the term zones is calculated (time t 5 ).
  • the control unit 22 adjusts the time by the time difference, and transmits a message when the adjusted time has elapsed. That is, in the control in the control unit 22, a timer 28 is activated, from the data transmitting section 26 the message data is transmitted to the portable terminal for received after lapse of the time difference amount (time t 6). For example, if the time difference is a difference in terms zone it is 13 hours, the waiting time from time t 5 to time t 6 becomes 13 hours, that the message is sent after the expiration of the time difference, the Recipient A message with no time difference is acquired. In the example of the apparatus shown in FIG.
  • a message is transmitted at 9 am in the time zone of the mobile terminal for transmission, and message data is transmitted from the server to the mobile terminal for reception after 13 hours,
  • the reception portable terminal receives the communication at 9:00 am, and the communication that does not feel the time difference is realized. If it is a moving image, any message like Oha will be received without a sense of incongruity.
  • the receiving terminal is located following the position at the time of operation of the transmitting terminal, but the receiving portable terminal may move to a different time zone, for example, .
  • the receiving portable terminal may move to a different time zone, for example, .
  • measure the time again during the waiting time or whether the mobile terminal for reception is moving or not and update the time zone of the mobile terminal for reception as needed
  • the waiting time is adjusted again, and it becomes possible to receive a message with no time difference.
  • a message can be transmitted by automatically adjusting the difference between the time zones of the transmitting side and the receiving side.
  • the transmission side can be further provided with a function to readjust the time difference by increasing / decreasing an arbitrary time, and such selection can be performed at the time of transmission.
  • FIG. 7 is a block diagram illustrating a configuration example of the server according to the second embodiment.
  • a control unit 22 for operating the server as a system is provided. Under the control, data transmission / reception, message data storage and input / output are performed.
  • a message data storage unit 24 is connected to the control unit 22, and the message data storage unit 24 holds message data from the mobile terminal 12 for transmission via the input / output unit 30, a buffer (not shown), and the like.
  • the time zone detection unit 36 that detects the time zone of the terminal includes a terminal GPS storage unit 32 and a time zone calculation unit 34 in the time difference adjusting communication device of the present embodiment.
  • the terminal GPS storage unit 32 is a storage area for storing GPS (global positioning system) information of each terminal
  • the time zone calculation unit 34 is a terminal GPS storage unit 32. Is a processing unit for determining the time zone from the information stored in.
  • the server of this embodiment is further provided with a period setting unit 50 connected to the control unit 22.
  • the period setting unit 50 is a functional unit for performing communication after adjusting the time difference after an arbitrary time. For example, a period such as one week, six months, ten years, or twenty years It is a functional unit for performing communication after adjusting the time difference after a relatively long period. In the embodiment in which such a period setting unit 50 is provided, it is possible to perform communication with a time difference adjusted by adding a time capsule function particularly at the time of transmission.
  • the sender activates the application, selects a transmission partner, and sets a period until transmission is started.
  • this period setting numbers can be input or dialed, and an arbitrary period of the sender can be set.
  • a message sent to the recipient after the elapse of the period can also be input.
  • FIG. 8 is a time chart of the time difference adjusting communication device of the present embodiment similar to the time chart of FIG.
  • an application for performing time difference adjustment communication is already installed in the transmission terminal, and some IDs of other parties that can already be transmitted are registered in the transmission terminal. And Furthermore, it is assumed that an application for performing time difference adjustment communication is also installed in the mobile terminal for reception.
  • the sender activates an application for communication adjusted for time difference (time t 10 ), and the GPS location information of the sender's terminal is captured by the portable terminal by this activation (time t 11 ).
  • a communication partner (recipient) is selected from data such as contact information, and a period until reception is set (time t 12 ).
  • this period setting an arbitrary period of the sender can be set.
  • a period of 3 years is set as an example.
  • the sender After setting the period, the sender inputs a message (time t 13 ).
  • the message input here is transmitted to the server as message data together with the GPS position information of the sender's terminal (time t 14 ).
  • the transmitted GPS location information of the terminal for transmission is used to determine the time zone of the terminal for transmission.
  • the message is stored in the message data storage unit 24 until the date immediately before the set period elapses. If the message is added or changed up to the date immediately before the set period elapses, the sender can access the server again to add or change the content of the message. It is also possible to change the setting period at.
  • the server activates data relating to the message.
  • the server first determines the time zone of the receiving terminal. That is, at time t 15, have been identified partner ID included in the transmission data, inquiry so that the server itself acquires GPS position information to the terminal for receiving a terminal for receiving time difference adjusted accordingly Send back your GPS location information through an application for communication. This is because it is preferable to detect the time zone of the partner terminal immediately before the period setting is a long period such as 3 years.
  • the server receives the GPS location information for the mobile terminal for receiving at time t 16, calculate the time zone from the GPS position information, and transmits a message to adjust the time difference of the receiving time zone as the transmitting side. For example, if the message transmission timing (time t 14 ) is 9:00 am, transmission is performed so that the receiving side also becomes 9:00 am in the time zone of the receiving terminal (time t 17 ). . Therefore, by using the time difference adjusting communication apparatus of the present embodiment, the receiver can receive a message in a form in which the time difference is adjusted even after a predetermined period has elapsed.
  • FIG. 9 is a diagram illustrating a screen of the portable terminal 60 that has received a message set for a period using the time difference adjusting communication apparatus of the present embodiment.
  • the message “Happy Birthday!” Is displayed as a sent message
  • the period set as “Record three years ago” is displayed. Then, the receiver can recognize that the message is delivered after the period, like a time capsule, by knowing the period.
  • the application can be operated by the same operation from when the application is started (time t 10 ) until the message is input (time t 13 ).
  • the data in the server is transmitted as message data together with GPS position information of the sender terminal. In the previous embodiment, this transmitted data is held in the server without access from the server to the receiving terminal.
  • a signal is also sent from the server to the receiving terminal, and at least for the period during which it is installed. Is started within the application of the receiving terminal (time t 25 ).
  • the server immediately before the set period elapses, that is, for example, 24 hours before the message recipient (time t 26 ) start access, on request (time t 27) from the server, the mobile terminal for receiving and transmitting the GPS location information at time t 28 (time t 28), to calculate the time zone from the GPS position information Then, the time difference between the time zones of the transmission side and the reception side is adjusted and the message is transmitted (time t 29 ). For example, if the timing (time t 14 ) at which a message is transmitted at the time of transmission is 9:00 am, the receiving side also performs transmission so that it is 9:00 am in the time zone of the terminal for reception (time t 29 ). . Therefore, by using the time difference adjusting communication apparatus of the present embodiment, the receiver can receive a message in a form in which the time difference is adjusted even after a predetermined period has elapsed.
  • the transmission format includes the GPS position information of the mobile terminal for reception in the data transmission from the reception terminal on the day immediately before the set period, data transmission / reception at times t 27 and t 28 can be omitted.
  • the push form from the server may cause the server to access the receiving terminal many times in vain, but the pull form from the receiving terminal By doing so, such a situation can be avoided.
  • a mobile phone is mainly used as a mobile terminal for transmission / reception, but the device constituting the terminal is not limited to the mobile phone, and is a device that can transmit GSP location information, and any signal Any other device or mechanism may be used as long as it can perform the above processing.
  • it may be a business processing device such as a clock, a camera, an electronic home appliance, an electronic photo frame, a computer, a tablet machine, or a copy machine, and may be an article such as an ornament or a decoration.
  • the mechanism for determining the time zone based on the GPS position information has been mainly described.
  • the time zone is determined using the standard radio wave transmitted from the transmitting station, which is used in the radio clock. It is also possible to do so.

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  • Engineering & Computer Science (AREA)
  • Theoretical Computer Science (AREA)
  • Signal Processing (AREA)
  • Physics & Mathematics (AREA)
  • General Engineering & Computer Science (AREA)
  • General Physics & Mathematics (AREA)
  • Telephonic Communication Services (AREA)
  • Telephone Function (AREA)

Abstract

La présente invention a pour objectif de traiter le problème de la réalisation d'un dispositif de communication s'adaptant au décalage horaire qui permet à un message d'être envoyé sans que l'expéditeur de message tienne compte du décalage horaire avec le fuseau horaire du destinataire. La solution selon l'invention fait intervenir un dispositif de communication s'adaptant au décalage horaire, destiné à envoyer, en s'adaptant au décalage horaire, des données de message du terminal émetteur au terminal récepteur via un serveur. Le serveur est caractérisé en ce qu'il comporte: une unité de stockage de données de message servant à stocker les données de message; une unité de détection de fuseaux horaires servant à détecter les fuseaux horaires des terminaux; une unité de stockage de fuseaux horaires servant à stocker les fuseaux horaires de chacun des terminaux; et une unité d'émission de données servant à émettre les données de message stockées dans l'unité de stockage de données de message, en se basant sur le décalage horaire entre les fuseaux horaires du terminal émetteur et du terminal récepteur stockés dans l'unité de stockage de fuseaux horaires.
PCT/JP2017/020119 2017-05-30 2017-05-30 Dispositif s'adaptant au décalage horaire WO2018220718A1 (fr)

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PCT/JP2017/020119 WO2018220718A1 (fr) 2017-05-30 2017-05-30 Dispositif s'adaptant au décalage horaire

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PCT/JP2017/020119 WO2018220718A1 (fr) 2017-05-30 2017-05-30 Dispositif s'adaptant au décalage horaire

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Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH10303972A (ja) * 1997-04-24 1998-11-13 Nec Corp 電子メール蓄積配信システム
JP2002278894A (ja) * 2001-03-19 2002-09-27 Just Syst Corp 情報送信時間認証システム、方法及び装置、情報送信時間調整システム、方法及び装置、並びにプログラム
JP2008042626A (ja) * 2006-08-08 2008-02-21 Sharp Corp タイムゾーン関係情報処理装置及び移動端末
JP2015144333A (ja) * 2014-01-31 2015-08-06 株式会社フォーカルワークス メッセージ配信サーバ、メッセージの送信装置および受信装置

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH10303972A (ja) * 1997-04-24 1998-11-13 Nec Corp 電子メール蓄積配信システム
JP2002278894A (ja) * 2001-03-19 2002-09-27 Just Syst Corp 情報送信時間認証システム、方法及び装置、情報送信時間調整システム、方法及び装置、並びにプログラム
JP2008042626A (ja) * 2006-08-08 2008-02-21 Sharp Corp タイムゾーン関係情報処理装置及び移動端末
JP2015144333A (ja) * 2014-01-31 2015-08-06 株式会社フォーカルワークス メッセージ配信サーバ、メッセージの送信装置および受信装置

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