JP2010187275A - Data transfer radio base station system, terminal device, terminal device with video photographing function, femto base station, video data processing method, and program - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To transmit video data which are transferred from a terminal device with a video photographing function through a Femto base station to a video data receiving apparatus, with optimal radio channel quality at all times. <P>SOLUTION: The terminal device 10 with the video photographing function has a variable video data encoding function for encoding video data depending on required radio channel quality on the basis of radio channel quality control information received from a Femto base station 20. The terminal device 10 with the video photographing function performs variable encoding on the video data depending on the radio channel quality and transmits them to the Femto base station 20 and the video data on which variable encoding has been performed, are transmitted from the Femto base station 20 to a video data receiving apparatus without interposing an ISP network and the core network of a communication carrier, and stored or played back. Thus, high-quality video data can be stored or played back in the video data receiving apparatus without video disturbance caused by data error or data missing caused by radio channel quality deterioration or ISP network quality deterioration. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a data transfer wireless base station system that transfers data transmitted from a terminal device to a data receiving device via a wireless base station for storage or data processing, and more particularly to a terminal device with a video shooting function. Data transfer wireless base station system, terminal equipment, terminal equipment with video shooting function, Femto base station, video data for transferring the video data to the video data receiving device via the Femto base station for storage or playback And a program for causing a computer to execute the method.

  Video data to transfer the video shot by the terminal device to the video data receiver via the Femto base station (ultra-small radio base station) to save or play back the video to reduce the memory capacity of the terminal device A technique related to a transfer radio base station system is known. FIG. 6 is a block diagram showing a configuration of a related video data transfer radio base station system. That is, this figure shows a video data transfer wireless base station system in which video data taken by the terminal device 40 with video shooting function is transferred to the video data receiving device 54 via the Femto base station 51 for storage or playback. The configuration is shown. As shown in FIG. 6, the terminal device 40 with a video shooting function captures a video with a video capturing unit 41, encodes the video with a video data encoding unit 42, and then encodes the video into the video data storage unit 43. Stores data. Then, after all shooting is completed, all the encoded video data stored in the video data storage unit 43 is transmitted from the transmission unit 44 to the Femto base station 51. All of the encoded video data is transferred from the Femto base station 51 to the mobile carrier's core network 53 via the IP network 52, and from the core network 53 to the video network 52 via the IP network 52. The data is transmitted to the data receiving device 54 and stored or reproduced. As a result, the memory capacity of the terminal device 40 with the video shooting function can be reduced.

  In addition, the portable information terminal adds time information to video data that is always captured by the camera and transfers it to the storage server via the wireless base station, thereby reducing the memory capacity of the portable information terminal. A system technology is also disclosed (see Patent Document 1). According to this technique, video data corresponding to the photographing time can be taken out by accessing the storage server from the portable information terminal as necessary. Furthermore, in a codec device that converts camera image data to digital data and transmits it, a technique is disclosed in which video data is always transmitted with optimum communication quality by changing the transmission rate according to changes in radio wave propagation conditions ( Patent Document 2). According to this technology, the variable video data encoding function reduces the transmission rate when the wireless condition deteriorates, and increases the transmission rate when the wireless condition improves, thereby setting the transmission rate to the maximum encoding recognized. Since the video data can be transmitted, the communication quality of the video data can always be kept in a good state.

JP 2003-244691 A JP 2007-329708 A

  However, in the configuration of the video data transfer radio base station system as shown in FIG. 6, video due to data error or data loss due to degradation of the quality of the radio channel or the quality of the IP network through the IP network such as ISP. Disturbances and delays in data transmission due to data retransmission may occur. In addition, the video once captured is stored in the video data storage unit 43 of the terminal device 40 with the video imaging function, and is transmitted to the Femto base station 51 after the imaging is completed. I can't. Furthermore, since the video once taken is stored in the video data storage unit 43 of the terminal device 40 with the video shooting function and transmitted to the Femto base station 51 after the shooting is finished, the shooting time is within the capacity of the video data storage unit 43. Limited and unable to shoot continuously for a long time.

  Further, in the technique of Patent Document 1, the memory information of the portable information terminal is reduced by transferring video data that the portable information terminal is always taking with the camera to the storage server via the wireless base station. However, no consideration is given to the communication quality when transferring video data. In other words, video data is transferred at a constant transmission rate even if the wireless channel quality of the communication path of the portable information terminal → wireless base station → storage server changes, so that the video data may be disturbed when the communication quality deteriorates There is.

  The technique of Patent Document 2 mainly encodes video data for moving images using a variable video data encoding function to improve the quality of video data to be transmitted. A program for encoding video data Is activated by software dedicated to the codec device. Therefore, even if the variable video data encoding function disclosed in Patent Document 2 can be obtained, the wireless line for storing the video data captured by the terminal device with the video capturing function to the video data receiving device via the Femto base station. It is difficult to apply to a technology that compensates quality. That is, even if the variable video data encoding function applied to the codec device disclosed in Patent Document 2 is used as it is, it is applied to a technique for compensating the radio channel quality of video data captured by a terminal device with a video imaging function. I can't.

  The present invention has been made in view of such problems, and video data transferred from a terminal device with a video shooting function to a video data receiving device via a Femto base station is always optimally connected to the wireless channel quality. It is an object to provide a data transfer radio base station system, a terminal device, a terminal device with a video shooting function, a Femto base station, a video data processing method, and a program that causes a computer to execute the method .

  In order to achieve the above object, the present invention provides a terminal device having a variable data coding function for variably coding data depending on radio channel quality, and a wireless device for receiving variable coded data transmitted from the terminal device. A data transfer radio base station system comprising: a base station; and a data storage device that receives and stores variable encoded data transferred from the radio base station.

  The present invention also relates to a terminal device with a video shooting function having a variable video data encoding function that variably encodes video data depending on radio channel quality, and variable encoded video data transmitted from the terminal device with the video shooting function. A data transfer radio base station system comprising: a Femto base station that receives a video signal; and a video data receiving device that receives and stores variable-coded video data transferred from the Femto base station.

  Further, the present invention is a terminal device with a video shooting function that has a function of shooting a video, transmits the shot video data to a video data receiving device via a Femto base station, and stores or plays back the video data. A radio transmission rate control unit that controls a radio transmission rate according to radio channel quality control information received from the Femto base station and generates a video data encoding rate corresponding to the radio transmission rate; and the radio transmission rate control unit A video data encoding unit that variably encodes video data according to the video data encoding rate received from the video data and transmits variable encoded video data depending on radio channel quality to the Femto base station. This is a terminal device with a shooting function.

  The present invention is also a Femto base station that receives video data captured by a terminal device with a video shooting function and transfers the video data to a video data receiving device, the variable code received from the terminal device with a video shooting function A radio channel quality measuring unit for measuring radio channel quality from the video data, radio channel quality control information is obtained from the radio channel quality measured by the radio channel quality measuring unit, and the radio channel quality control information is provided with the video shooting function. A Femto base station comprising a radio channel quality control unit for transmission to a terminal device.

  The present invention also relates to a video data processing method for transmitting video data of a terminal device with a video shooting function to a video data receiving device via a Femto base station, and storing or reproducing the video data, wherein the Femto base station A first step of measuring radio channel quality to obtain radio channel quality control information, and transmitting the radio channel quality control information to the terminal device with video shooting function, and the terminal device with video shooting function received A second step of obtaining a video data coding rate based on the radio channel quality control information; and a third step of obtaining variable encoded video data corresponding to the video data coding rate by the terminal device with video shooting function. A fourth step in which the terminal device with video imaging function transmits the variable-encoded video data depending on radio channel quality to the Femto base station, and the Femt a base station that receives the variable-encoded video data, and transfers and stores the variable-encoded video data to the video data receiving device; Is the method.

  The present invention also relates to a video data processing method for transmitting video data of a terminal device with a video shooting function to a video data receiving device via a Femto base station and storing or reproducing the video data. A first step in which the device stores video data in a data buffer; and the Femto base station measures radio channel quality to obtain radio channel quality control information, and the radio channel quality control information is obtained from the terminal with video imaging function. A second step of transmitting to the device; a third step in which the terminal device with video shooting function obtains a video data encoding rate based on the received wireless channel quality control information; and the terminal device with video shooting function A fourth step of changing the video data encoding rate in accordance with the amount of data stored in the data buffer or the free space, and the video shooting function A fifth step in which the attached terminal device obtains variable-encoded video data corresponding to the changed video data coding rate, and the terminal device with the video shooting function depends on the radio channel quality to the Femto base station. A sixth step of transmitting the variable encoded video data; and the Femto base station receives the variable encoded video data and transfers the variable encoded video data to the video data receiving device for storage, or A video data processing method comprising: a seventh step of reproducing the video.

  The present invention is also a program for causing a computer to execute the above-described video data processing method.

  According to the present invention, the terminal device with a video shooting function variably encodes video data depending on the radio channel quality received from the Femto base station, transmits this variable encoded video data to the Femto base station, and further, Femto The variable-coded video data is transmitted from the base station to the video data receiving apparatus without being passed through an ISP (Internet Service Provider) network or a wireless operator's core network, and stored or reproduced. Therefore, high-quality video data with little video disturbance due to data error or data loss due to degradation of wireless channel quality or ISP network quality can be stored or played back in the video data receiving apparatus.

  Further, according to the present invention, the terminal device with a video photographing function variably encodes video data depending on the radio channel quality received from the Femto base station, and transmits the variable encoded video data to the Femto base station. Since the data is transferred from the Femto base station to the video data receiving apparatus, real-time video data can be stored in the video data receiving apparatus or reproduced. Further, according to such a video data transmission method, the terminal device with the video shooting function does not need to store the video data being shot in its own data storage unit, so that the shooting information is within the capacity of the data storage unit. In addition to being restricted, the memory capacity of the data storage unit can be reduced.

1 is a block diagram showing a configuration of a video data transfer radio base station system according to a first embodiment of the present invention. It is a block diagram which shows the structure of the video data transmission radio base station system which concerns on 2nd Embodiment of this invention. FIG. 3 is a conceptual diagram showing a flow of video data by the video data transfer radio base station system according to the first embodiment of the present invention. 3 is a time chart showing a flow of operations of the video data transfer radio base station system according to the first embodiment shown in FIG. 1. 6 is a time chart showing a flow of operations of the video data transfer radio base station system according to the second embodiment shown in FIG. 2. It is a block diagram which shows the structure of the related video data transmission radio base station system.

  The video data transfer wireless base station system of the present invention is provided with a variable video data encoding function in which a terminal device with a video shooting function encodes video data depending on the quality of the radio channel. Then, this terminal device with a video shooting function variably encodes video data depending on the radio channel quality and transmits it to the Femto base station, from the Femto base station without going through the ISP network and the wireless operator's core network, The variable encoded video data is transmitted to the video data receiving device for storage or video playback. As a result, high-quality video data with little video disturbance due to data error or data loss due to degradation of wireless channel quality or ISP network quality can be stored or reproduced in the video data receiving device.

  Hereinafter, several embodiments of a video data transfer radio base station system according to the present invention will be described in detail with reference to the drawings. In all the drawings for explaining the embodiments, the same elements are denoted by the same reference symbols in principle, and the repeated explanation thereof is omitted.

<< First Embodiment >>
FIG. 1 is a block diagram showing a configuration of a video data transfer radio base station system according to the first embodiment of the present invention. As shown in FIG. 1, the video data transfer radio base station system 1 includes a terminal device 10 with a video shooting function, a Femto base station 20, and a video data receiving device 30a. The video data is transferred to the video data receiving device 30a via the Femto base station 20 for storage or video playback.

  The terminal device 10 with a video shooting function includes a shooting unit 11 for shooting a video, a video data encoding unit 12 for encoding video data, a transmission unit 13 for transmitting encoded video data to the Femto base station 20, and wireless transmission. A radio transmission rate control unit 14 that controls the rate and a reception unit 15 that receives radio channel quality control information from the Femto base station 20 are provided.

  The constituent elements will be described in more detail. The video data encoding unit 12 has a function of encoding video data according to the encoding rate instructed by the wireless transmission rate control unit 14. The transmission unit 13 has a function of transmitting variable encoded video data depending on the radio channel quality encoded by the video data encoding unit 12 to the Femto base station 20.

  The radio transmission rate control unit 14 controls the radio transmission rate according to the uplink radio channel quality control information received by the receiving unit 15, and sends the video data coding rate corresponding to the radio transmission rate to the video data coding unit 12. It has a function to send. The receiving unit 15 has a function of receiving uplink radio channel quality control information from the Femto base station 20 and transmitting it to the radio transmission rate control unit 14.

  The Femto base station 20 includes a base station receiving unit 21, an uplink radio channel quality measurement unit 22, an uplink radio channel quality control unit 23, and a base station transmission unit 24.

  The base station receiving unit 21 has a function of receiving variable encoded video data depending on radio channel quality transmitted from the terminal device 10 with video shooting function and transferring this data to the video data receiving device 30a. The uplink radio channel quality measurement unit 22 has a function of measuring the uplink radio channel quality from the uplink radio reception data from the terminal device 10 with video shooting function and transmitting the measurement result to the uplink radio channel quality control unit 23. .

  The uplink radio channel quality control unit 23 has a function of obtaining uplink radio channel quality control information from the uplink radio channel quality measured by the uplink radio channel quality measurement unit 22 and transmitting this information to the transmission unit 24. The base station transmission unit 24 has a function of transmitting the uplink radio channel quality control information obtained by the uplink radio channel quality control unit 23 to the terminal device 10 with a video photographing function. Furthermore, the video data receiving device 30a has a function of saving or reproducing video of variable encoded video data depending on the quality of the radio channel transferred from the Femto base station 20.

  Next, the operation of the video data transfer radio base station system 1 shown in FIG. 1 will be described. The imaging unit 11 of the terminal device 10 with the video imaging function captures a desired video and transmits the captured video data to the video data encoding unit 12. Then, the video data encoding unit 12 encodes the video data received from the photographing unit 11 in accordance with the encoding rate instructed from the wireless transmission rate control unit 14. Then, the transmission unit 13 transmits to the Femto base station 20 variable encoded video data depending on the radio channel quality encoded by the video data encoding unit 12.

  On the other hand, the receiving unit 15 of the terminal device 10 with video imaging function receives uplink radio channel quality control information from the Femto base station 20 and transmits this information to the radio transmission rate control unit 14. Then, the wireless transmission rate control unit 14 controls the wireless transmission rate according to the uplink wireless channel quality control information from the Femto base station 20 received by the receiving unit 15, and the video data code corresponding to the controlled wireless transmission rate. The conversion rate is transmitted to the video data encoding unit 12.

  Further, the base station receiving unit 21 of the Femto base station 20 receives the variable encoded video data depending on the wireless channel quality transmitted from the terminal device 10 with the video shooting function, and transfers this data to the video data receiving device 30a. To do. Further, the uplink radio channel quality measurement unit 22 of the Femto base station 20 measures the uplink radio channel quality from the uplink radio reception data received by the base station reception unit 21, and transmits the measurement result to the uplink radio channel quality control unit 23. To do.

  Accordingly, the uplink radio channel quality control unit 23 obtains uplink radio channel quality control information from the uplink radio channel quality measured by the uplink radio channel quality measurement unit 22 and transmits this information to the base station transmission unit 24. For example, the uplink radio channel quality control unit 23 improves the uplink radio channel quality when the uplink radio channel quality deteriorates, and degrades the uplink radio channel quality when the uplink radio channel quality improves. Quality control information is obtained and this information is transmitted to the base station transmission unit 24. Thereby, the base station transmission unit 24 transmits the uplink radio channel quality control information obtained by the uplink radio channel quality control unit 23 to the terminal device 10 with the video photographing function. In this way, the video data receiving device 30a can store or reproduce video of variable-encoded video data depending on the wireless channel quality transferred from the terminal device 10 with video shooting function via the Femto base station 20. it can.

  FIG. 3 is a conceptual diagram showing a flow of video data by the video data transfer radio base station system according to the first embodiment of the present invention. As shown in FIG. 3, in the video data transfer radio base station system 1 of the present embodiment, the terminal device 10 with a video shooting function variably encodes video data depending on the quality of the radio channel, and the terminal device 10 with a video shooting function The variable-encoded video data depending on the radio channel quality is transmitted to the Femto base station 20, and this video is further transmitted from the Femto base station 20 to the video data receiving device 30a without going through the ISP network and the wireless operator's core network. Sending data. As a result, high-quality video data that does not cause video disturbance due to data error or data loss due to wireless channel quality degradation or ISP network quality degradation can be stored or reproduced in the video data receiving device 30a.

  Next, the operation of the video data transfer radio base station system shown in FIG. 1 will be described using a time chart. FIG. 4 is a time chart showing an operation flow of the video data transfer radio base station system according to the first embodiment shown in FIG. When the terminal device 10 with a video shooting function starts video shooting (step S1), it starts to transfer variable encoded video data depending on the quality of the radio channel to the Femto base station 20 (step S2).

  Then, the Femto base station 20 transfers the variable encoded video data depending on the radio channel quality to the video data receiving device 30a (step S3). Further, the Femto base station 20 measures the uplink radio channel quality by the uplink radio channel quality measurement unit 22 (step S4), and the uplink radio channel quality control unit 23 obtains the uplink radio channel quality control information from the uplink radio channel quality. The uplink radio channel quality control information is obtained (step S5), and transmitted to the terminal device 10 with the video shooting function (step S6).

  Then, the terminal device 10 with a video shooting function obtains an encoding rate by the wireless transmission rate control unit 14 from the received uplink radio channel quality control information, and changes the video data encoding rate according to the uplink radio channel quality control information. Then, transfer of variable encoded video data depending on the radio channel quality to the Femto base station 20 is started (step S8). As a result, the Femto base station 20 transfers the variable encoded video data depending on the radio channel quality to the video data receiving device 30a and stores it (step S9). Alternatively, the video data receiving device 30a may reproduce the received video data. And while the terminal device 10 with a video imaging function continues video imaging, such processing is repeated.

<< Second Embodiment >>
FIG. 2 is a block diagram showing a configuration of a video data transfer radio base station system according to the second embodiment of the present invention. The video data transfer radio base station system 1a of the second embodiment shown in FIG. 2 is different from the video data transfer radio base station system 1 of the first embodiment shown in FIG. Only the configuration is different, and the configurations of the Femto base station 20 and the video data receiving device 30b are the same.

  That is, the terminal device 10a with a video shooting function in FIG. 2 adds to the terminal device 10 with a video shooting function in FIG. 1 and a video coding rate control unit 16 that instructs the video data encoding unit 12 to specify a coding rate. A buffer amount measuring unit 17 that measures the amount of data stored in the data buffer 18 or a free space, and a data buffer 18 that temporarily stores variable encoded video data depending on the encoded wireless channel quality. Have been added. With this configuration, the video data transfer radio base station system 1a according to the second embodiment shown in FIG. 2 is further devised in addition to the first embodiment with respect to a method for calculating the video coding rate.

  In FIG. 2, when the photographing unit 11 of the terminal device 10 a with a video photographing function starts photographing a video image, the video data is transmitted from the photographing unit 11 to the video data encoding unit 12. Then, the video data encoding unit 12 encodes the video data according to the encoding rate instructed from the video encoding rate control unit 16.

  The data buffer 18 temporarily stores variable encoded video data depending on the encoded wireless channel quality. The transmission unit 13 transmits the variable encoded video data depending on the wireless channel quality stored in the data buffer 18 to the Femto base station 20 at the transmission rate instructed by the wireless transmission rate control unit 16. The receiving unit 15 receives uplink radio channel quality control information from the Femto base station 20 and transmits this information to the radio transmission rate control unit 14.

  Thereby, the radio transmission rate control unit 14 controls the radio transmission rate according to the uplink radio channel quality control information. Further, the buffer amount measuring unit 17 measures the amount of data or the free capacity stored in the data buffer 18. In addition, the video encoding rate control unit 16 obtains a video encoding rate according to the amount of data stored in the data buffer 18 or the free capacity. For example, when the amount of data stored in the data buffer 18 is large or the free capacity of the data buffer 18 is small, the video encoding rate is lowered. If the amount of data stored in the data buffer 18 is small or the free space is large, the video encoding rate is increased.

  On the other hand, the base station receiving unit 21 of the Femto base station 20 receives the variable encoded video data depending on the wireless channel quality transmitted from the terminal device 10a with the video shooting function, and transfers this to the video data receiving device 30b. . Further, the uplink radio channel quality measurement unit 22 of the Femto base station 20 measures the uplink radio channel quality from the uplink radio reception data, and transmits the measurement result to the uplink radio channel quality control unit 23. Thus, the uplink radio channel quality control unit 23 obtains uplink radio channel quality control information from the uplink radio channel quality and transmits this information to the base station transmission unit 24. For example, when the uplink radio channel quality is degraded, the uplink radio channel quality is improved, and when the uplink radio channel quality is improved, the uplink radio channel quality is degraded. Then, the base station transmission unit 24 transmits the uplink radio channel quality control information to the terminal device 10a with the video shooting function.

  Thus, in the video data transfer radio base station system 1a of the second embodiment, video data depending on the radio channel quality is variably encoded and transmitted from the terminal device 10a with video imaging function to the Femto base station 20, Further, since it is transmitted from the Femto base station 20 to the video data receiving device 30b without going through the ISP network and the wireless operator's core network, it is caused by data error or data loss due to deterioration of the radio channel quality or ISP network quality. A high-quality video with little video disturbance can be stored in the video data receiving device 30b or played back. That is, the variable encoded video data depending on the radio channel quality transmitted from the terminal device 10a with video shooting function to the video data receiving device 30b via the Femto base station 20 has a flow as shown in FIG. The video data receiving device 30b stores or reproduces the video.

  FIG. 5 is a time chart showing an operation flow of the video data transfer radio base station system according to the second embodiment shown in FIG. Therefore, with reference to FIG. 2, the operation flow of the video data transfer radio base station system according to the second embodiment will be described according to the time chart of FIG.

  When the imaging unit 11 of the terminal device 10 with video imaging function starts video imaging (step S11), the variable encoded video data depending on the radio channel quality is transmitted from the transmission unit 13 of the terminal device 10 with video imaging function to the Femto base station 20. Is started (step S12). Then, the Femto base station 20 transfers the variable encoded video data depending on the radio channel quality to the video data receiving device 30b (step S13).

  On the other hand, the buffer amount measurement unit 17 of the terminal device 10 with the video shooting function measures the data amount or the free capacity stored in the data buffer 18 (step S14). Further, the video coding rate control unit 16 obtains the coding rate of the video data according to the data amount or the free capacity stored in the data buffer 18 (step S15).

  Then, the radio transmission rate control unit 14 of the terminal device 10 with the video photographing function obtains an encoding rate based on the uplink radio channel quality control information received from the Femto base station 20, and the video according to the uplink radio channel quality control information. The data encoding rate is changed (step S16), and transfer of variable encoded video data depending on the radio channel quality to the Femto base station 20 is started (step S17). As a result, the Femto base station 20 transfers the variable encoded video data depending on the radio channel quality to the video data receiving device 30b for storage (step S18). Such processing is repeated while the terminal device 10 with the video shooting function continues video shooting.

  Although the present invention has been specifically described based on the two embodiments, the present invention is not limited to the above-described embodiments, and various modifications can be made without departing from the scope of the present invention. For example, even when voice data is transmitted from a terminal device to a data storage device via a radio base station, and the voice data is stored in the data storage device, the same effects as those of the above embodiments can be exhibited.

  According to the present invention, variable encoded video data depending on radio channel quality is transmitted from a terminal device with video shooting function to a video data receiving device via a Femto base station, and these video data are converted into video data in real time. The image is saved or played back on the receiving device. Therefore, the data transfer radio base station system of the present invention can be effectively used for video imaging equipment such as a news agency that captures high-quality and large-capacity video.

DESCRIPTION OF SYMBOLS 1, 1a Video data transfer wireless base station system 10 Terminal device with video imaging function 11 Imaging unit 12 Video data encoding unit 13 Transmitting unit 14 Wireless transmission rate control unit 15 Receiving unit 16 Video encoding rate control unit 17 Buffer amount measuring unit 18 data buffer 20 Femto base station 21 base station receiver 22 uplink radio channel quality measurement unit 23 uplink radio channel quality controller 24 base station transmitters 30a and 30b video data receiver

Claims (12)

A terminal device having a variable data coding function for variably coding data depending on radio channel quality;
A radio base station that receives variable encoded data transmitted from the terminal device;
A data transfer radio base station system comprising: a data storage device that receives and stores variable encoded data transferred from the radio base station. A terminal device with a video shooting function having a variable video data encoding function for variably encoding video data depending on wireless channel quality;
A Femto base station that receives variable-encoded video data transmitted from the terminal device with the video shooting function;
A data transfer radio base station system comprising: a video data receiving device that receives and stores variable encoded video data transferred from the Femto base station. The terminal device with video shooting function is:
A radio transmission rate control unit that controls a radio transmission rate according to radio channel quality control information received from the Femto base station, and generates a video data encoding rate corresponding to the radio transmission rate;
A video data encoding unit that variably encodes video data according to the video data encoding rate received from the wireless transmission rate control unit, and transmits variable encoded video data depending on radio channel quality to the Femto base station; ,
The Femto base station
A radio channel quality measurement unit for measuring radio channel quality from variable-encoded video data received from the terminal device with video imaging function;
A radio channel quality control unit that obtains radio channel quality control information from the radio channel quality measured by the radio channel quality measurement unit, and transmits the radio channel quality control information to the terminal device with the video shooting function;
The video data receiving device has a function of receiving and storing or reproducing variable encoded video data depending on radio channel quality transferred from the terminal device with video shooting function via the Femto base station. 3. The data transfer radio base station system according to claim 2, wherein The terminal device with video shooting function is:
A data buffer for temporarily storing the variable encoded video data depending on radio channel quality;
The data transfer radio base station system according to claim 3, further comprising a buffer amount measuring unit that measures the amount of data stored in the data buffer or a free space. The terminal device with video shooting function is:
5. The data transfer radio base station system according to claim 4, further comprising a video coding rate control unit that instructs a coding rate to the video data coding unit. A terminal device with a video shooting function that has a function of shooting video, sends the video data shot to the video data receiving device via the Femto base station, and stores or plays back the video data.
A radio transmission rate control unit that controls a radio transmission rate according to radio channel quality control information received from the Femto base station, and generates a video data encoding rate corresponding to the radio transmission rate;
A video data encoding unit that variably encodes video data according to the video data encoding rate received from the wireless transmission rate control unit, and transmits variable encoded video data depending on radio channel quality to the Femto base station. A terminal device with a video shooting function. A data buffer for temporarily storing the variable encoded video data depending on radio channel quality;
The terminal device with video photographing function according to claim 6, further comprising a buffer amount measuring unit that measures the amount of data stored in the data buffer or a free space.   The terminal device with a video shooting function according to claim 7, further comprising a video coding rate control unit that instructs a coding rate to the video data coding unit. A Femto base station that receives video data shot by a terminal device with a video shooting function and transfers the video data to a video data receiving device,
A radio channel quality measurement unit that measures radio channel quality from variable-encoded video data received from the terminal device with video imaging function;
A radio channel quality control unit that obtains radio channel quality control information from the radio channel quality measured by the radio channel quality measurement unit and transmits the radio channel quality control information to the terminal device with a video shooting function; Femto base station. A video data processing method for transmitting video data of a terminal device with a video shooting function to a video data receiving device via a Femto base station for storage or playback,
A first step in which the Femto base station measures radio channel quality to obtain radio channel quality control information, and transmits the radio channel quality control information to the terminal device with video imaging function;
A second step in which the terminal device with video imaging function obtains a video data encoding rate based on the received wireless channel quality control information;
A third step in which the terminal device with video imaging function obtains variable-encoded video data corresponding to the video data encoding rate;
A fourth step in which the terminal device with video imaging function transmits the variable-encoded video data depending on radio channel quality to the Femto base station;
A fifth step in which the Femto base station receives the variable-encoded video data and transfers the variable-encoded video data to the video data receiving device for storage or reproduction;
A method for processing video data, comprising: A video data processing method for transmitting video data of a terminal device with a video shooting function to a video data receiving device via a Femto base station for storage or playback,
A first step in which a terminal device with a video shooting function stores video data in a data buffer;
A second step in which the Femto base station measures radio channel quality to obtain radio channel quality control information, and transmits the radio channel quality control information to the terminal device with video imaging function;
A third step in which the terminal device with video imaging function obtains a video data encoding rate based on the received wireless channel quality control information;
A fourth step in which the terminal device with video imaging function changes the video data encoding rate in accordance with the data amount or the free capacity stored in the data buffer;
A fifth step in which the terminal device with the video photographing function obtains variable encoded video data corresponding to the changed video data encoding rate;
A sixth step in which the terminal device with video imaging function transmits the variable-encoded video data depending on radio channel quality to the Femto base station;
A seventh step in which the Femto base station receives the variable encoded video data, transfers the variable encoded video data to the video data receiving device, and stores or reproduces the variable encoded video data;
A method for processing video data, comprising:   The program which makes a computer perform the processing method of the video data of Claim 10 or 11.

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