KR102567141B1 - Method and System for Data Communication - Google Patents

Abstract

The present invention relates to a method of transmitting delayed files from a sender to a receiver, and also to a method of delayed receiving transmitted files. The method of transferring deferred files helps to omit cumbersome tasks on the sender's side. On the other hand, delayed reception helps to easily store and collectively render the received files at the receiver side.

Description

Data communication method and system {Method and System for Data Communication}

The present invention relates to a communication method. More specifically, the present invention relates to a delayed data communication method and computing devices implementing the same.

Communicated messages, such as emails, chat messages or device-to-device transmissions, are usually associated digital files or other content items including attachments such as image, audio, video, data files, etc. can have In traditional communication methods, whenever a new file or attachment is sent in connection with a communication, the sender may be asked to compose a new mail or start a new communication session and send it to the recipient. This can cause unnecessary confusion in the system receiving the messages.

Thus, where multiple attachments are to be sent to more than one recipient and such attachments may only be available at a later date or may not be sent unintentionally, there is a need for an intuitive way to communicate such attachments. . This paragraph is provided to introduce a selection of concepts in a simplified form, which will be described in detail in the specific context for practicing the invention below. This paragraph is not intended to identify the main or essential concepts of the technical idea according to the present invention, nor is it intended to determine the scope of the technical idea according to the present invention.

The present invention provides a method for transmitting a delayed file from a sender to a receiver. User device A sends or receives a first communication with respect to user device B. User device A may now send one or more data units as a delayed data unit to user device B. During the process of transmitting one or more data units, the user device A displays a transaction identity, an application identity, a context identity, a previously transmitted file name, and a timestamp of a previously transmitted file ( time stamp), delayed folder name, or a combination thereof. The identifier is then associated with one or more data units and transmitted to the recipient. User device B receives one or more data units transmitted in the form of delayed data units and identifies the previous communication based on the identifier. User device B then stores one or more data units associated with this identified previous communication. In response to a rendering request, a previous communication received as deferred data and one or more data units are combined with each other and rendered.

The method as described above allows managing intuitive delayed data communication to several domains. In particular, the delayed data transmission method may be employed in various communication modes including, for example, an email communication mode, a short distance communication mode, or an instant messaging communication mode.

An electronic device of the present invention includes a communication interface, a processor and a memory. The memory interworks with the processor so that the electronic device: transmits first data to an external device through the communication interface, and receives selection of second data to be transmitted from the external device through the input device; , Commands set to associate an identifier with the second data based on the first data transmitted to the external device, and transmit the second data together with the identifier to the external device through the communication interface.

An electronic device of the present invention includes a communication interface; processor; and memory. The memory interworks with the processor so that the electronic device: receives first data together with an identifier from an external device through the communication interface, detects second data corresponding to the identifier from the memory, and and instructions configured to store the first data in the memory in association with the second data.

In order to make the advantages and features of the present invention more clear, a more detailed description of the present invention will be given with reference to specific embodiments shown in the accompanying drawings. It is to be understood that these drawings represent only typical embodiments of the present invention and should not be considered as limiting the scope of the present invention. The present invention will be described and explained with additional specificity and detail in conjunction with the following accompanying drawings.

Features, aspects, and advantages of the present invention, as described above or otherwise, will be better understood from the following detailed description and accompanying drawings. Like reference numbers refer to like elements throughout the drawings.
1 shows a schematic flowchart of a method for delayed data communication between a sender device and a receiver device according to an embodiment of the present invention.
2 is a flowchart of a delayed data transmission method corresponding to an embodiment of the present invention.
3 is a flowchart of a delayed data transmission method corresponding to another embodiment of the present invention.
4 is a flowchart of a delayed data transmission method corresponding to another embodiment of the present invention.
5 shows a schematic flowchart of a method for transmitting delayed data through an email system according to an embodiment of the present invention.
6 shows a schematic flowchart of a method for transmitting delayed data through an email system according to another embodiment of the present invention.
7 is a schematic flowchart of a delay data transmission method in a delay aware e-mail system according to an embodiment of the present invention.
8 shows an exemplary format 800 of a header that may be employed to make a communication system a Deferment Aware System.
9 shows a detailed view of email headers that may be employed in a delay aware email system.
10 illustrates a method for marking an email sending a deferred attachment in accordance with an embodiment of the present invention.
11 depicts an exemplary pop-up that may notify a user about an error in accordance with an embodiment of the present invention.
12 is a schematic flowchart of a delay data communication method in a deferment non-aware e-mail system according to an embodiment of the present invention.
13 shows a schematic flow chart of a delay data transmission method through a delay unaware email system according to an embodiment of the present invention.
14 shows a schematic flowchart of a method for transmitting delayed data through an instant messaging system according to an embodiment of the present invention.
15 is a schematic flowchart of a method for transmitting delayed data through an instant messaging system according to another embodiment of the present invention.
16 shows a schematic flow chart of a method for deferred directory transmission through an instant messaging system according to an embodiment of the present invention.
Fig. 17 shows a schematic flow diagram of a method for delayed transmission of multiple directories through an instant messaging system according to another embodiment of the present invention.
18 is a schematic flowchart of annotating data under delayed transmission and transmitting it according to another embodiment of the present invention.
19 is a schematic flowchart of a delayed image transmission method through a short-range communication mode according to an embodiment of the present invention.
20 is a schematic flowchart of a method for transmitting delayed audio through a short-distance communication mode according to another embodiment of the present invention.
21 is a flowchart of a method for receiving delayed data according to an embodiment of the present invention.
22 is a flowchart of a method for receiving delayed data according to another embodiment of the present invention.
23 illustrates an example rendering of an email with deferred attachments in accordance with an embodiment of the present invention.
24 illustrates an exemplary rendering of an email with a deferred attachment according to another embodiment of the present invention.
25 illustrates an exemplary notification provided to a recipient device in response to receiving deferred data via an instant messaging system in accordance with another embodiment of the present invention.
26 illustrates an exemplary rendering of a deferred directory received via short range communication mode in accordance with an embodiment of the present invention.
27 shows an exemplary rendering of a reconstructed video file according to an embodiment of the present invention.
28 shows a block diagram of a computing device suitable for implementing a delayed transmission method according to an embodiment of the present invention.
29 shows a block diagram of a computing device suitable for implementing a delayed reception method according to an embodiment of the present invention.
30 shows a block diagram of an email system suitable for implementing a delayed communication method according to an embodiment of the present invention.
31 illustrates a general storage entry of a receiving side email processing system according to an embodiment of the present invention.
32 shows storage items of an email from a Deferment Aware System that does not have deferred attachments.
33 shows the stored items of an email from a deferred recognition system with deferred attachments.
34 shows stored items of an email from a Deferment Non-Aware System that does not have deferred attachments.
35 shows stored items of an email from a delayed non-aware system with a delayed attachment.
36 shows a flow diagram of the process implemented by a view controller that detects whether an email is coming from a latency-aware system or a latency-non-latency-aware system.
37 shows a flow diagram of the process implemented by the view controller for detecting a deferred attachment when an email comes from a deferred recognition system.
38 shows a flow diagram of the process implemented by the view controller for detecting a deferred attachment when an email comes from a deferred unaware system.
Fig. 39 shows the pointer structure in an email with a delayed attachment coming from the delay recognition system.
Figure 40 shows the pointer structure in an email with a delayed attachment coming from a delayed non-aware system.
41 illustrates specific utilities that may be included during processing of email attachments in an email system implementing a deferred communication method.
42 illustrates a typical hardware structure of a computing device according to an embodiment of the present invention.
In addition, those skilled in the art will recognize that the elements in these drawings are simply illustrated and may not necessarily be drawn to scale. For example, flow charts depict methods in terms of the most important steps to aid in a better understanding of aspects of the present invention. In addition, in terms of the configuration of the device, one or more components of the device may be represented in the drawings by conventional symbols, and the drawings show only specific details relevant to understanding the embodiments of the present invention, Matters obvious to those skilled in the art may be omitted in order not to obscure the drawings.

To enhance the understanding of the principles of the present invention, reference will be made to embodiments shown in the drawings and specific terms will be used to describe such embodiments. It will be understood, however, that these are not intended to limit the scope of the present invention, and modifications and further variations in the system shown, and further applications of the principles of the present invention, are to those skilled in the art to which this invention pertains. will be self-evident.

Those of ordinary skill in the art will fully understand that the foregoing general description and the following detailed description are intended only for illustration and description of the present invention, and are not intended to be limiting.

References throughout this specification to “an aspect,” “another aspect,” or similar terms refer to a particular feature, structure, or characteristic described in connection with the embodiment. ) is included in at least one embodiment of the present invention. Thus, phrases “in an embodiment,” “in another embodiment,” and like phrases throughout this specification may, but do not necessarily, all refer to the same embodiment.

The terms “comprise,” “have,” “have,” and like terms are all intended to mean a non-exclusive inclusion. Accordingly, a process or method comprising a list of steps may include not only those steps, but also other steps not specified or inherent in such process or method. Likewise, one or more devices or sub-systems or components or structures or components made up by “comprises” may, without further limitation, be other devices or other sub-systems or other components or The presence of other structures or other components or additional devices or additional sub-systems or additional components or additional structures or additional components is not excluded.

Unless otherwise defined, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art. The systems, methods, and examples provided herein are illustrative only and are not intended to be limiting.

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

The sender device may send some data to the recipient device first and then send the associated data (i.e. deferred data) later. A correlation between initially transmitted data and delayed data transmitted later may be recognized as an identifier transmitted together with the delayed data. From the user's point of view, the transmission of the associated data may appear delayed. Accordingly, according to various embodiments of the present invention, associated data may be interchangeably referred to as delayed data. For example, the sender device may send the user's comments to the recipient device first and send the attachment later as deferred data. The recipient device may inform the user of completion of receiving the e-mail (ie, comments and attachments). In addition, the sender's device may divide the attached file of the email into a plurality of units and sequentially send them to the receiver's device. The recipient device may combine and store the units into one file, and guide the user to receive the attached file. Also, the sender device may collect data. For example, the sender's device may acquire images through a camera or collect surrounding information or biometric information through a sensor. When data collection is completed, the sender device may transmit an email including the collected data to the recipient device. Referring to FIG. 1 , a schematic flow diagram of a method 100 of delayed data communication between a sender device 101 and a receiver device 102 is shown. In the illustrated example, the sender device may initially provide (eg render and display) a set of selectable data units 103 ₁ to 103 _n , the method may, for example, display (ie touch It may include a process of receiving a selection 104 of one or more data units through a screen). The sender device may additionally receive an indication 105 indicating that the selected one or more data units may be transmitted using a delayed transmission method. For example, the instruction of the delayed transmission method may be recognized as a touch input in the form of the letter “D” or an air-gesture input in the form of the letter “D”. In response to receipt of an indication related to delayed transmission, a graphical user interface (GUI) 106 may be provided that includes details of one or more communication modes supported by the originator device. GUI 106 includes information regarding email communication mode 107, Bluetooth communication mode 108, Wi-Fi Direct communication mode 109, and instant messaging communication mode 110. can do. The sender device may receive a selection 111 of any one of the supported communication modes to transmit the selected one or more data units. Based on this selected communication mode, the sender device may additionally receive details about the previous communication with the recipient from the selected communication mode. Once details of a previous communication with the recipient are received by the sender device, the details can be used by the sender device to associate 112 an identifier associated with the previous communication with the selected one or more data units. For example, when the communication mode is selected as e-mail, the identifier is at least part of previously transmitted data (e.g., e-mail subject 113 of the e-mail, sender's name, at least part of the mail content, e-mail address, send time, or attachment file name). Here, the sender device may use a unique identifier (UID) to associate with the data unit. That is, if the identifier is an email address by which the first data and the second data can be commonly identified, the unique identifier is an email address by which the first data and the second data can be uniquely identified. It can be a combination of address and origination time. If the communication mode is selected as Wi-Fi Direct, the identifier may be received in the form of a previous video file name and timestamp 114. When the communication mode is selected as Bluetooth (BT), the identifier may be received in the form of the previous Bluetooth transmission file name 115 . If the communication mode is selected as instant messaging, the identifier may be received in the form of a chat subject 116 . The sender device 101 may transmit the selected one or more data units together with the identifier to the receiver device (117).

Recipient device 102 may receive 118 one or more data units transmitted in the form of delayed data units. The recipient device may detect an identifier included in the received one or more data units, and search for previous communications matching the identifier through the communication mode specified by the identifier (119). If a prior communication matching the identifier is identified, the recipient device may store one or more data units associated with the identified prior communication (120). When there is a request for rendering, one or more data units along with previous communication may be called and rendered (121).

Referring to FIG. 2 , a flowchart of a delayed data transmission method 200 corresponding to an embodiment of the present invention is shown. A delayed data transmission method (200) includes receiving (201) one or more data units to be delayed transmitted to a recipient. In response to such receipt, an identifier may be associated with one or more data units based on details of a previous communication with the recipient (202). The method may further include transmitting 203 an identifier associated with the one or more data units to a recipient.

The method shown in FIG. 2 may be supplemented by additional steps shown in FIG. 3 .

For example, in one aspect, receiving one or more data units to be delayed transmitted to a receiver, i.e., step 201 of FIG. ) and receiving a selection of one or more data units from the one or more selectable data units (302).

In another aspect of the invention, in conjunction with receiving one or more data units for delayed transmission, the method may further include receiving 303 an indication corresponding to delayed data transmission. The instruction may be in the form of a gesture, touch or voice. In an alternative embodiment, an indication corresponding to delayed transmission may be received separately instead of being received during the step of receiving one or more data units.

In another aspect of the invention, in conjunction with receiving one or more data units for delayed transmission, the method may further include receiving 304 a comment corresponding to the one or more data units. In an alternative embodiment, receiving the annotation is separate and may be performed before receiving the one or more data units or after receiving the one or more data units.

Since the delayed data transmission is related to a first communication that occurred with the recipient in the past, the delayed transmission method may further include receiving 305 details of the first communication with the recipient. If the delayed transmission is related to the first communication that occurred in the past, the delayed transmission may not be active at the time of transmitting one or more data units for the delayed transmission to the receiver.

Without wishing to be limited, in one embodiment, the details of a first communication with a recipient include providing the user with a GUI including one or more communication modes (306) and receiving a selection of the communication mode (307). can be received by After the selection of the communication mode is received, the system may provide the user with a GUI that includes one or more communications conducted within the communication mode (308) and receive selections of previous communications conducted to the recipient from within the communication mode. can (309).

If the user is already in communication mode (eg, if the user is already composing an email), steps 306 and 307 can be omitted and the remaining steps, i.e., steps 308 and 309 can be performed.

In an embodiment of the invention, the method may further include generating 310 header data. In a preferred aspect, the header data may be of the first type or of the second type. For example, the first type may mean that one or more data units being transmitted have a link to a previous communication. The second type may mean that one or more data units being transmitted do not have any link to a previous communication. The header data thus generated may be beneficially used by the recipient device 102 . In one embodiment, header data may be used by a recipient device to quickly identify that one or more data units transmitted are related to delayed transmission. This makes it possible to obtain time savings on the recipient device. Another benefit can save resources on the recipient's device. Accordingly, when the header data is generated as described above, the transmitting step 311 may transmit one or more data units, an identifier, and header data to the receiver.

4 shows a delayed transmission method corresponding to a previous communication. Method 400 of FIG. 4 may include step 401 of establishing a first communication with a recipient. 2, receiving one or more data units for delayed transmission to a receiver (201); associating (202) an identifier with one or more data units based on details of the first communication with the recipient; and step 203 of transmitting the one or more data units together with the thus associated identifier to the recipient may be performed as subsequent steps after step 401 above.

In the following paragraphs, different types of delayed transmission method implementation are described together with reference to corresponding figures. Other implementations described herein below are for illustrative purposes only and should not be construed as limiting the scope of the claims in any way.

One of the most common methods for sharing attachments may be using an email communication mode.

Referring to FIG. 5, an embodiment in which an attached file can be transmitted through a delayed transmission method is shown. In particular, as shown in (a) of FIG. 5 , the user can go to the library 501 . The library 501 may include, for example, several digital contents 502 ₁ , 502 ₂ , 502 ₃ , 502 ₄ , 502 ₅ and 502 ₆ . The user may select one or more of various contents from the libraries 503 ₁ , 503 ₂ , and 503 ₃ . Afterwards, the user can select the “options” icon 504. Referring to (b) of FIG. 5 , in response to selection of an option icon, a plurality of options may be provided to the user through the GUI 505 . One of the options provided may include “Deferred Attach” 506. In response to detecting selection of the delayed attachment option, the user may be directed to the Outbox 507 in the email communication mode as shown in FIG. 5(c). The mailbox 507 may provide one or more already created communications 508 ₁ , 508 ₂ , 508 ₃ , 508 ₄ , 508 ₅ and 508 ₆ and the user may select any one of the communications 509 . . In response to receiving a selection of either communication, the previously selected digital content 503 ₁ , 503 ₂ and 503 ₃ may be transmitted as deferred attachments to the selected communication. It is possible for the user to add some specific annotations to the attachment and wish to provide them, and as shown in Fig. 5(d) a GUI 510 allowing the user to add annotations may be provided. . Using the GUI 510, the user can provide annotations 511 that they wish to be sent along with the attachments.

Referring to FIG. 6, another embodiment in which an attached file may be transmitted through a delayed transmission method is illustrated. In particular, as shown in Fig. 6(a), a user may see a mailbox 601 in an email communication mode providing one or more past communications 602 ₁ to 602 _n that have been sent. In an embodiment, for each of the communications 602 ₁ to 602 _n , a small icon may be provided. In response to selection 604 of the small icon 603, the corresponding communication is selected and it is possible for the user to select one or more attachments to send using the delayed delivery method. For example, selection 604 In response to the detection of , a graphical user interface 605 as shown in FIG. 6 ( b ) may be provided. Via GUI 605, a user may select one or more attachments 606 ₁ , 606 ₂ and 606 ₃ . Completion of selection may be detected based on selection of the “Done” icon 607 . Similar to FIG. 5(d), FIG. 6(c) shows a GUI 510 enabling a user to add an annotation 511 . The previously selected 606 ₁ , 606 ₂ and 606 ₃ digital content may be transmitted as a delayed attachment of the selected communication.

According to any of the above methods of delayed delivery, e-mailing systems can be broadly divided into two categories:

Deferment Aware System; and

Deferment Non-Aware System.

Deferment Aware Systems can be email systems that are aware of deferment attachment emailing. Such systems may natively support deferred attachments and may also provide an option to allow users to mark an email as a deferred attachment type before sending it. A block diagram of a Deferment Aware Email System 700 is shown in FIG. 7 . It can be observed in FIG. 7 that the sender device 701 passes information about the delay to the server 702 when sending the email. In this case, information about the delay is delivered to the recipient 703 by the mail server.

An e-mail system can operate as a deferment aware system by including a deferment indication in outgoing mail. In an embodiment of the invention, the delay indicator communicated in the delay awareness system may be sent as part of an email header. An exemplary format of a header 800 that may be employed to make a communication system delay aware is shown in FIG. 8 . In the illustrated example, header 800 includes general header information 801 and delay indicator 802 . In an embodiment of the invention, the Deferment Indicator 802 may be employed to transmit information regarding two aspects: Deferment Aware Domain 803 and Deferred Attachment 804. . Information about the delayed recognition domain 803 may be provided in the form of one bit, and similarly, information about the delayed attachment may be provided in the form of one bit. Thus, compared to a normal header, a header 800 as shown in FIG. 8 may include two additional bits. A detailed view of an email header is shown in FIG. 9 , which includes general header information 901 and delay indicator 902 , which are useful for transmitting information related to delay aware domains 903 and delay attachments 904 . Suitable.

Information related to deferred-aware domains: This bit indicates whether the domain of the email being sent supports the deferred attachment mechanism. If support is provided, the bit is set to 1, i.e. TRUE, and if support is not provided, the bit may be set to 0, i.e. FALSE.

Information related to deferred attachments: This bit indicates which deferred attachments the email is forwarding. If a deferred attachment is present in the email, the bit can be set to 1, i.e. TRUE, otherwise it can be set to 0, i.e. FALSE.

As shown in (a) of FIG. 10 , the delay recognition system may detect selection of the icon 1010 of the sent mailbox in the displayed email browser. In response to detection of selection, the delay recognition system may display an outbox. After that, the delay recognition system detects the selection of the email 1020 previously sent (eg, today) and the selection of the delayed transmission option 1030 in the sent mailbox, and in response to this, as shown in FIG. 10(b). A UI control 1000 for delivering a delayed attachment as such to a recipient of a selected e-mail may be displayed. The user can attach a file as a delayed attachment to the selected email through the UI control 1000 . For example, the UI control 1000 may provide an additional icon 1040. When the add icon 1040 is selected, a file list may be displayed. A file 1050 selected from the file list may be attached to the selected email. The delay recognition system can provide an easy way for users to mark e-mails as forwarding delayed attachments, as shown in FIG. 10(b). That is, each user responding to the communication can see the UI control 1000 for marking 1001 an email as a delayed attachment type. Another advantage of such a system is that error control checks can be presented to the user in order to further enhance and extend the system. For example, the system may have a limit of 200 characters for text comments in delayed emails. If the new content of the email exceeds 200 characters, a pop-up 1100 may be shown to the user, an example of which is shown in FIG. 11 .

A deferred attachment may be sent using any email system (ie deferred non-aware system).

Deferment Non-Aware Systems: Traditional email systems do not have any information about deferment attachments. A block diagram of a delayed non-aware email system 1200 is shown in FIG. 12 . In a deferred unaware email system, sender device 1201 does not have the ability to explicitly mark an email as containing a delayed attachment before sending the email to server 1202, and no information is returned as a result of sending the email. It can be seen in FIG. 12 that the data is not transmitted to the receiver 1203 through the mail server.

To provide backward compatibility with delay unaware systems, other methods may be employed, an example of which is shown in FIG. 13 and described in detail below.

Referring to FIG. 13, an embodiment in which an attachment may be transmitted through a delay-unaware system is illustrated. In particular, as shown in (a) of FIG. 13 , the user can see an Outbox 1301 in an email communication mode providing one or more past communications 1302 ₁ to 1302 _n that have been sent. In an embodiment, a “reply all” icon 1303 may be provided for transmitted communications. When it is activated (1304), a new e-mail is created as shown in (b) of FIG. 13 (1305). It can be seen that the subject (title) of the new e-mail starts with “Re:.....” as indicated by 1306 in (b) of FIG. The user may modify this as indicated by 1307 in (c) of FIG. 13 to replace “Re.....” with “[attach]…”. The user can then attach one or more attachments using the “attachment” option 1308, as shown in FIG. 13(d) (which is generally similar to FIG. 6(b)) similar and therefore not described in detail), as shown in Fig. 13(e), an annotation can optionally be added to the attached file (which is generally similar to Fig. 6(c) and therefore not described in detail) ), can be transmitted. In the illustrated embodiment, based on the syntax of the subject, i.e. the prefix “[attach]”, the recipient can invoke a special process and make the received email more special as containing the deferred attachment type. properly identified and processed.

In the above paragraph, several methods of implementing the delayed delivery method in an email delivery system have been described in detail with reference to FIGS. should not be interpreted

In recent years, it has become common to share attachments using instant messaging systems, so in the following paragraphs several methods of implementing delayed delivery methods in instant messaging systems will be described in detail.

Referring to Fig. 14, an embodiment of sharing deferred attachments via an instant messaging system is illustrated. As shown in FIG. 14(a), the sender may provide a topic 1401 and may establish communication 1402 with the recipient. Then, when the sender wants to send one or more additional attachments to the receiver in the form of delayed attachments, the sender selects attachments 1404 _{1 -} 1404 ₄ as shown in (b) of FIG. (1403) can. After that, the user may select 1405 an option regarding “Deferred Sharing”. As shown in FIG. 14(c), from the various options that may be provided, the user may select 1406 an instant messaging option. As shown in (d) of FIG. 14 , a GUI may be provided to obtain a chatting subject (subject) from the user. The chat subject may indicate related contents of a deferred directory. A subject can be included in an Instant Messaging (IM) session by sending a special message. The IM session may indicate that the next messages to be sent by the sender will be part of this subject. This special message can be initiated by either the sender or the receiver. The special message can be interpreted by the instant messaging server, and the subject can be provided for easy viewing by the user in the GUI. Alternatively, instead of obtaining the chat subject from the user, the chat subject may be automatically generated (based on context parsing). As an alternative option, a GUI could be provided to find out the details of the recipient or any other information based on which previous communications could be identified. Once the past communication is identified, the selected attachments can be sent in the form of deferred attachments, as shown in FIG. 14(e).

Referring to Figures 15(a)-(e), another embodiment of sharing a deferred attachment via an instant messaging system is illustrated. The methods shown in FIGS. 15(a) to (e) are substantially similar to those in FIGS. 14(a) to (e) except for FIG. 14(b). In view of the above, features common to FIGS. 14 and 15 are not described, and the same reference may be made to the description as provided above with respect to FIG. 14 . As shown in (b) of FIG. 15 , selection 1501 for “Deferred Sharing” may be received in the form of a “D” shaped pattern input. On the other hand, any other pattern can be configured either in the form of a factory setting or in the form of a user setting. As another alternative, not shown, the selection for “Deferred Sharing” can be received in the form of an over-the-air gesture.

Referring to Fig. 16, another embodiment of sharing deferred attachments via an instant messaging system is illustrated. In this embodiment, the sender device can initially create a “deferred directory” 1601 as shown in FIG. 16, and then send information about the first deferred directory 1601. It can be sent to the recipient's device via an instant messaging system. The receiver device may create a second delay directory 1602 based on the received information and display the second delay directory 1602 on the message window. When adopting this embodiment, next to sharing the deferral directory, content (eg, images) may be added to the deferral directory 1601 . When content is added to the deferral directory 1601, its identifier (eg, directory information) may be transmitted to a recipient device along with the content. The recipient device may store content in association with the deferral directory 1602 based on the identifier. The transfer of the deferred directory is implemented using conventional methods for sharing folders in a chat session.

Referring to FIG. 17, it is possible to transmit several delay directories. In this regard, as shown in (a) of FIG. 17, the user can create a first delay directory 1701, a second delay directory 1702, and a third delay directory 1703, and then As shown in (b) of FIG. 17, the first delay directory 1701 is transmitted (1704), the second delay directory 1702 is transmitted (1705), and the third delay directory 1703 is transmitted through the instant messaging system. ) can be transmitted (1706). When adopting this embodiment, the user can add new content following sharing each of the first, second and third deferred directories.

Referring to FIG. 18 , it is possible to add a comment 1801 to any one of the attachments 1802 being transferred by delayed transmission, as specifically shown in FIG. 18(a). When an annotation is added to an attachment, the annotation 1801 can be automatically transmitted 1803 along with a delayed attachment 1802 through an instant messaging system, as shown in (b) of FIG. 18 .

In the above paragraphs, several methods of implementing the delayed delivery method in an instant messaging system have been described in detail with reference to FIGS. 14 to 18, but the method may be implemented by other alternative methods, and The scope is not intended to implement details as provided above.

It is also common to share digital content using a near field communication mode. These short-range communication modes include Bluetooth, Wi-Fi, NFC, RFID, and the like. Therefore, in the following paragraphs, several methods of implementing the delayed transmission method by adopting the short-distance communication mode will be described in detail.

Referring to Fig. 19, an embodiment of sharing deferred attachments via an instant messaging system is illustrated. As shown in (a) of FIG. 19, content selection 1901 may be received, and selection 1902 of a short-range communication mode (in this case, Bluetooth) may be received as shown in (b) of FIG. can Based on the above selections and additional input (not specifically shown) that may typically be required for transmission, an initial communication may be transmitted to the recipient. In initial communication, selected content 1901 may be shared. Referring to (c) of FIG. 19, one or more content selections (1903 ₁ to 1903 ₃ ) may be received at a later point in time, and as shown in (d) of FIG. 19, selection for delayed transmission (1904) may be received with selection of a short-range communication mode (Bluetooth in this case). In response to the above, as shown in (e) of FIG. 19, a GUI 1905 is provided to the user. The GUI may prompt the user to enter details of the file 1906 previously transferred. In an alternative embodiment, a GUI may be provided to find any other information or recipient details based on which previous communication can be identified. Once the previous communication is identified, the selected attachments can be sent in the form of deferred attachments.

Various types of digital content can be transmitted using a delayed transmission method. For example, Fig. 20 shows delayed transmission of an audio file. 20, the type of content selected for delayed transmission (in this example, audio file(s) (2001, 2003 ₁ , 2003 ₂ , 2003 ₃ )) and the communication method selected for delayed transmission (in this example) is substantially similar to the method shown in FIG. 19 except for Wi-Fi Direct (2002, 2004).

Any type of media content including audio files, image files, graphic files, video files, animation files, etc. may be transmitted using the delayed transmission method. Instead, the advantage of having such a provision would be the fact that the new file acts as an extension of the previously exchanged file.

In addition, as shown and described with reference to FIGS. 16 (a), 17 (a), and 18 (a), a method of creating a delay directory may be adopted, and a short-distance communication mode may be selected. You can transfer the deferred directory using In particular, traditional file exchange methods such as Bluetooth, Wi-Fi, Wi-Fi Direct, etc. can be used to transfer deferred content, for example deferred directories to other mobile phones. This deferred directory will serve to provide more features compared to traditional file exchanges, and will also be easy to use and provide ease of use to the sender as well as the receiver. Sharing a file with the other party via the deferred directory method allows the sender to later add a new file to the same directory on the recipient's file system (provided it is not deleted by the user by then).

In the above paragraphs, several methods of implementing the delayed transmission method using short-range communication mode have been described in detail with reference to FIGS. 19 and 20, but the method may be implemented by other alternative methods, and the invention The scope of is not limited to implementation details as provided above.

In the above paragraphs, the method performed by the sender device for delayed transmission has been described in detail. In the following paragraphs, the delayed data reception method performed by the receiver device will be described in detail.

Referring to FIG. 21 , the present invention further provides a method 2100 for receiving delayed data including a step 2101 of receiving one or more data units together with an identifier from a sender. Based on the identifier, a prior communication with the sender may be detected (2102) and one or more data units may be stored in association with the thus detected prior communication (2103). The identifier is transaction identity, application identity, context identity (ie, at least part of previously transmitted data (e.g., e-mail subject, sub-topic, user comment, attached file name, etc.) )), or combinations thereof.

The method shown in FIG. 21 may be supplemented by additional steps shown in FIG. 22 .

For example, referring to FIG. 22 , method 2220 can include receiving 2201 header data along with one or more data units and an identifier. Here, the header data is of type 1 indicating that one or more data units being transmitted have a link with a previous communication or indicating that one or more data units being transmitted do not have any link with a previous communication. one of the second type.

In another embodiment, the method further comprises analyzing 2202 and, if the header is of the first type (ie indicating that one or more data units being transmitted have a connection with a previous communication), the sender A process 2205 of detecting a previous communication with may be performed. In another embodiment, if the header is present and is of the second type (i.e. indicating that one or more data units being transmitted do not have any connection to the previous communication), the process terminates and returns to the normal process (conventional According to the method of) can be performed.

In another embodiment of the invention, method 2200 may further include resolving 2204 the identifier to obtain one or more transaction IDs, application IDs, context IDs, or combinations thereof included in the identifier. there is.

In another embodiment of the present invention, detection 2205 includes retrieving 2206 one or more transaction IDs, application IDs, or context IDs included in the identifier through previously stored communications; , the application ID, or the previously stored communication corresponding to the context ID is called (2207).

In another embodiment of the invention, method 2200 further includes rendering 2209 one or more data units along with a prior communication. In one embodiment, presenting 2209 may include, in response to the presenting request, invoking 2210 the previous communication and one or more data units associated with the previous communication. The previous communication and one or more data units may then be combined (2211) and presented (2212). When one or more data units are passed along with a comment, the previous communication, the one or more data units and the comment are provided in conjunction with each other. In one embodiment, annotations may be associated with a data unit by being included as metadata of the data unit. Alternatively, if one or more data units are passed along with annotations, a previous communication, one or more data units and annotations may be combined with each other. Previous communications and one or more data units may be presented initially. An annotation can then be provided in response to detecting a predefined type of action.

In another embodiment of the invention, method 2200 includes detecting an action associated with a data unit provided with a prior communication (2213), and providing a function associated with the action to the data unit (2214). can do.

For example, the action is right swipe on the data unit provided with the previous communication, and the function is the forwarding of the data unit. As another non-limiting example, the action is to swipe left on the data unit carried with the previous communication, and the function is to reply to the sender with the data unit.

In the following paragraphs, different types of implementing the delayed reception method are described together with reference to corresponding drawings. Other implementations described herein are for illustrative purposes only and should not be construed as limiting the scope of the claims in any way.

Referring to Fig. 23, an exemplary presentation of delayed attachments and e-mails in accordance with an embodiment of the present invention is illustrated. As can be observed in detail, the body of the previous email communication is provided in section 2301. In the case of previous emails containing attachments, attachments are provided in section 2302. Thereafter, the attached file received through the delayed transmission method may be provided to 2303 and 2304 based on the reception time. For example, the original email is received at 10:00 AM, the first delayed attachment 2303 is received at 10:10 AM, and the second delayed attachment 2304 is received at 10:20 AM. In the illustrated example, the second deferred attachment includes annotations, so a small indicator 2305 indicating the annotations is provided near the second deferred attachment 2304 . The indicator 2305 may be displayed in the form of an icon in the GUI. In response to detecting a particular type of preconfigured action by the user, an annotation may be displayed at 2306 .

Referring to Fig. 24, an exemplary presentation of delayed attachments and e-mails in accordance with another embodiment of the present invention is illustrated. Similar to FIG. 23 , the body of the previous email communication is provided in section 2401 and the attachments of the previous email communication are provided in section 2402 . Attached files received through the delayed transmission method may be provided as 2403 and 2404. The difference between FIG. 23 and FIG. 24 lies in the display form of annotations. In FIG. 24 , annotations 2405 can be automatically displayed as part of the email body without any additional action.

Referring to FIG. 25 , an exemplary notification provided to a recipient device in response to receiving deferred data via an instant messaging system in accordance with an embodiment of the present invention is illustrated. Notification 2501 can be generated in response to receiving the delayed data unit. In case the delayed data unit contains any comments, the notification can be configured to provide a preview of the comments. Similarly, for deferred directory updates, the notification may be configured to mention the name of the updated directory.

26 illustrates an exemplary presentation of multiple deferral directories received over a near field communication mode in accordance with an embodiment of the present invention. In particular, referring to (a) of FIG. 26 , a GUI 2601 providing details of a first directory 2602 and details of a second directory 2603 is shown. Assuming that the first example of the first directory 2602 shares four contents, that is, 2064 ₁ to 2604 ₄ , details or a preview of these contents may be provided. Referring to (b) of FIG. 26, when a sender uploads new content to either the first directory or the second directory, sharing may occur. Assuming that one content 2604 ₅ is added and posted to the first directory 2602 where the sharing occurred, the content 2604 ₅ appears in the first directory of the receiver's device as shown in (b) of FIG. can lose

Referring to FIG. 27 , an embodiment of sharing a deferred media file is illustrated. A sender (device) can establish communication with a receiver (device) to provide a media file to the receiver. The sender can then provide the recipient with one or more media files and more. In addition, the sender may transmit an indicator for identifying an association between the previously transmitted media file and the delayed media file to the receiver together with the delayed media file. For example, as shown in (a) of FIG. 27, a media file 2710 is first selected from the displayed media file list and transmitted to the receiver, and then media files 2720 and 2730 are additionally selected and transmitted to the receiver. can be sent to For example, the user may select 2740 an option related to “Deferred Sharing”. Alternatively, selection 2740 for “Deferred Sharing” may be received in the form of a “D” shaped pattern input, as shown in FIG. 27(b). The indicator may be attached as a UID to the metadata of the deferred media file. Regarding media data files, it is possible to structurally add a media file to a previously exchanged media data file, especially when providing delayed data units. When a file is marked deferred, the media is structurally appended to previously exchanged media files, and then a deferral aware media player can play the files belonging to a single entity. That is, the videos can be played continuously, with no pause or delay between the end of the first video and the start of the second video following the previous one. In the embodiment shown in FIG. 27(c), two video files, 2720 and 2730, are shown as being added to the previously exchanged media file 2710. After structural addition, previously exchanged media files and delayed media files exchanged media files can share a single progress bar with indications of the start and end of each media file.

On the system side, the present invention provides a computing device 2800 as shown in Fig. 28, which is suitable for delayed data transmission. The computing device includes an input device 2801 for receiving one or more data units for delayed transmission to a recipient, a processor 2802 for associating an identifier with the one or more data units based on details of a previous communication with the recipient , and a transmitting device 2803 for transmitting an identifier associated with one or more data units to a recipient.

Similarly, the present invention provides a computing device 2900 as shown in FIG. 29, which is suitable for delayed data reception. The computing device includes a receiving device 2901 for receiving one or more data units from the sender along with an identifier, a processor 2902 for detecting a previous communication with the sender based on the identifier, and one or more data associated with the detected previous communication. A memory device 2903 for storing units may be included. In addition to the above, the computing device may include a renderer 2904 for rendering digital content.

Referring specifically to FIG. 30 , an email system 3000 for implementing a delayed communication method according to an embodiment of the present invention is provided. The e-mail system includes an e-mail receiving module 3001 for handling tasks related to receiving e-mails. The e-mail system further includes an e-mail transmission module 3002 for handling tasks related to e-mail transmission from a network point of view. In addition, a display module 3003 is provided for a display environment visible to the user so that the user can view stored e-mails (sent/received, etc.). Also provided is an e-mail composing module 3004 that allows the user to compose a new e-mail. The email system further includes a storage device 3005 for storing emails. The email system further includes a preamble module 3006. The preamble module is responsible for the pre-processing of the email to convert it into a format consistent with the format used by the storage medium implementation. This module checks the delay indicator bits and puts them into storage. If the email is from a delay-unaware system, the delay indicator bits are assumed to be all zeros. The email system also includes a view controller 3007. The view controller provides display commands to the display module. This controller has information about deferred emails and can therefore request the display module to display attachments as deferred items in previously forwarded messages.

31 shows a typical storage entry in the e-mail processing system at the receiving end. For each communication message, message ID 3101 acts as a unique ID. The message storage item further includes a delay indicator bit 3102. Based on the content (or presence) of the delay indicator bit, the preamble module and view controller can determine the type of processing. A message storage item may store an indication of subject 3103, sender details 3104, e-mail received time 3105, and other parameters 3106. The preamble module will process emails coming from delay aware systems as well as delay non-aware systems. The cases handled accordingly are described below.

Emails from delay-aware systems that do not have delay attachments

In this case, the contents of storage will be as shown in FIG. 32 . As shown in Figure 32, emails are grouped in chunks, each with a unique message ID for all forwarded messages. The example shows three email bundles - bundle 1, bundle 2, and bundle 3. None of the bundles have any special email sending delayed attachments. Accordingly, the bits in the Deferred Attachments field 3202 are set to 0, while the bits in the Deferred Aware Domain 3201 are set to 1.

Emails from delay-aware systems sending delay attachments

In this case, the Delayed Attachments bit is set to 1 for all emails marked by the sender as sending delayed attachments. 33 shows two emails 3301 and 3302 sending delayed attachments in a first batch, and one email 3303 sending a delayed attachment in a second batch. In view of the above, the Deferred Attachments field corresponding to emails 3301, 3302, and 3303 is set to one.

Emails from deferred unaware systems that do not have deferred attachments

In this case, the delay recognition system bit is set to 0, and the delay attachment bit is also set to 0. Since e-mail does not send any bits in the message header, this is done by the preamble module. Accordingly, the delay recognition system field 3401 is given a default value of 0 as shown in FIG. 34 . Delayed attachment field 3402 is also set to zero.

Emails from delay unaware systems sending delay attachments

In the case of an email from a delay non-aware system sending a delayed attachment, the delay aware system bit is set to 0 along with the delay attachment bit. Since neither of these directives are present in the message header, they are given a default value of 0. Providing backwards compatibility with email can be distinguished, and as shown in FIG. 35 , based on their subject phrase, i.e. any subject with the special prefix “[attach]” is a deferred attachment. processed in the form of an e-mail. Thus, emails 3501, 3502, and 3503 can be distinguished based on the special prefix “[attach]” included in subject field 3504. This processing can be done by the preamble module or at the view controller level.

In terms of the process of the view controller, referring to Fig. 36, the view controller obtains each batch from the storage 3601, and checks the delay recognition area bit in the storage item for each email to be displayed, so that the email is delayed recognition. Check if it is from the system (3602). If the sender's domain is delay aware, the process may proceed as shown in FIG. In FIG. 37 it can be seen if the email carries any delayed attachments (3701). If the email is found to be carrying deferred attachment(s), as marked with the deferred attachment bit in the repository, special handling instructions may be generated 3702 and the controller may forward the special handling instructions to the display module. (3703). Special processing instructions relate to display instructions.

If the sender field in FIG. 36 is found to be delay unrecognized, processing proceeds as shown in the diagram in FIG. 38, where the mail subject has a special syntax (prefix, “[attach]”). It can be confirmed whether it includes (3801). If the email is found to be sending special phrases, special processing instructions can be generated (3802), and the controller can pass the special processing instructions to the display module (3803). Special processing instructions relate to display instructions.

Pointers for Mail from a Delay Aware System Sending Delayed Attachments: As shown in FIG. to the previous email item to which the new attachment is being added. This pointer is based on the Deferred Attachments field.

Pointers for Mail from Delayed Non -Aware Systems Sending Deferred Attachments : As shown in FIG. 4006) to the previous email item to which the new attachment is being added. In this case, the pointer is based on the special syntax contained in the subject field.

It is not desired that the e-mail system be provided as limited as described above. Implementing a delayed communication method according to an embodiment of the present invention may provide several unique utilities with respect to email attachment handling. For example, as shown in FIG. 41 , in response to detecting a swiping right action or gesture 4101 on an attached file, a new e-mail may be created, and the attached file may be newly created. It can be added as an attachment to an email. This provides user convenience when the user wants to transmit only one attachment among several attachments to another user. As another example, in response to detecting a swiping left action or gesture 4102 over an attachment, the email includes the swiped attachment for replying to the original sender of the email in the recipient area. email can be created. This provides ease of use to the user when the user wants to reply to the user while maintaining a specific attachment while replying.

Referring to FIG. 42 , a typical hardware structure of a computing device in the form of a computer system 4200 is shown. Computer system 4200 may include a sequence of instructions that computer system 4200 can execute to perform any one or more of the disclosed methods. Computer system 4200 can operate as a stand-alone device or can be connected (eg, using a network) with other computer systems or peripheral devices.

In a networked deployment, computer system 4200 may operate in the capacity of a server or as a client user computer in a server-client user network environment, or as a peer computer system in a peer to peer (or distributed) network environment. can Computer system 4200 may also be implemented as, or incorporated in, various of the following devices. For example, personal computer (PC), tablet PC, set-top box (STB), personal digital assistant (PDA), mobile device, palmtop Computers, laptop computers, desktop computers, communication devices, cordless phones, landline phones, control systems, cameras, scanners, facsimiles, printers, pagers, personal authentication devices, web appliances, network routers, switches or bridges ( bridge), or any other machine that can execute (sequentially or not) a series of instructions specifying the actions to be taken by that machine. Also, while a single computer system 4200 is shown, the term “system” refers to systems and sub-systems that alone or jointly execute a set or sets of instructions to perform one or more computer functions. May be used to include any set.

Computer system 4200 may include a processor 4202 . For example, a central processing unit (CPU), a graphics processing unit (GPU), or both are possible. Processor 4202 can be a component in a variety of systems. For example, processor 4202 may be part of a standard personal computer or workstation. The processor 4202 may be one or more general processors, digital single processors, application specific integrated circuits (ASICs), field programmable gate arrays (FPGAs), servers, networks, digital circuits, and analog circuits. , combinations thereof, or other currently known or later developed devices for data analysis and processing. Processor 4202 may implement a software program, such as manually generated (ie, programmed) code.

Computer system 4200 may include memory 4204, such as memory 4204 capable of communicating over a bus 4208. Memory 4204 can be main memory, static memory, or dynamic memory. The memory 4204 includes random access memory (RAM), read only memory (ROM), programmable ROM (PROM), electrically programmable ROM (EPROM), and electrically erasable programmable ROM (EEPROM). electrically erasable ROM), flash memory, magnetic tape or disk, optical media, and the like. In one example, memory 4204 includes a cache or random access memory for processor 4202. In an alternative example, memory 4204 is separate from processor 4202, such as the processor's cache memory, system memory, or other memory. Memory 4204 may be an external storage device or database for data storage. Examples include a hard drive, compact disk ("CD"), digital video disk ("DVD"), memory card, memory stick, floppy disk, universal serial bus ("USB"), memory device, or operation for storing data. Including any other device that does. Memory 4204 may be operable to store instructions executable by processor 4202 . The functions, operations, or tasks shown and described in the figures may be performed by processor 4202 programmed to execute instructions stored in memory 4204. The functions, operations, or tasks are independent of any particular type of instruction set, storage medium, processor, or processing strategy, and may be performed singly or in combination by software, hardware, IC, firmware, microcode, or the like. Likewise, processing strategies may include multiprocessing, multitasking, parallel processing, and the like.

As shown, the computer system 4200 can be used with, for example, a liquid crystal display (LCD), an organic light emitting diode (OLED), a flat panel display, a solid state display, a cathode ray tube (CRT), a projector, It may or may not include a display device 4210, such as a printer, or other devices currently known or later developed for outputting the determined information. The display device 4210 may act as an interface for a user to view the functions of the processor 4202, or specifically as an interface with software stored in the memory 4204 or in the drive device 4216.

Computer system 4200 may also include an input device 4212 configured to allow a user to interact with any of the components of system 4200. Input device 4212 can be a cursor control device such as a number pad, keyboard, or mouse, or a joystick, touch screen display, or other device that operates to interact with computer system 4200.

Computer system 4200 may also include a disk or optical drive device 4216. The disk drive device 4216 may include a computer readable medium 4222 in which one or more sets of instructions 4224 may be embodied, eg, software. Also, instructions 4224 can implement one or more methods or logic as described. In a particular example, instructions 4224 may reside wholly, or at least partially, within memory 4204 or within processor 4202 while being executed by computer system 4200 . As discussed above, memory 4204 and processor 4202 may also include computer-readable media.

The present invention includes commands 4224 or commands in response to a signal propagated so that a device connected to the network 4226 can communicate voice, video, audio, image, or other data over the network 4226. 4224. Consider a computer readable medium that receives and executes. Commands 4224 can also be sent or received via a communication port or interface 4220 or via network 4226 using bus 4208 . Communication port or interface 4220 may be part of processor 4202 or may be a separate component. Communication port 4220 can be created in software or can be a physical connection in hardware. Communication port 4220 may be configured to connect with network 4226, external media, display 4210, or any other component in system 4200, or combinations thereof. The connection to the network 4226 may be a physical connection such as a wired Ethernet connection or may be established as a wireless connection as described below. Similarly, additional connections with other components of system 4200 may be physical connections or may be established as wireless connections. Network 4226 may alternatively be directly coupled to bus 4208.

Network 4226 may include wired networks, wireless networks, Ethernet AVB networks, or combinations thereof. The wireless network may be a cellular telephone network, 802.11, 802.16, 802.20, 802.1Q or WiMax network. Network 426 may also be a public network, such as the Internet, a private network, such as an intranet, or combinations thereof, and may utilize a variety of networking protocols, including currently available or later developed, However, it is not limited to TCP/IP-based network protocols.

In an alternative example, dedicated hardware implementations such as specific integrated circuits (ICs), programmable logic arrays (PLAs), and other hardware devices may be configured to implement the various portions of system 4200. Applications that may include the system may include a wide variety of electrical and computer systems. One or more examples described may use two or more specific hardware modules or devices interconnected with associated control and data signals that may be communicated between and through the modules, or as part of an application specific integrated circuit (ASIC). function can be implemented. Thus, the system includes software, firmware, and hardware implementations.

The described system may be implemented by a software program executable by a computer system. Also in non-limiting examples, implementations may include distributed processing, component/object distributed processing, and parallel processing. Alternatively, a virtual computer system process may be configured to implement various parts of the system.

The system is not limited to operation with specific standards and protocols. For example, standards for Internet and other packet-switched network transport (eg, TCP/IP, UDP/IP, HTML, HTTP) may be used. These standards are periodically replaced by equivalents that are faster or more efficient and have essentially the same functions. Accordingly, alternative standards and protocols having the same or similar functions as disclosed are considered equivalents thereof.

Although specific language is used to describe the present disclosure, no limitations arising thereby are intended. As will be apparent to those skilled in the art, various modifications may be made to implement the inventive concept in accordance with the teachings herein.

The drawings and foregoing description provide examples. Those skilled in the art will understand that one or more of the described components may well be combined into a single functional element. Alternatively, certain components may be divided into multiple functional components. Components of one embodiment may be added to another embodiment. For example, the order of processing steps described herein may be changed and is not limited to the manner described herein. In addition, operations in some flowcharts do not have to be implemented in the order shown, and not all operations need to be performed. Also, operations that do not depend on other operations may be performed in parallel with other operations. The scope of the embodiments is in no way limited by these specific examples. Many variations are possible, such as differences in structure, dimensions, and use of materials, whether or not explicitly given herein. The scope of the embodiments is at least as wide as given by the following claims.

701, 1201: sender device 702, 1202: server
703, 1203: receiver device
2800 computing device 2801 input device
2802: processor 2803: transmission device
2900 computing device 2901 receiving device
2902: processor 2903: storage device
2904: Renderer
3000: email system
4200: computer system

Claims (20)

A method for operating an electronic device,
displaying a graphic user interface representing information on a plurality of pieces of data;
receiving a user input for first data and second data from among the plurality of pieces of data expressed through the graphic user interface and a comment corresponding to the second data;
determining an identifier indicating a relationship between the first data and the second data according to reception of the user input;
transmitting the first data to an external device at a first time point in a first communication; and
Transmitting the second data and the annotation together with the identifier to the external device at a second time point after the first time point in a second communication;
The header of the second data includes header data indicating that it has a link to the first communication,
The identifier includes at least one of a transaction ID, an application ID, at least a portion of the first data, and meta data of the first data. delete delete The method of claim 1 , wherein the graphic user interface includes a first graphic user interface including information about communication modes for transmitting the second data, wherein the operation of receiving the user input comprises:
receiving a selection of a first communication mode from among the communication modes through the first graphic user interface;
displaying details of the first data transmitted through the first communication mode through a second graphic user interface; and
Receiving a selection of the details through the second graphical user interface;
wherein the communication modes include an email communication mode, a short range communication mode, or an instant messaging communication mode. delete delete A method for operating an electronic device,
receiving first data from an external device at a first time point in a first communication;
storing the first data in a memory of the electronic device;
displaying the first data on a display of the electronic device;
In a second communication, at a second time point after the first time point, the first data includes second data including header data indicating that a link to the first communication is possessed and a comment corresponding to the second data, receiving, from the external device, an identifier indicating a relationship between the data and the second data;
obtaining the first data from the memory based on the identifier and the link for the first communication; and
In response to acquiring the first data from the memory or in response to receiving an instruction to display at least one of the first data and the second data, the first data and the second data are grouped together. combining and displaying on the display together with the annotation;
The identifier includes at least one of a transaction ID, an application ID, at least a portion of the first data, and meta data of the first data. delete delete delete The method of claim 7, wherein combining the first data and the second data comprises:
and combining the first data and the second data, which are audio data, into one audio data. delete The method of claim 7, wherein combining the first data and the second data comprises:
and combining the first data and the second data, which are video data, into one video data. delete The method of claim 7, wherein the operation of storing the first data,
and storing the first data in a directory corresponding to the identifier. According to claim 7,
receiving a user input associated with the displayed data combined into the one group; and
The method further comprising performing a function associated with the user input. According to claim 16,
The user input is a swipe input for the displayed data,
The method of claim 1 , wherein the function is a function of transmitting an e-mail including the second data. delete In electronic devices,
input device;
communication interface;
display;
a processor connected to the display, the input device and the communication interface; and
a memory coupled to the processor;
The memory, when executed, causes the processor to:
Displaying a graphical user interface representing information on a plurality of data on the display;
Receiving a user input for first data and second data among the plurality of data represented through the graphic user interface and a comment corresponding to the second data from the input device;
determining an identifier indicating a relationship between the first data and the second data;
Transmitting the first data to an external device through the communication interface at a first time point in a first communication;
storing instructions for transmitting the second data and the annotation together with the identifier to the external device through the communication interface at a second time point after the first time point in a second communication;
The header of the second data includes header data indicating that it has a link to the first communication,
The identifier includes at least one of a transaction ID, an application ID, at least a portion of the first data, and metadata of the first data. In electronic devices,
input device;
communication interface;
display;
a processor connected to the display, the input device and the communication interface; and
a memory coupled to the processor;
The memory, when executed, causes the processor to:
receiving first data from an external device through the communication interface at a first point in a first communication;
storing the first data in the memory;
displaying the first data on the display;
In a second communication, at a second time point after the first time point, the first data includes second data including header data indicating that a link to the first communication is possessed and a comment corresponding to the second data, receiving an identifier indicating a relationship between the second data and the second data from the external device through the communication interface;
obtaining the first data from the memory based on the identifier and the link to the first communication;
In response to obtaining the first data from the memory or in response to receiving an instruction from the input device to display at least one of the first data and the second data, the first data and the second data Stores instructions for combining into one group and displaying them on the display together with the annotation;
The identifier includes at least one of a transaction ID, an application ID, at least a portion of the first data, and metadata of the first data.

Images