JP2018133619A - Communication terminal device and management device - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a mechanism for reproducing moving image information transmitted from a management device by a communication protocol different from a communication protocol that can be reproduced by an application included in a communication terminal device.SOLUTION: A communication terminal device that communicates with a management device including a storage unit for storing moving image information includes an application for reproducing moving image information supplied by a first communication protocol, a receiving unit that receives each segment in which moving image information is time-divided on a reproduction time axis by a second communication protocol different in a data transfer manner from a first communication protocol, an acquisition unit that acquires a transfer request for a segment to be reproduced by the application from the application, and a segment supply unit that supplies, to the application, the reproduction target segment that is received in response to the reception of the reproduction target segment indicating transfer request from among the divided segments at the receiving unit by the first communication protocol.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a communication terminal device and a management device.

  2. Description of the Related Art Conventionally, a technology is known in which a communication terminal device such as a mobile phone and a management device such as a server that manages information on the communication terminal device are connected via a network, and information stored in the communication terminal device is shared with the management device. (For example, Patent Document 1).

JP 2000-181862 A

A user of a mobile phone may want to save information such as a moving image captured by the mobile phone in a management device such as a server. In addition, the user may want to reproduce information such as a moving image stored in the management device using a mobile phone.
Here, the management apparatus may transmit the moving image information to the mobile phone using a UDP (User Datagram Protocol) protocol. In addition, a mobile phone may have a moving image reproduction application that reproduces moving image information received by a TCP (Transmission Control Protocol) protocol. In this case, the moving image reproduction application may not be able to reproduce the moving image information received from the management device.
The present invention has been made in view of the above problem, and has a mechanism for reproducing moving image information transmitted from a management device using a communication protocol different from a communication protocol that can be reproduced by a moving image reproduction application included in a communication terminal device. The purpose is to provide.

  (1) One aspect of the present invention is a communication terminal device that communicates with a management device including a storage unit in which video information is stored, and a video playback application that plays back video information supplied by the first communication protocol; A segment that is time-divisionally segmented on the playback time axis for the moving image information for each segment by a second communication protocol that is different in data transfer method from the first communication protocol, and a segment of a segment to be played back by the moving image playback application An acquisition unit that acquires each transfer request from the video playback application, and among the divided segments, the playback target segment indicated by the transfer request is received in response to reception by the receiving unit. The segment to be played back is reproduced by the first communication protocol. And segment supply section for supplying to the publication, a communication terminal device comprising a.

  (2) One aspect of the present invention is the communication terminal device according to (1), wherein the data amount of the segment is based on communication quality between the management device and the device itself when receiving the segment. A data amount information generating unit that generates data amount information indicating a data amount information generating unit that supplies the data amount information generated by the data amount information generating unit to the management device, and the receiving unit includes: The segment generated in response to the data amount information being supplied is received.

  (3) One embodiment of the present invention is a management device that communicates with a communication terminal device, the storage unit storing moving image information, and the moving image information stored in the storage unit as the moving image information. A division unit that time-divides into a plurality of segments on the reproduction time axis based on the reproduction time, and at least a part of the video information is divided into the segments by the division unit. And a transmission unit that transmits a segment to the communication terminal device.

  (4) One aspect of the present invention is the management device according to (3), in which the data amount of the segment is based on communication quality between the communication terminal device and the own device when the segment is received. A data amount information generating unit that generates data amount information indicating the time, and the dividing unit time-divides the information amount based on the data amount information generated by the data amount information generating unit on the playback time axis .

  ADVANTAGE OF THE INVENTION According to this invention, the structure which reproduces | regenerates the moving image information transmitted from the management apparatus by the communication protocol different from the communication protocol which the moving image reproduction application which a communication terminal device has can reproduce | regenerate can be provided.

It is a figure which shows the outline | summary of the communication terminal device and NAS device which concern on this embodiment. It is a figure which shows an example of a function structure of the communication terminal device and NAS apparatus which concern on this embodiment. It is a flowchart which shows an example of operation | movement of the communication terminal device and NAS device which concern on this embodiment. It is a figure which shows an example of the list | wrist which concerns on this embodiment. It is a figure which shows an example of the transfer request information which concerns on this embodiment. It is a figure which shows an example of a structure of the communication terminal device and NAS apparatus which concern on a modification.

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

<Outline of NAS device>
FIG. 1 is a diagram showing an outline of the communication terminal device 10 and the NAS device 20 according to the present embodiment.
A NAS (Network Access Server) device 20 manages data (for example, music, photos, and moving images) received from the communication terminal device 10. The NAS device 20 includes a storage unit 230 such as a hard disk drive or a ROM (Read-Only-memory). The storage unit 230 stores data such as photos, videos, and music transmitted from the communication terminal device 10. The data stored in the storage unit 230 can also be read by the communication terminal device 10. In this case, the NAS device 20 functions as a file server of the communication terminal device 10. In the following description, data indicating a moving image stored in the storage unit 230 is referred to as moving image information V. Further, for convenience of explanation, a case where a single piece of moving image information V is stored in the storage unit 230 will be described.

  Here, a case where the NAS device 20 can communicate with the communication terminal device 10 by Wi-Fi will be described. Specifically, the NAS device 20 can receive the Wi-fi radio waves when the communication terminal device 10 is installed in a user's home, for example, when a router that provides short-range wireless communication by Wi-Fi is installed in the user's home. In this case, communication is performed by Wi-Fi.

<Outline of communication terminal device>
The communication terminal device 10 is a portable device, and performs wireless communication according to a user operation. The communication terminal device 10 is, for example, a portable personal computer such as a mobile phone, a smartphone, and a tablet computer (tablet PC).
The communication terminal device 10 can communicate with the NAS device 20 by Wi-Fi. Further, the communication terminal device 10 and the NAS device 20 are connected so as to be able to transmit and receive information by, for example, a peer-to-peer (P2P) method.

Here, the moving image information V stored in the NAS device 20 may be reproduced in the communication terminal device 10. In this case, the NAS device 20 transmits the moving image information V to the communication terminal device 10 using a UDP (User Datagram Protocol) protocol that is a protocol suitable for transmitting moving image data.
However, the communication terminal device 10 does not have a function of reproducing the moving image information V received by the UDP protocol, and an application for reproducing the moving image information V received by the TCP (Transmission Control Protocol) protocol (hereinafter referred to as a moving image reproduction application). ) May have. Therefore, the communication terminal device 10 cannot reproduce the moving image information V received from the NAS device 20.
The communication terminal device 10 according to the present embodiment reproduces the moving image information transmitted from the NAS device 20 using a communication protocol different from the communication protocol that can be reproduced by the moving image reproduction application included in the communication terminal device 10 in the moving image reproduction application. To help.
Hereinafter, specific functional configurations of the communication terminal device 10 and the NAS device 20 will be described.

<Functional configuration>
The functional configurations of the communication terminal device 10 and the NAS device 20 will be described below with reference to FIG.
FIG. 2 is a diagram illustrating an example of functional configurations of the communication terminal device 10 and the NAS device 20 according to the present embodiment.

<Functional configuration of NAS device>
The NAS device 20 includes a Wi-Fi wireless communication unit 210, a CPU (Central Processing Unit) 220, and a storage unit 230. These units are connected to each other by an internal bus.

  The Wi-Fi wireless communication unit 110 performs wireless communication with other communication devices using the Wi-Fi method.

  The CPU 220 executes a program stored in the storage unit 230 and controls each unit of the NAS device 20. For example, the CPU 220 performs wireless communication with other devices by controlling the Wi-Fi wireless communication unit 210.

In addition, the CPU 220 includes a dividing unit 221 as its functional unit. The dividing unit 221 determines whether information indicating a moving image reproduction request (hereinafter, reproduction request information RQ) is received from the communication terminal device 10. The dividing unit 221 time-divides the moving image information V on the reproduction time axis of the moving image information V in response to receiving the reproduction request information RQ.
More specifically, the dividing unit 221 divides one moving image information V into a plurality of segments SG. The segment SG is a fragment file in which the moving image information V is time-divided on the reproduction time axis. The reproduction time per segment SG is set to a predetermined time. In this embodiment, a case where the moving image information V is divided every 5 seconds on the reproduction time axis will be described as an example. In this example, when the reproduction time is 10 seconds, for example, the moving image information V is divided into two segments SG.

  Further, the dividing unit 221 divides the moving image information V when the reproduction request information RQ is received from the communication terminal device 10. When receiving the reproduction request information RQ, the dividing unit 221 acquires the reproduction time of the moving image information V to be reproduced. The dividing unit 221 calculates the number of segments SG by dividing the reproduction time of the acquired moving image information V by the reproduction time per segment SG. In this example, the reproduction time of the moving image information V is 10 seconds, and the reproduction time per segment SG is 5 seconds. Therefore, the dividing unit 221 converts the moving image information V into the first segment SG1 and the second segment SG2. Is divided into two segments.

Here, when the moving image information V is transmitted to the communication terminal device 10, the moving image information V is transmitted for each segment SG. As described above, the dividing unit 221 divides the moving image information V into the segments SG, whereby the data amount (file size) per transmission can be reduced.
The dividing unit 221 stores the plurality of divided segments SG in the storage unit 230.
When the reproduction time of the moving image information V is smaller than the predetermined time (reproduction time of the segment SG), the dividing unit 221 does not time-divide the moving image information V, and stores the moving image information V as the segment SG. Remember me.

  In addition, the dividing unit 221 generates a list LT. In the list LT, the storage location of each segment SG divided by the dividing unit 221 and the file name of each segment SG are shown in association with each other. The dividing unit 221 causes the Wi-Fi wireless communication unit 210 to transmit the list LT to the communication terminal device 10.

  In this example, the dividing unit 221 starts dividing the segment SG after generating the list LT in response to receiving the reproduction request information RQ. In this case, the storage location and file name of the segment SG shown in the list LT are the storage location and file name of the segment SG that the division unit 221 plans to divide based on the moving image information V.

  In addition, the Wi-Fi wireless communication unit 210 receives information (hereinafter, transfer request information GT) indicating a transfer request for the segment SG to be played back by the communication terminal device 10 from the communication terminal device 10. The transfer request information GT includes the storage location and file name of the segment SG to be played back by the video playback application. In response to receiving the transfer request information GT, the Wi-Fi wireless communication unit 210 transmits to the communication terminal apparatus 10 for each segment SG indicated by the transfer request information GT. Here, the Wi-Fi wireless communication unit 210 transmits the segment SG to the communication terminal apparatus 10 using the UDP protocol.

<Functional configuration of communication terminal device>
The communication terminal device 10 includes a Wi-Fi wireless communication unit 110, an operation unit 120, a display unit 130, a storage unit 150, a CPU 140, and a virtual server 160 as functional units. These units are connected to each other by an internal bus.

The Wi-Fi wireless communication unit 110 performs wireless communication with other communication devices using the Wi-Fi method.
The operation unit 120 includes an input device and accepts a user operation. The input device includes a device for inputting character information such as a keyboard, a pointing device such as a mouse and a touch panel, a button, a dial, a joystick, a touch sensor, and a touch pad. The display unit 130 is controlled by the CPU 140 and displays an image, a GUI (Graphical User Interface), and the like.
For example, the communication terminal device 10 detects a user operation on the operation unit 120 and causes the NAS device 20 to transmit the reproduction request information RQ. In addition, the display unit 130 displays the segment SG to be played back by the video playback application.

  CPU 140 executes a program stored in storage unit 150 and controls each unit of communication terminal device 10. For example, the CPU 140 performs wireless communication with other devices by controlling the Wi-Fi wireless communication unit 110. The CPU 140 causes the storage unit 150 to store data such as images and sounds obtained by accessing the Internet via wireless communication and moving image information V. The CPU 140 transmits these data stored in the storage unit 150 to the NAS device 20 via wireless communication. The NAS device 20 receives the data (for example, moving image information V) and stores it in the storage unit 230.

In addition, the CPU 140 includes an application execution unit 141 as its function unit. The application execution unit 141 executes a program stored in the storage unit 150 and executes a moving image playback application.
The moving image reproduction application transmits and receives data using the TCP protocol. The video playback application transmits the transfer request information GT to the virtual server 160 based on the list LT received from the NAS device 20. For example, the moving image reproduction application causes the Wi-Fi wireless communication unit 110 to transmit the transfer request information GT.
Further, the moving image reproduction application reproduces the segment SG based on the control of the application execution unit 141. The segment SG reproduced by the moving image reproduction application is a segment SG received from the virtual server 160 by the TCP protocol.
Here, the moving image reproduction application reproduces the segment SG in the order based on the reproduction time axis of the moving image information V. Specifically, the moving image reproduction application reproduces the segments SG in the order of the first segment SG1, the second segment SG2,..., The nth segment SGn. The video reproduction application transmits the transfer request information GT of a certain segment SG, receives the segment SG, and then, based on the order based on the reproduction time axis of the video information V, the transfer request information of the next segment SG to be reproduced. Send GT. The moving image reproduction application transmits the transfer request information GT of the segment SG to be reproduced until all the segments SG generated based on the moving image information V are received.

<About virtual server overview>
The virtual server 160 receives the segment SG from the NAS device 20 by the UDP protocol. The virtual server 160 supplies (transmits) the received segment SG to the moving image reproduction application using the TCP protocol. Hereinafter, the configuration of the virtual server 160 will be described.

The virtual server 160 includes a communication unit 161, a control unit 162, and a storage unit 163 as functional units. These units are connected to each other by an internal bus.
The communication unit 161 transmits / receives various data to / from the Wi-Fi wireless communication unit 110. The communication unit 161 transmits and receives various data to and from the communication terminal device 10 via the Wi-Fi wireless communication unit 110.

The control unit 162 is configured by a CPU, for example, and functions as the acquisition unit 621 and the segment supply unit 622 by executing a program stored in the storage unit 163.
The acquisition unit 621 acquires transfer request information GT of the segment SG to be played back from the video playback application. When acquiring the transfer request information GT, the acquisition unit 621 causes the communication unit 161 to transmit the transfer request information GT to the NAS device 20.

  The segment supply unit 622 determines whether the segment SG indicated by the transfer request information GT has been received. When the segment supply unit 622 receives the segment SG, the segment supply unit 622 supplies (transmits) the segment SG to the moving image reproduction application using the TCP protocol.

<Operations of communication terminal device and NAS device>
Hereinafter, operations of the communication terminal apparatus 10 and the NAS apparatus 20 will be described with reference to FIG.
FIG. 3 is a flowchart illustrating an example of operations of the communication terminal device 10 and the NAS device 20 according to the present embodiment.
The video playback application transmits playback request information RQ to the NAS device 20 (step S110). When receiving the reproduction request information RQ from the communication terminal device 10, the dividing unit 221 generates the list LT based on the reproduction time of the moving image information V (Step S120).

<About the list>
Details of the list LT will be described below with reference to FIG.
FIG. 4 is a diagram illustrating an example of the list LT according to the present embodiment.
In this example, a case where the reproduction time of the moving image information V is 30 seconds and a segment SG is generated every 5 seconds will be described. In this case, the dividing unit 221 divides the moving image information V into the first segment SG1 to the sixth segment SG6. The reproduction time of each segment SG is 5 seconds.
As shown in FIG. 4, the storage location of the first segment SG1 to the sixth segment SG6 is “http: // localhost / movies /”. Further, the dividing unit 221 sets the file name of the first segment SG1 to “SEGMENT1.ts”, sets the file name of the second segment SG2 to “SEGMENT2.ts”, and sets the file name of the third segment SG3 to “SEGMENT3. .Ts ”, the file name of the fourth segment SG4 is“ SEGMENT4.ts ”, the file name of the fifth segment SG5 is“ SEGMENT5.ts ”, and the file name of the sixth segment SG6 is“ SEGMENT6.ts ”. " The moving image reproduction application can reproduce the moving image information V by reproducing the segment SG according to the reproduction order of the first segment SG1 to the sixth segment SG6.

Returning to FIG. 3, the dividing unit 221 transmits the generated list LT to the communication terminal device 10 (step S <b> 130). In response to generating the list LT, the dividing unit 221 divides the moving image information V and starts generating a segment SG (step S140). The communication terminal device 10 (application execution unit 141) receives the list LT (step S150). The acquisition unit 621 acquires transfer request information GT transmitted from the video playback application based on the list LT (step S160). Here, the moving image playback application transmits the transfer request information GT of the m-th segment SGm. The initial value of m is 1. Therefore, the moving image reproduction application first transmits the transfer request information GT of the first segment SG1 to the virtual server 160.
The transfer request information GT transmitted by the video reproduction application is a SYN (Synchronize) + ACK (ACKnowledgement) packet in the TCP protocol.

Hereinafter, the details of the transfer request information GT will be described with reference to FIG.
FIG. 5 is a diagram showing an example of transfer request information GT according to the present embodiment.
The moving image reproduction application transmits the transfer request information GT indicating the storage location (http: // localhost / movies) of the first segment SG1 and the file name (SEGMENT1.ts) to the virtual server 160.

Returning to FIG. 3, the acquisition unit 621 transmits the transfer request information GT acquired from the video playback application to the NAS device 20 (step S <b> 170). As soon as the generation of the m-th segment SGm indicated by the received transfer request information GT is completed, the dividing unit 221 transmits the m-th segment SGm to the communication terminal apparatus 10 using the UDP protocol (step S190).
The segment supply unit 622 determines whether or not the m-th segment SGm is received from the NAS device 20 (step S200), and waits until it is received (step S200; NO). In addition, when the segment supply unit 622 receives the m-th segment SGm from the NAS device 20 (step S200; YES), the segment supply unit 622 supplies (transmits) the m-th segment SGm to the video playback application using the TCP protocol (step S210).
Here, the process in which the segment supply unit 622 supplies (transmits) the m-th segment SGm to the video playback application is performed after the segment supply unit 622 transmits a SYN packet in the TCP protocol to the video playback application.

  The video playback application starts playback of the m-th segment SGm received from the segment supply unit 622 (step S220). Here, even if not all of the segments SG described in the list LT have been received, the moving image playback application sequentially starts playback of the segments SG in the playback order based on the list LT. Thereby, the moving image reproduction application can reproduce the segment SG if the segment SG to be reproduced is received.

  Next, the video playback application determines whether or not all segments SG have been received from the segment supply unit 622 (step S230). When the m-th segment SGm is the last segment SG (step S230; YES), the video playback application ends the segment SG transfer request. Further, when the m-th segment SGm is not the last segment SG (step S230; NO), the moving image playback application updates the transfer request target segment SG (step S240), and repeats the processing from step S160 to S220. For example, after performing the transfer request information GT of the first segment SG1, the video playback application updates the segment SG that is the transfer request target (the value obtained by adding 1 to m is newly set to m), and the second segment SG2 The transfer request information GT is performed.

<Summary of Embodiment>
As described above, the communication terminal apparatus 10 according to the present embodiment receives the segment SG from the management apparatus (in this example, the NAS apparatus 20) using the UDP protocol. The virtual server 160 included in the communication terminal device 10 supplies (transmits) the segment SG received by the UDP protocol to the moving image reproduction application by the TCP protocol.
Therefore, according to the communication terminal device 10 according to the present embodiment, communication with a data transfer method different from the communication protocol (in this example, the TCP protocol) that can be received (reproduced) by the moving image reproduction application included in the communication terminal device 10. Even when the moving image information V is transmitted by a protocol (in this example, the UDP protocol), the moving image information V can be reproduced.

  In general, when the NAS device 20 transmits the moving image information V to the terminal device using the UDP protocol, a segment SG based on the moving image information V is generated and stored in advance. In this regard, the NAS device 20 of the present embodiment generates a segment SG in response to receiving the reproduction request information RQ. For this reason, according to the NAS device 20 of the present embodiment, it is possible to suppress a shortage of the capacity of the storage unit 230 due to the segment SG corresponding to the moving image information V that is not requested to be reproduced.

  Note that the NAS device 20 may have a function of deleting the segment SG stored in the storage unit 230 when the communication terminal device 10 completes the reproduction of the segment SG to be reproduced. In this case, the communication terminal apparatus 10 has a function of transmitting information indicating that the reproduction of the segment SG is completed in the moving image reproduction application to the NAS apparatus 20. Thereby, it is possible to suppress a shortage of the capacity of the storage unit 230 of the NAS device 20 due to the segment SG that has been reproduced.

<Modification>
Hereinafter, a modification according to an embodiment of the present invention will be described with reference to the drawings.
In the embodiment, the case where the dividing unit 221 generates the segment SG based on the reproduction time of the moving image information V has been described.
In the modification, a case will be described in which the dividing unit 221 generates a segment SG further based on the communication quality between the communication terminal device 10 and the NAS device 20.
In addition, about the structure similar to embodiment mentioned above, the same code | symbol is attached | subjected and description is abbreviate | omitted.

FIG. 6 is a diagram illustrating an example of the configuration of the communication terminal device 10 and the NAS device 20 according to the modification.
The modified virtual server 160 includes a control unit 164. The control unit 164 includes an acquisition unit 621, a segment supply unit 622, and a data amount information generation unit 623 as functional units.
The data amount information generation unit 623 detects the communication quality between the communication terminal device 10 and the NAS device 20. The data amount information generation unit 623 generates data amount information DV based on the detected communication quality. The data amount information DV is information indicating the data amount (information amount) of data (in this example, segment SG) transmitted by the NAS device 20. For example, when the communication quality between the communication terminal device 10 and the NAS device 20 is degraded, the data amount information generation unit 623 generates data amount information DV indicating that the data amount of the segment SG is to be reduced. In addition, the data amount information generation unit 623 generates data amount information DV indicating that the data amount of the segment SG is increased, for example, when the communication quality between the communication terminal device 10 and the NAS device 20 is good. .

  The dividing unit 221 receives the data amount information DV from the communication terminal device 10. The dividing unit 221 divides the segment SG after receiving the data amount information DV based on the received data amount information DV. When the data amount information DV indicates that the data amount of the segment SG is to be reduced, the dividing unit 221 divides the moving image information V into segments SG having a small data amount. When the data amount information DV indicates that the data amount of the segment SG is increased, the dividing unit 221 divides the moving image information V into segments SG having a large data amount.

Hereinafter, details of the data amount information generation unit 623 generating the data amount information DV will be described.
<Data amount information based on packet loss>
The data amount information generation unit 623 generates the data amount information DV based on, for example, packet loss of packets transmitted and received between the communication terminal device 10 and the NAS device 20. In this case, the NAS device 20 has a function of transmitting a test packet to the communication terminal device 10 constantly or at predetermined time intervals. The data amount information generation unit 623 generates data amount information DV indicating that the data amount of the segment SG is to be reduced when the sequence number of the received test packet has a predetermined number of omissions (loss). In addition, the data amount information generation unit 623 generates data amount information DV indicating that the data amount of the segment SG is to be increased when the sequence number of the received test packet has not been lost (loss) a predetermined number of times or more. Generate.
The data amount information generation unit 623 may be configured to determine that a packet loss has occurred when a test packet retransmission request to the NAS device 20 has occurred a predetermined number of times or more.

<Data amount information based on bit rate>
The data amount information generation unit 623 generates the data amount information DV based on, for example, the bit rate of a packet transmitted / received between the communication terminal device 10 and the NAS device 20. In this case, the data amount information generation unit 623 measures the bit rate of packets transmitted / received between the communication terminal device 10 and the NAS device 20. When the measured bit rate does not reach the bit rate required for transmission of the segment SG, the data amount information generation unit 623 generates data amount information DV indicating that the data amount of the segment SG is to be reduced. Further, the data amount information generation unit 623 generates data amount information DV indicating that the data amount of the segment SG is increased when the measured bit rate reaches the bit rate necessary for the transmission of the segment SG. .

<Data amount information based on packet delay>
The data amount information generation unit 623 generates the data amount information DV based on, for example, the bit rate of a packet transmitted / received between the communication terminal device 10 and the NAS device 20. In this case, the NAS device 20 has a function of transmitting a test packet to the communication terminal device 10 constantly or at predetermined time intervals. The test packet includes data indicating the transmission time. The data amount information generation unit 623 determines that a packet delay has occurred when the transmission time indicated in the received test packet is different from the reception time when the test packet is received by a predetermined time or more. Here, the communication terminal device 10 and the NAS device 20 perform time synchronization using a network time protocol or a time server. When determining that a packet delay has occurred, the data amount information generation unit 623 generates data amount information DV indicating that the data amount of the segment SG is to be reduced. When determining that no packet delay has occurred, the data amount information generation unit 623 generates data amount information DV indicating that the data amount of the segment SG is to be increased.

<Summary of modification>
As described above, in the communication terminal device 10 according to the modification, the data amount information generation unit 623 generates the data amount information DV based on the communication quality between the communication terminal device 10 and the NAS device 20. Further, the NAS device 20 of the modified example generates a segment SG based on the data amount information DV received from the communication terminal device 10.
Here, when the communication quality between the communication terminal device 10 and the NAS device 20 is deteriorated, the NAS device 20 preferably transmits a segment SG having a small data amount. According to the communication terminal device 10 of the modification, it is possible to generate the data amount information DV and instruct the NAS device 20 about the data amount of the segment SG. Further, according to the NAS device 20 of the modification, it is possible to generate a segment SG having a data amount according to the communication quality between the communication terminal device 10 and the NAS device 20.
Therefore, according to the communication terminal device 10 of the modification, the segment SG can be efficiently transmitted to the NAS device 20.

  In addition, although the case where the communication terminal device 10 includes the data amount information generation unit 623 has been described above, the present invention is not limited thereto. For example, the NAS device 20 may include a data amount information generation unit. In this case, the data amount information generation unit included in the NAS device 20 detects the communication quality between the communication terminal device 10 and the NAS device 20. Further, the dividing unit 221 divides the segment SG based on the data amount information DV generated by the data amount information generating unit included in the NAS device 20. In this case, the communication terminal apparatus 10 may have a function of transmitting a test packet to the NAS apparatus 20 at all times or at predetermined time intervals.

  Moreover, although the division | segmentation part 221 demonstrated the case where the moving image information V was time-divided for every predetermined time in the above, it is not restricted to this. The dividing unit 221 may divide the moving image information V into segments SG having a predetermined data length.

  When a plurality of moving image information V is stored in the storage unit 230, the reproduction request information RQ may include information indicating the moving image information V to be reproduced. The information indicating the video information V to be reproduced is, for example, the name of the video information V. In this case, the dividing unit 221 time-divides the moving image information V to be reproduced indicated by the reproduction request information RQ in response to receiving the reproduction request information RQ.

  Further, the communication terminal apparatus 10 and the NAS apparatus 20 may communicate with the communication terminal apparatus 10 by wireless communication via a mobile communication network such as LTE (Long Term Evolution) in addition to Wi-Fi. In this case, each of the communication terminal device 10 and the NAS device 20 includes an identification chip for identifying a subscriber who subscribes to a communication service using a mobile communication network. This identification chip is, for example, a SIM (Subscriber Identity Module). In this SIM, an IMSI (International Mobile Subscriber Identity) is stored as a subscriber identifier ID for identifying a subscriber. A communication service via a mobile communication network such as LTE is provided by a communication carrier. The communication carrier associates the IMSI (subscriber identifier ID) with a telephone number and manages communication by the subscriber's device. The communication terminal apparatus 10 and the NAS apparatus 20 can communicate with each other via a mobile communication network by mounting a SIM.

  In the above-described embodiment and modification, the UDP protocol is an example of a first communication protocol. The TCP protocol is an example of a second communication protocol. The Wi-Fi wireless communication unit 110 is an example of a receiving unit. The Wi-Fi wireless communication unit 110 is an example of a data amount information supply unit. The Wi-Fi wireless communication unit 210 is an example of a transmission unit.

  In addition, each part with which the communication terminal device 10 in each said embodiment and the NAS apparatus 20 are provided may be implement | achieved by dedicated hardware, and is implement | achieved by memory and a microprocessor. Also good.

  Note that each unit included in the communication terminal device 10 and the NAS device 20 includes a memory and a CPU (central processing unit), and stores a program for realizing the function of each unit included in the communication terminal device 10 and the NAS device 20. The function may be realized by loading and executing.

  Also, a program for realizing the functions of each unit included in the communication terminal device 10 and the NAS device 20 is recorded on a computer-readable recording medium, and the program recorded on the recording medium is read into a computer system and executed. The processing may be performed by doing so. Here, the “computer system” includes an OS and hardware such as peripheral devices.

Further, the “computer system” includes a homepage providing environment (or display environment) if a WWW system is used.
The “computer-readable recording medium” refers to a storage device such as a flexible medium, a magneto-optical disk, a portable medium such as a ROM and a CD-ROM, and a hard disk incorporated in a computer system. Furthermore, the “computer-readable recording medium” dynamically holds a program for a short time like a communication line when transmitting a program via a network such as the Internet or a communication line such as a telephone line. In this case, a volatile memory in a computer system serving as a server or a client in that case, and a program that holds a program for a certain period of time are also included. The program may be a program for realizing a part of the functions described above, and may be a program capable of realizing the functions described above in combination with a program already recorded in a computer system.

  The embodiment of the present invention has been described in detail with reference to the drawings. However, the specific configuration is not limited to this embodiment, and appropriate modifications may be made without departing from the spirit of the present invention. it can. You may combine the structure as described in each embodiment mentioned above.

DESCRIPTION OF SYMBOLS 10 ... Communication terminal device, 20 ... NAS apparatus, 110, 210 ... Wi-Fi wireless communication part, 120 ... Operation part, 130 ... Display part, 140, 220 ... CPU, 141 ... Application execution part, 150, 163, 230 ... Storage unit, 160 ... virtual server, 161 ... communication unit, 162, 164 ... control unit, 221 ... dividing unit, 621 ... acquisition unit, 622 ... segment supply unit, 623 ... data amount information generating unit, V ... moving image information, RQ Replay request information, LT ... List, GT ... Transfer request information, DV ... Data amount information, SG ... Segment, SG1 ... First segment, SG2 ... Second segment, SG3 ... Third segment, SG4 ... Fourth segment, SG5 ... 5th segment, SG6 ... 6th segment

Claims (4)

A communication terminal device that communicates with a management device including a storage unit in which video information is stored,
A video playback application for playing back video information supplied by the first communication protocol;
A receiving unit that receives, by segment, a segment in which the moving image information is time-divided on a playback time axis by a second communication protocol that is different from the first communication protocol in data transfer method;
An acquisition unit for acquiring a transfer request for each segment of a segment to be played by the video playback application from the video playback application;
Of the divided segments, when the playback target segment indicated by the transfer request is received by the receiving unit, the received playback target segment is transferred to the video playback application using the first communication protocol. A segment supply unit to supply;
A communication terminal device comprising: A data amount information generating unit that generates data amount information indicating the data amount of the segment, based on communication quality between the management device and the own device when receiving the segment;
A data amount information supply unit for supplying the data amount information generated by the data amount information generation unit to the management device;
With
The receiver is
The communication terminal device according to claim 1, wherein the segment generated in response to the data amount information being supplied is received. A management device that communicates with a communication terminal device,
A storage unit for storing video information;
A dividing unit that time-divides the moving image information stored in the storage unit into a plurality of segments on a reproduction time axis based on the reproduction time of the moving image information;
A transmission unit that transmits the divided segment to the communication terminal device in response to at least a part of the video information being divided into the segments by the dividing unit;
A management device comprising: A data amount information generating unit that generates data amount information indicating the data amount of the segment based on communication quality between the communication terminal device and the own device when receiving the segment;
With
The dividing unit is
The management apparatus according to claim 3, wherein the segment of the information amount based on the data amount information generated by the data amount information generation unit is time-divided on the playback time axis.

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