JP2012222727A - Information processing unit, control method, and program - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an information processing unit, a control method, and a program capable of easily telling a user of parts, attracting much attention, of moving image content without a special operation.SOLUTION: A moving image share server 101 includes a CPU 201, a hard disc 202, and others to communicate with user terminals 102 to 104 via a network 105. The CPU 201 acquires playback section information that indicates a section played back on a user terminal in a moving image content stored in the hard disc 202, obtains playback accumulation information by accumulating the playback section information acquired, and transmits the resultant playback accumulation information to the user terminals via the network 105.

Description

  The present invention relates to an information processing apparatus, a control method, and a program that transmit and receive information related to reproduction of moving image content with a user terminal.

  Conventionally, there is a video content uploaded to a video sharing server that can be shared by a plurality of user terminals. In order to grasp the popularity of the video content uploaded to the video sharing server, the cumulative number of times of reproduction, which is the cumulative number of times each video content has been played, is displayed.

  On the other hand, a technique for generating a digest video of video content based on the degree of attention from the user to the video content has been proposed. For example, a video sharing server that acquires comment data including information indicating a playback position of video content, extracts a time zone in which the amount of the acquired comment data exceeds a threshold, and generates a digest video has been proposed (for example, , See Patent Document 1).

JP 2010-004309 A

  In the conventional technique disclosed in Patent Document 1 described above, a portion with a high degree of attention from the user cannot be extracted when comment data is not added to the moving image content. However, there is a problem that it takes time and effort to add comment data to the moving image content.

  An object of the present invention is to provide an information processing apparatus, a control method, and a program capable of easily notifying a user of a portion with a high degree of attention of moving image content without performing a special operation.

  In order to achieve the above object, the present invention is an information processing apparatus capable of communicating with a plurality of user terminals via a network, which is reproduced by a storage means for storing moving image content and a user terminal in the moving image content An acquisition means for acquiring playback section information indicating a section; an accumulation means for accumulating the playback section information acquired by the acquisition means to obtain playback cumulative information; and transmitting the playback cumulative information obtained by the accumulation means to a user terminal. And a transmission means.

  According to the present invention, the reproduction section information indicating the section reproduced by the user terminal in the moving image content is accumulated to obtain reproduction accumulation information, and is transmitted to the user terminal. Accordingly, it is possible to easily notify the user of a portion with a high degree of attention of the moving image content without performing a special operation. As a result, on the user terminal side, it is possible to intuitively understand which section of the moving image content to be reproduced is popular on the network.

It is a conceptual diagram which shows the structure of the moving image sharing system which concerns on the 1st Embodiment of this invention. It is a block diagram which shows the hardware constitutions of a moving image sharing server and a user terminal. It is a flowchart which shows operation | movement of a moving image sharing server. It is a flowchart which shows operation | movement of a user terminal. (A) is a figure which shows the log | history of the reproduction area information of the moving image file 1 by the user terminal 102 memorize | stored in the hard disk. (B) is a figure which shows the log | history of the reproduction area information of the moving image file 1 by the user terminal 103 memorize | stored in the hard disk. (C) is a figure which shows the accumulation | storage (before shaping) of the log | history of the reproduction area information of the moving image file 1 by the user terminal 102, and the log | history of the reproduction area information of the moving image file 1 by the user terminal 103. FIG. (D) is a figure which shows the accumulation (after shaping) calculated | required by integrating the frequency | count of reproduction | regeneration of each reproduction area in (c). (E) is a figure which shows the accumulation (after shaping) of the reproduction time in 1 second intervals in (c). It is a figure which shows the example of the GUI screen of the moving image file 1 of a user terminal. It is a flowchart which shows operation | movement of the moving image sharing server which concerns on the 2nd Embodiment of this invention. It is a flowchart which shows operation | movement of the user terminal which concerns on the 3rd Embodiment of this invention.

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

[First Embodiment]
FIG. 1 is a conceptual diagram showing a configuration of a moving image sharing system according to the first embodiment of the present invention.

  In FIG. 1, in the video sharing system, a video sharing server 101 and a plurality of user terminals 102, 103, 104 are connected via a network 105. In this embodiment, the user terminal 102 is a personal computer (PC), the user terminal 103 is a portable terminal, and the user terminal 104 is a media player, but the present invention is not limited to this. The network 105 may be either a WAN (Wide Area Network) such as the Internet, or a LAN (Local Area Network).

  The user terminals 102 to 104 transmit a moving image reproduction request for requesting reproduction of a moving image file (moving image content) to the moving image sharing server 101 via the network 105. When the moving image sharing server 101 receives a moving image reproduction request from the user terminals 102 to 104, the moving image sharing server 101 transmits moving image data at a specified position in the moving image file to be reproduced. When receiving the moving image data from the moving image sharing server 101, the user terminals 102 to 104 decode the moving image data and display the decoded data on a specified GUI (Graphical User Interface) screen.

  FIG. 2 is a block diagram illustrating a hardware configuration of the moving image sharing server and the user terminal.

  In FIG. 2, the moving image sharing server 101 can be configured using a general PC (information processing apparatus), and is connected to an internal bus 205 with a CPU 201, a hard disk (HDD) 202, a memory 203, a communication interface ( I / F) 204 is connected. The units exchange data with each other via the internal bus 205.

  The hard disk 202 stores moving image data, other data, various programs for operating the CPU 201, and the like. The program may be stored in advance in a ROM (not shown), for example. The memory 203 is composed of a RAM, for example. The CPU 201 controls each part of the video sharing server using the memory 203 as a work memory according to the program. The communication I / F 204 performs communication via the network 105 based on the control of the CPU 201.

  The user terminal 102 can be configured using a general PC, and the CPU 211, hard disk 212, memory 213, input unit 214, communication I / F 215, and display control unit 216 are connected to the internal bus 218. The The units exchange data with each other via an internal bus 218. The user terminals 103 and 104 have the same configuration.

  The hard disk 212 stores moving image data, other data, various programs for operating the CPU 211, and the like. The program may be stored in advance in a ROM (not shown), for example. The memory 213 is constituted by a RAM, for example. The CPU 211 controls each part of the user terminal using the memory 213 as a work memory according to the program. The communication I / F 215 performs communication via the network 105 based on the control of the CPU 211.

  The input unit 214 receives an operation from the user, generates a control signal corresponding to the operation, and supplies the control signal to the CPU 211. The input unit 214 includes a character information input device (keyboard), a pointing device (mouse, touch panel), and the like as input devices that receive operations. Note that the touch panel is configured to output coordinate information corresponding to a position by touching an input unit configured in a planar manner, for example.

  The CPU 211 controls each part of the user terminal according to a program based on a control signal generated and supplied by the input unit 214 according to a user operation. Thereby, it is possible to cause the user terminal to perform an operation according to the user's operation.

  The display control unit 216 outputs a display signal for displaying an image to the display 217. The display control unit 216 generates a display signal based on the display control signal that is decoded and output by the CPU 211 according to the program, and outputs the display signal to the display 217. The display control unit 216 causes the display 217 to display a GUI screen constituting a GUI (Graphical User Interface) based on the display control signal output from the CPU 211.

  When a touch panel is used as the input unit 214, if the user terminal is a mobile terminal, the input unit 214 and the display 217 can be configured integrally. For example, the touch panel is configured such that the light transmittance does not hinder the display of the display 217, is attached to the upper layer of the display surface of the display 217, and the input coordinates of the touch panel are associated with the display coordinates of the display 217. Thereby, it is possible to configure the GUI as if the user can directly operate the display screen of the display 217.

  Next, basic operations of the moving image sharing server 101 and the user terminal according to the present embodiment having the above-described configuration will be described with reference to FIGS.

  FIG. 3 is a flowchart showing the operation of the moving image sharing server. This process is realized by the CPU 201 of the moving image sharing server 101 developing and executing a program stored in the hard disk 202 on the memory 203.

  In FIG. 3, the CPU 201 of the video sharing server 101 determines whether or not the video sharing server 101 has received a reproduction accumulation information acquisition request from a user terminal (in this embodiment, the user terminal 102 is taken as an example) via the network 105. Is determined (step S301).

  When receiving the reproduction accumulation information acquisition request from the user terminal 102, the CPU 201 determines which moving image file the reproduction accumulation information acquisition request has been received (in this embodiment, the moving image file 1). Process. The CPU 201 creates reproduction accumulation information from the reproduction section information of the moving image file 1 recorded on the hard disk 202, and transmits it to the user terminal 102 via the network 105 (step S302).

  Here, the reproduction accumulation information is information obtained by accumulating the number of reproductions in each reproduction section of a moving image by a plurality of user terminals (see FIG. 5). A method of creating the reproduction accumulation information of the moving image file will be described later. The playback section information is information related to a section of the moving image that is played by the user terminal, and is information that indicates from the playback start position (time information) to the playback stop position (time information).

  If the acquisition request for the accumulated reproduction information has not been received from the user terminal 102, the CPU 201 determines whether a reproduction request for the moving image file 1 has been received from the user terminal 102 via the network 105 (step S303). When the reproduction request for the moving image file 1 has not been received from the user terminal 102, this process ends.

  When the reproduction request for the moving image file 1 is received from the user terminal 102, the CPU 201 downloads the reproduction request target moving image file 1 to the user terminal 102 via the network 105 (step S304). Thereby, the user terminal 102 reproduces the moving image file 1 while downloading the moving image file 1.

  Next, the CPU 201 determines whether or not the reproduction request for the moving image file 1 from the user terminal 102 is within a specified number of times (for example, the second time to the tenth time) (step S305). In the present embodiment, the number of times is 2 or more and 10 or less, but it may be m times or more and n times (m <n: m and n are natural numbers) other than the numerical values (2, 10). If the reproduction request for the moving image file 1 is not the second time or more and the tenth time or less, this processing is terminated.

  When the reproduction request for the moving image file 1 is between the second time and the tenth time, the CPU 201 holds information indicating the reproduction start position or the data acquisition start position included in the reproduction request for the moving image file 1 from the user terminal 102 in the memory 203. (Step S306). Here, when the reproduction start position or the data acquisition position is not a time but a byte position, the moving image file additional information such as bit rate information is converted into time information and stored.

  Next, the CPU 201 determines whether or not a reproduction stop request for the moving image file 1 has been received from the user terminal 102 via the network 105 (step S307). When the reproduction stop request for the moving image file 1 is received from the user terminal 102, the process proceeds to step S309. When the reproduction stop request for the moving image file 1 is not received from the user terminal 102, the CPU 201 determines whether or not the reproduction of the moving image file 1 is ended (step S308).

  When the reproduction of the moving image file 1 is not finished, the process returns to step S307. When the reproduction of the moving image file 1 is ended, the CPU 201 holds the reproduction stop position (time information) at the time when the reproduction stop request is received in the memory 203.

  Then, the CPU 201 performs the following recording on the hard disk 202. From the playback start position (time information) already held in the memory 203 to the playback stop position (time information) is recorded as playback section information for the moving image file 1 of the user terminal 102 together with the number of playback requests by the user terminal 102 (step). S309). Thereby, this process is complete | finished.

  In the present embodiment, the playback section information indicating a section that has been played a predetermined number of times or more by the same user terminal in the moving image file (moving picture content) is acquired (reproducing section information for the second and subsequent times by the same user is acquired). Also, the playback section information indicating a section that has been played a certain number of times or more by the same user terminal in the moving image file (moving picture content) is not acquired (reproducing section information exceeding the tenth time by the same user is discarded).

  That is, the playback section information indicating the section played back by the same user terminal within a certain number of times in the moving image file (moving image content) is acquired.

  The playback section information corresponding to one video playback request recorded by the video sharing server 101 is used when generating playback cumulative information to be transmitted to the user terminal 102. When stopping at the end of playback of a moving image, the end of the moving image is the playback stop position.

  The playback request in the present embodiment is not limited to normal playback of moving images, but includes slow playback, slow reverse playback, frame advance playback, frame reverse playback, and pause of moving images. In the case of a pause, the playback section information may be a fixed section before and after the time of the pause.

  That is, the playback section information acquired by the user terminal includes playback section information indicating a slow playback of a moving image, slow reverse playback frame advance playback, frame reverse playback, and a paused section.

  FIG. 4 is a flowchart showing the operation of the user terminal. This process is realized by, for example, the CPU 211 of the user terminal 102 developing and executing a program stored in the hard disk 212 on the memory 213.

  In FIG. 4, the CPU 211 of the user terminal 102 transmits an acquisition request for reproduction cumulative information of the moving image file 1 specified by the input unit 214 from the user to the moving image sharing server 101 via the network 105 (step S <b> 401). After transmitting the reproduction accumulation information acquisition request, the CPU 211 determines whether or not the reproduction accumulation information of the moving image file 1 has been received from the moving image sharing server 101 via the network 105 (step S402).

  If the reproduction accumulation information of the moving image file 1 is not received from the moving image sharing server 101, the process proceeds to step S404. When the reproduction accumulation information of the moving image file 1 is received from the moving image sharing server 101, the CPU 211 creates a reproduction GUI screen (reproduction screen design) based on the received reproduction accumulation information of the moving image file 1 (step S403). . A method for creating a GUI screen based on the accumulated reproduction information of the moving image file 1 will be described later.

  Next, the CPU 211 transmits a reproduction request including information indicating the reproduction start position of the moving image file 1 specified by the input unit 214 or information indicating the data acquisition start position to the moving image sharing server 101 via the network 105. (Step S404). The information indicating the reproduction start position or the information indicating the data acquisition start position may be time information or a byte position of moving image data.

  After transmitting the reproduction request to the video sharing server 101, the CPU 211 downloads the video file 1 to be reproduced from the video sharing server 101 via the network 105 (step S405).

  Next, the CPU 211 determines whether or not the user has designated to stop playback of the moving image file 1 by the input unit 214 (step S406). If the reproduction stop of the moving image file 1 is designated, the process proceeds to step S408. When it is not designated to stop the reproduction of the moving image file 1, the CPU 211 decrypts the data of the moving image file 1 received from the moving image sharing server 101 via the network 105.

  Further, the CPU 211 causes the display control unit 216 to display the decrypted moving image file 1 data together with the reproduction GUI screen on the display 217 (step S407). The CPU 211 continues the reproduction display of the moving image file 1 until the user designates the reproduction stop by the input unit 214.

  When the stop of playback of the movie file 1 is designated, the CPU 211 transmits a playback stop request for the movie file 1 designated by the user via the input unit 214 to the movie sharing server 101 via the network 105 (step S408). Thereby, this process is complete | finished.

  Next, a method of creating reproduction accumulation information of moving image files by the CPU 201 of the moving image sharing server 101 described in step S302 of FIG. 3 will be described with reference to FIGS. 5a and 5b.

  FIG. 5A (a) is a diagram showing a history of playback section information of the moving image file 1 by the user terminal 102 stored in the hard disk. FIG. 5A (b) is a diagram showing a history of playback section information of the moving image file 1 by the user terminal 103 stored in the hard disk.

  In FIG. 5A (a), the horizontal axis represents the time axis (unit: second) of the moving image file 1, and the moving image file 1 has a total of 17 seconds. The CPU 201 of the video sharing server 101 does not store the first playback request from the user terminal 102 (PC in this embodiment). The CPU 201 stores the playback section (from 3 seconds to 7 seconds) of the second playback request by the user terminal 102 as the playback section a in the hard disk 202.

  Similarly, the CPU 201 stores the playback section (from 10 seconds to 14 seconds) of the third playback request by the user terminal 102 in the hard disk 202 as the playback section b. Similarly, the CPU 201 stores the playback section (from 3.5 seconds to 6.5 seconds) of the fourth playback request by the user terminal 102 in the hard disk 202 as the playback section c.

  In FIG. 5 a (b), the CPU 201 does not store the first reproduction request from the user terminal 103 (portable terminal in the present embodiment). The CPU 201 stores the playback section (from 2 seconds to 6 seconds) of the second playback request by the user terminal 103 as the playback section d in the hard disk 202.

  Similarly, the CPU 201 stores the playback section (from 10 seconds to 15 seconds) of the third playback request by the user terminal 103 as the playback section e in the hard disk 202. Similarly, the CPU 201 stores the playback section (from 4 seconds to 7 seconds) of the fourth playback request by the user terminal 103 in the hard disk 202 as the playback section f.

  FIG. 5B (c) is a diagram showing the cumulative (before shaping) history of the playback section information of the moving image file 1 by the user terminal 102 and the history of the playback section information of the moving image file 1 by the user terminal 103. FIG. 5 b (d) is a diagram showing the cumulative total (after shaping) obtained by integrating the number of reproductions in each reproduction section in (c). FIG. 5 b (e) is a diagram showing the cumulative reproduction time (after shaping) at 1 second intervals in (c).

  In FIGS. 5 b (c) and 5 b (d), the section of 2 to 3 seconds of the moving image file 1 is recorded as 1 because it is played back once (playback section d) by the user terminal 103. The section 3 to 3.5 seconds of the moving image file 1 is recorded as 2 since it is played twice in total (playback section a) once by the user terminal 102 and once (playback section d) by the user terminal 103. Is done.

  The section of the moving image file 1 of 3.5 to 4 seconds is played back three times by the user terminal 102 (playback sections a and c) and once by the user terminal 103 (playback section d). As recorded. The 4 to 6 second section of the video file 1 is played a total of four times, twice (playback sections a and c) by the user terminal 102 and twice (playback sections d and f) by the user terminal 103. As recorded.

  The section of 6 to 6.5 seconds of the video file 1 is played back three times by the user terminal 102 (playback sections a and c) and once by the user terminal 103 (playback section f). As recorded. The 6.5 to 7 second section of the video file 1 is recorded as 2 since it has been played twice by the user terminal 102 once (playback section a) and once by the user terminal 103 (playback section f). Is done.

  The 10 to 14 second section of the moving image file 1 is recorded as 2 because it is played twice in total (playback section b) once by the user terminal 102 and once (playback section e) by the user terminal 103. . The 14 to 15 second section of the moving image file 1 is recorded as 1 because it is played once by the user terminal 103 (playback section e). Other sections are recorded as 0.

  In the example of FIG. 5b (d), the number of reproductions of each section (2 to 3 seconds, 3 to 3.5 seconds,...) Is integrated, but as shown in FIG. May be accumulated. That is, a section of 2 to 3 seconds of the moving image file 1 is recorded as 1 because it is played back (playback section d) by the user terminal 103 for 1 second. A section of 3 to 4 seconds of the moving image file 1 is recorded as 2.5 because it is reproduced by the user terminal 102 for a total of 1.5 seconds and by the user terminal 103 for a total of 1 second.

  The 4 to 6 second section of the video file 1 is reproduced four times in total for two seconds (reproduction sections a and c) by the user terminal 102 and two seconds (reproduction sections d and f) by the user terminal 103. Recorded as 4. The section of 6 to 7 seconds of the moving image file 1 is recorded as 2.5 because it is reproduced by the user terminal 102 for a total of 1.5 seconds and by the user terminal 103 for a total of 1 second. The other playback sections are the same as in FIG. 5b (d).

  The CPU 201 of the moving image sharing server 101 transmits the reproduction accumulation information of the moving image file 1 created as described above to the user terminal that has made a reproduction accumulation information acquisition request.

  Next, a method for creating a GUI screen based on moving image file reproduction accumulated information by the CPU 211 of the user terminal 102 described in step S403 of FIG. 4 will be described with reference to FIG.

  FIG. 6 is a diagram illustrating an example of a GUI screen of the moving image file 1 of the user terminal.

  In FIG. 6, the moving image file 1 is reproduced and displayed in the area 601 of the GUI screen (reproduction screen) displayed on the display 217 of the user terminal 102. The time bar 602 is configured so that the color density changes according to the number of times of reproduction (or reproduction time) of the moving image for each time (or each time zone) based on the accumulated reproduction information of the moving image file 1. .

  In this embodiment, the case where the color intensity of the time bar 602 is changed based on the number of times of reproduction (or reproduction time) of the moving image for each time (or each time period) is taken as an example. The GUI screen design method is not limited to this. For example, the thickness of the time bar 602 may be changed based on the number of times of reproduction (or reproduction time) for each time (or each time zone).

  In the example of FIG. 5b (d), the color of the time bar 602 in the section of 4 to 6 seconds is the darkest. A user interface 603 indicates a playback position based on a user operation. When the user moves the user interface 603 with a mouse or a finger, the user terminal 102 can transmit a reproduction start request from the reproduction start position corresponding to the position of the user interface 603 to the moving image sharing server 101. In addition, a button 604 for instructing to pause or stop moving image playback is also displayed.

  As described above, according to the present embodiment, even in a video sharing server that cannot add comment data to video content, a portion with a high degree of attention of video content can be easily obtained without performing a special operation. It is possible to inform the user. Thereby, on the user terminal side, it is possible to intuitively understand which section of the moving image file to be reproduced is popular on the network.

[Second Embodiment]
The second embodiment of the present invention is different from the first embodiment in the points described below. Since the other elements of the present embodiment are the same as the corresponding ones of the first embodiment (FIGS. 1 and 2), description thereof is omitted.

  In the present embodiment, a playback section acquisition method different from that of the first embodiment in the video sharing server will be described. The operation of the user terminal of the present embodiment is the same as that of the first embodiment.

  FIG. 7 is a flowchart showing the operation of the video sharing server according to the present embodiment. This process is realized by the CPU 201 of the moving image sharing server 101 developing and executing a program stored in the hard disk 202 on the memory 203.

  In FIG. 7, the CPU 201 of the video sharing server 101 determines whether or not the video sharing server 101 has received a reproduction accumulation information acquisition request from a user terminal (in this embodiment, the user terminal 102 is taken as an example) via the network 105. Is determined (step S701).

  When receiving the reproduction accumulation information acquisition request from the user terminal 102, the CPU 201 determines which moving image file the reproduction accumulation information acquisition request has been received (in this embodiment, the moving image file 1). Process. The CPU 201 creates reproduction accumulation information from the reproduction section information of the moving image file 1 recorded on the hard disk 202, and transmits it to the user terminal 102 via the network 105 (step S702). The method for creating the reproduction accumulation information of the moving image file 1 is as described in the first embodiment.

  If the acquisition request for the accumulated reproduction information has not been received from the user terminal 102, the CPU 201 determines whether a reproduction request for the moving image file 1 has been received from the user terminal 102 via the network 105 (step S703). When the reproduction request for the moving image file 1 has not been received from the user terminal 102, this process ends.

  When the reproduction request for the moving image file 1 is received from the user terminal 102, the CPU 201 downloads the reproduction request target moving image file 1 to the user terminal 102 via the network 105 (step S304). Thereby, the user terminal 102 reproduces the moving image file 1 while downloading the moving image file 1.

  Next, the CPU 201 determines whether or not the information indicating the reproduction start position or the data acquisition start position included in the reproduction request for the moving image file 1 from the user terminal 102 is discontinuous (step S705). If the information indicating the reproduction start position or the data acquisition start position is not discontinuous, this process ends.

If the information indicating the reproduction start position or the data acquisition start position is discontinuous, information indicating the reproduction start position or the data acquisition start position is held in the memory 203 (step S706).
The information indicating the reproduction start position or the data acquisition start position being discontinuous indicates that the reproduction start position or the data acquisition start position is newly designated from the user terminal 102. Here, when the reproduction start position or the data acquisition start position is not a time but a byte position, the moving image file additional information such as bit rate information is converted into time information and stored.

  Next, the CPU 201 determines whether or not a reproduction stop request for the moving image file 1 is received from the user terminal 102 via the network 105 (step S707). When the reproduction stop request for the moving image file 1 is received from the user terminal 102, the process proceeds to step S709. When the reproduction stop request for the moving image file 1 is not received from the user terminal 102, the CPU 201 determines whether or not to end the reproduction of the moving image file 1 (step S708).

  If the reproduction of the moving image file 1 is not terminated, the process returns to step S707. When the reproduction of the moving image file 1 is finished, the CPU 201 holds the reproduction stop position (time information) at the time when the reproduction stop request is received in the memory 203.

  Then, the CPU 201 makes the following determination. From the playback start position (time information) to the playback stop position (time information) already stored in the memory 203 as a playback section for the moving image file 1 of the user terminal 102, this playback section is a predetermined time (for example, 5 seconds) or more. It is determined whether or not there is (step S709). If the playback section is less than a certain time, this process ends.

  If the playback section is longer than a certain time, the CPU 201 performs the next recording. The playback section determined to have been played for a predetermined time is recorded on the hard disk 202 together with the number of playback requests by the user terminal 102 as playback section information for the moving image file 1 of the user terminal 102 (step S710). Thereby, this process is complete | finished.

  In the present embodiment, playback section information indicating a section that has been continuously played back by a user terminal in a moving image file (moving image content) for a predetermined time or longer is acquired. This is information for determining which section of the moving image file is popular on the network. Also, playback section information indicating a section in which playback is started discontinuously by the user terminal in the moving image file (moving image content) is acquired. This is information indicating a section newly designated from the user terminal in the moving image file.

  The playback section information corresponding to a single video playback request recorded here is used when generating playback cumulative information to be transmitted to the user terminal 102 as described in the first embodiment.

  The playback request in the present embodiment is not limited to normal playback of moving images, but includes slow playback, slow reverse playback, frame advance playback, frame reverse playback, and pause of moving images. In the case of a pause, the playback section information may be a fixed section before and after the time of the pause.

  As described above, according to the present embodiment, on the user terminal side, it is possible to intuitively understand which section of the moving image file to be reproduced is popular on the network.

[Third Embodiment]
The third embodiment of the present invention is different from the first embodiment in the points described below. Since the other elements of the present embodiment are the same as the corresponding ones of the first embodiment (FIGS. 1 and 2), description thereof is omitted.

  In the first and second embodiments, the case where the moving image sharing server 101 transmits reproduction accumulated information to the user terminal (step S302 in FIG. 3 and step S702 in FIG. 7) has been described. In the present embodiment, a case will be described in which the moving image sharing server 101 creates a reproduction GUI based on the accumulated reproduction information and transmits it to the user terminal.

  First, when the CPU 201 of the video sharing server 101 receives a cumulative information acquisition request from the user terminal 102 (step S301 in FIG. 3 and step S701 in FIG. 7), the CPU 201 of the video sharing server 101 uses the playback section information of the video file 1 recorded on the hard disk 202. Create playback accumulation information. The method for creating the reproduction accumulation information of the moving image file 1 is as described in the first embodiment.

  Next, the CPU 201 creates a reproduction GUI screen based on the reproduction accumulation information. The method for creating the reproduction GUI screen is the same as the method described with reference to FIG. 6 in the first embodiment.

  For example, the CPU 201 includes a time bar with a time bar in which the color of the time bar is changed according to the number of times of reproduction (or reproduction time) for each time (or each time zone) based on the accumulated reproduction information of the moving image file 1. Reproduction GUI information is created. The reproduction GUI information is described in HTML (Hyper Transfer Markup Language), Java (registered trademark), and other programming languages.

  Thereafter, the CPU 201 transmits the created reproduction GUI information to the user terminal 102 via the communication I / F 204.

  The playback request in the present embodiment is not limited to normal playback of moving images, and includes slow playback, slow reverse playback, frame advance playback, frame reverse playback, and pause of moving images. In the case of a pause, as a playback section information, a fixed section before and after the pause may be set as a playback section.

  FIG. 8 is a flowchart showing the operation of the user terminal according to the present embodiment. This process is realized by, for example, the CPU 211 of the user terminal 102 developing and executing a program stored in the hard disk 212 on the memory 213.

  In FIG. 8, the CPU 211 of the user terminal 102 transmits a reproduction request for the moving image file 1 designated by the user through the input unit 214 to the moving image sharing server 101 via the network 105 (step S <b> 801). After transmitting the reproduction request, the CPU 211 determines whether or not the reproduction GUI information of the moving image file 1 has been received from the moving image sharing server 101 via the network 105 (step S802).

  When the reproduction accumulation information of the moving image file 1 is not received from the moving image sharing server 101, the process proceeds to step S804. When the reproduction accumulation information of the moving image file 1 is received from the moving image sharing server 101, the CPU 211 performs the following processing. The received reproduction GUI information (information described in a programming language such as HTML or Java (registered trademark)) is interpreted to generate a reproduction GUI screen (reproduction screen design) (step S803).

  Next, the CPU 201 determines whether or not the user has designated stop of playback of the moving image file 1 by the input unit 214 (step S804). If playback stop of the moving image file 1 is designated, the process proceeds to step S806. When it is not designated to stop the reproduction of the moving image file 1, the CPU 211 decrypts the data of the moving image file 1 received from the moving image sharing server 101 via the network 105.

  Further, the CPU 211 causes the display control unit 216 to display the decoded moving image file 1 data together with the reproduction GUI screen on the display 217 (step S805). The CPU 211 continues the reproduction display of the moving image file 1 until the user designates the reproduction stop by the input unit 214.

  When the stop of reproduction of the moving image file 1 is designated, the CPU 211 transmits a reproduction stop request for the moving image file 1 designated by the input unit 214 from the user to the moving image sharing server 101 via the network 105 (step S806). Thereby, this process is complete | finished.

  As described above, according to the present embodiment, on the user terminal side, it is possible to intuitively understand which section of the moving image file to be reproduced is popular on the network.

[Other Embodiments]
In the first and third embodiments, the preferred embodiments of the present invention have been described. However, the present invention is not limited to these embodiments, and various modifications and changes can be made within the scope of the present invention. It is.

  The present invention can also be realized by executing the following processing. That is, software (computer-readable program code) that realizes the functions of the above-described embodiments is supplied to a system or apparatus via a network or various storage media. Then, the computer (or CPU, MPU, etc.) of the system or apparatus reads out and executes the program code.

101 Video sharing server 102, 103, 104 User terminal 105 Network 201 CPU
202 hard disk

Claims (10)

An information processing apparatus capable of communicating with a plurality of user terminals via a network,
Storage means for storing video content;
Obtaining means for obtaining reproduction section information indicating a section reproduced by the user terminal in the video content;
Accumulating means for accumulating the reproduction section information obtained by the obtaining means to obtain reproduction accumulated information;
Transmitting means for transmitting reproduction accumulation information obtained by the accumulating means to a user terminal;
An information processing apparatus comprising:   The information processing apparatus according to claim 1, wherein the acquisition unit acquires reproduction section information indicating a section that is reproduced within a certain number of times by the same user terminal in the moving image content.   The information processing apparatus according to claim 1, wherein the acquisition unit acquires playback section information indicating a section of video content that has been continuously played back by a user terminal for a certain period of time.   The information processing apparatus according to claim 1, wherein the acquisition unit acquires playback section information indicating a section of the moving image content that is started to be played back discontinuously by the user terminal.   The said acquisition means acquires the reproduction | regeneration area information which shows the slow play of the video content slow play, slow reverse play, frame advance play, frame reverse play, and the paused part by the user terminal. Information processing device. An information processing apparatus capable of communicating with a plurality of user terminals via a network,
Storage means for storing video content;
Obtaining means for obtaining reproduction section information indicating a section reproduced by the user terminal in the video content;
Accumulating means for accumulating the reproduction section information obtained by the obtaining means to obtain reproduction accumulated information;
Creating means for creating a design of a playback screen for displaying information including the number of playback times of the video content according to the playback cumulative information obtained by the cumulative means;
Transmitting means for transmitting the design of the reproduction screen created by the creating means to a user terminal;
An information processing apparatus comprising:   The information processing apparatus according to claim 6, wherein the creation unit creates a design of a time bar indicating the number of times of playback or the playback time of the moving image content according to the playback cumulative information. An information processing apparatus control method capable of communicating with a plurality of user terminals via a network,
An acquisition step of acquiring reproduction section information indicating a section reproduced by a user terminal in the moving image content stored in the information processing apparatus;
An accumulation step of accumulating the reproduction section information acquired by the acquisition step to obtain reproduction accumulation information;
A transmission step of transmitting reproduction accumulation information obtained by the accumulation step to a user terminal;
A control method comprising: An information processing apparatus control method capable of communicating with a plurality of user terminals via a network,
An acquisition step of acquiring reproduction section information indicating a section reproduced by a user terminal in the moving image content stored in the information processing apparatus;
An accumulation step of accumulating the reproduction section information acquired by the acquisition step to obtain reproduction accumulation information;
A creation step of creating a reproduction screen design for displaying information including the number of times of reproduction of the video content according to the reproduction accumulation information obtained by the accumulation step;
A transmission step of transmitting the design of the reproduction screen created by the creation step to a user terminal;
A control method comprising:   A program having computer-readable program code for causing a computer to execute the control method of the information processing apparatus according to claim 8 or 9.

Images