JP5621645B2 - Video storage device and video storage control method - Google Patents

Description

  The present invention relates to a video storage device and a video storage control method capable of storing a video stream across a plurality of storage media.

  Conventionally, when video data is stored in a storage medium, a single storage medium may not have sufficient capacity and may extend over a plurality of storage media. In this case, even if the user later reproduces the video data stored in any one of the plurality of storage media, the presence / absence of the video data captured before or after the reproduced video data I couldn't grasp the outline.

  Therefore, when the content stored in the first storage unit is continuously stored in a plurality of disk storage media, the data stored at the end of one disk storage medium is again stored at the beginning of the next disk storage medium. A technique for storing the information has been proposed (for example, Patent Document 1). In addition, a technique has been proposed in which, among a plurality of storage media that store video data in a divided manner, one storage medium stores video data and a representative image generated using video data connected before or after the video data. (For example, Patent Document 2).

JP 2009-224006 A JP 2006-294164 A

  However, the techniques of Patent Documents 1 and 2 described above can be used when the video data once held in a large-capacity storage medium is divided afterwards and stored in a plurality of storage media, respectively. It is not applicable to a configuration in which a video stream acquired in real time is divided and stored across a plurality of storage media before the storage capacity of the storage medium is exceeded.

  Therefore, in view of such problems, the present invention provides a video storage device and a video storage control method capable of generating digest data representing the relationship between the divided video streams in parallel with the acquisition of the video streams. It is aimed.

In order to solve the above problems, a video storage device (100) of the present invention includes a video acquisition unit that sequentially acquires video streams, and a plurality of storage media (170) that respectively store at least a part of the video streams. When the remaining capacity of the capacity that can be stored in the predetermined storage medium (170a) serving as the storage destination falls below the predetermined capacity, the storage switching unit (180) that switches the storage destination of the video stream, A digest extraction unit (138) that detects a digest scene that satisfies a condition and extracts digest data corresponding to the digest scene, and the digest data extracted with respect to the video stream stored in the storage medium (170b) to be switched to and a storage control unit (182) to be stored in the predetermined storage medium (170a) Wherein the predetermined volume, the remaining storage capacity of the storage medium of the switching destination, and wherein the Rukoto prompted by multiplying the predetermined coefficients.

In order to solve the above problems, a computer, a video storage control method of the present invention using a plurality of storage medium for storing at least a portion of each of the video stream, the computer acquires the video stream, wherein Of the plurality of storage media, the remaining amount of capacity that can be stored in the predetermined storage medium (170a) that is the storage destination of the video stream is multiplied by a predetermined coefficient to the remaining storage capacity of the storage medium that is the switching destination. The video stream storage destination is switched to the switching destination storage medium, a digest scene that satisfies a predetermined condition is detected from the video stream, and digest data corresponding to the digest scene is detected. extracting, before being extracted with respect to the video stream stored the in a storage medium (170b) of the switching destination Digest data, and characterized in that stored in the predetermined storage medium (170a).

  As described above, the present invention can generate digest data representing the relationship between the divided video streams in parallel with the acquisition of the video streams.

It is a functional block diagram showing a schematic configuration of a video storage device. It is a flowchart which shows the flow of a process of a video storage control method. It is explanatory drawing for demonstrating the memory | storage process based on a connection determination. It is explanatory drawing for demonstrating the process which memorize | stores digest data mutually in a some storage medium. It is the functional block diagram which showed the schematic structure of the video reproduction apparatus.

  Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. The dimensions, materials, and other specific numerical values shown in the embodiments are merely examples for facilitating the understanding of the invention, and do not limit the present invention unless otherwise specified. In the present specification and drawings, elements having substantially the same function and configuration are denoted by the same reference numerals, and redundant description is omitted, and elements not directly related to the present invention are not illustrated. To do.

(Video storage device 100)
FIG. 1 is a functional block diagram showing a schematic configuration of the video storage device 100. The video storage device 100 includes an operation unit 120, an imaging unit 122, a data processing unit 124, a microphone 126, a buffer unit 128, a display unit 130, a speaker 132, a compression / decompression unit 134, and a storage reading unit 136. (136a and 136b in FIG. 1), a plurality of storage media 170 (170a and 170b in FIG. 1), a digest extraction unit 138, and a central control unit 140.

  In the present embodiment, the video storage device 100 will be described by taking an imaging device including the imaging unit 122 as an example. However, a video stream broadcast via radio waves or the Internet is sequentially acquired (in real time) and stored. For example, a stationary HDD (Hard Disk Drive) recorder or a video recorder that stores a broadcast video stream may be used.

  The operation unit 120 includes operation keys including a release switch, a cross key, a joystick, and the like, and accepts a user operation input. Further, a touch panel may be provided on the display surface of the display unit 130 to be described later, and the operation unit 120 may be used.

  The imaging unit 122 functions as a video acquisition unit, and includes an imaging lens 150, a zoom lens 152 used for changing the angle of view, a focus lens 154 used for focus adjustment, an iris (aperture) 156 used for exposure adjustment, and an imaging. An image sensor 158 that photoelectrically converts a light beam incident through the lens 150 into a video stream, and a drive unit 160 that drives the zoom lens 152, the focus lens 154, and the iris 156 according to a control signal of the central control unit 140, respectively. The video stream is generated by imaging the subject and output to the data processing unit 124.

  The data processing unit 124 performs a predetermined process on the video stream output from the imaging unit 122 and outputs the processed video stream to the buffer unit 128. The microphone 126 converts air vibrations such as audio into an audio stream and outputs the audio stream to the buffer unit 128.

  The buffer unit 128 includes a RAM (Random Access Memory), a flash memory, an HDD, and the like. The display unit 130 includes a liquid crystal display, an organic EL (Electro Luminescence) display, or the like. The speaker 132 outputs the audio stream as audio.

  The compression / decompression unit 134 encodes and integrates the video stream and the audio stream held in the buffer unit 128 by a predetermined encoding method to generate an encoded data stream. In addition, the compression / decompression unit 134 decodes the encoded data stream read from the storage medium 170 by the storage reading unit 136, separates it into a video stream and an audio stream, and outputs them to the buffer unit 128.

  The plurality of storage reading units 136 store the encoded data stream generated by the compression / decompression unit 134 in the connected storage medium 170. The storage reading unit 136 also reads the encoded data stream from the storage medium 170 in which the encoded data stream is stored, and outputs the encoded data stream to the compression / decompression unit 134.

  The plurality of storage media 170 are constituted by optical disc media such as DVDs and BDs (Blu-ray Discs), media such as RAM, EEPROM, nonvolatile RAM, flash memory, HDD, and the like. At least a part of the stream is stored. Here, each of the plurality of storage media 170 is detachable.

  When the storage medium 170 is connected to one of the storage reading units 136a and 136b, the connected storage reading unit 136 is used for storage processing. When the storage medium 170 is connected to both of the storage reading units 136a and 136b, it is set in advance so that one of the storage reading units 136a and 136b is preferentially used for storage processing. This setting can be changed later by the user.

  The digest extraction unit 138 detects a digest scene that satisfies a predetermined condition from the video stream and the audio stream, and extracts digest data corresponding to the digest scene.

  The central control unit 140 manages and controls the entire video storage device 100 by a semiconductor integrated circuit including a central processing unit (CPU), a ROM storing programs, a RAM as a work area, and the like. The central control unit 140 also functions as a storage switching unit 180, a storage control unit 182, and a connection determination unit 184.

  The storage switching unit 180 stores the encoded data stream based on the remaining storage capacity of a predetermined storage medium 170a (hereinafter simply referred to as the storage medium 170a) as a storage destination of the plurality of storage media 170a and 170b. Switch.

  The storage control unit 182 stores the digest data extracted regarding the encoded data stream stored in the switching destination storage medium 170b (hereinafter simply referred to as the storage medium 170b) in the storage medium 170a. The connection determination unit 184 determines whether or not the storage medium 170a is connected to the video storage device 100.

(Video storage control processing)
Next, video storage control processing (method) using the video storage device 100 described above will be described. FIG. 2 is a flowchart showing a processing flow of the video storage control method. In the following description, it is assumed that the storage media 170a and 170b are connected in advance to the storage reading units 136a and 136b, and the storage process for the storage medium 170a is performed before the storage medium 170b.

(Stream acquisition process)
When there is a user input for performing imaging (including storage) through the operation unit 120 (YES in S300), the imaging unit 122 images a subject, generates a video stream, and outputs the video stream to the data processing unit 124. The data processing unit 124 performs predetermined processing such as white balance adjustment, noise reduction processing, level correction processing, A / D conversion processing, and color correction processing (gamma correction processing, knee processing) on the video stream output from the imaging unit 122. Processing is performed, and the processed video stream is output to the buffer unit 128. The microphone 126 converts air vibrations such as audio into an audio stream and outputs the audio stream to the buffer unit 128 (S302).

  The buffer unit 128 temporarily holds the video stream input from the data processing unit 124. The buffer unit 128 temporarily holds the audio stream input from the microphone 126 (S304).

  The display unit 130 displays the video stream output from the data processing unit 124 and the compression / decompression unit 134 and stored in the buffer unit 128, and displays instruction items and operation states linked to the operation unit 120, such as OSD (On Screen Display). Or display. Further, the operation state may be displayed by lighting with a simple mechanism such as an LED.

(Stream encoding process)
The compression / decompression unit 134 converts the video stream output from the data processing unit 124 and held in the buffer unit 128 into M-JPEG (Motion JPEG), MPEG (Moving Picture Experts Group) -2, H.264, and the like. It encodes by a predetermined encoding method such as H.264. Further, the compression / decompression unit 134 encodes the audio stream output from the microphone 126 and held in the buffer unit 128 by an audio encoding method such as MP3, AAC, Ogg Vorbis, or the like. Then, the compression / decompression unit 134 synchronizes and integrates the encoded video stream and audio stream, generates an encoded data stream, and outputs the encoded data stream to the storage / reading unit 136 (S306).

(Stream storage processing)
The storage reading unit 136 stores the encoded data stream generated by the compression / decompression unit 134 in the connected storage medium 170a using a file storage format such as FAT or UDF (S308). In this embodiment, the video storage device 100 includes two storage reading units 136a and 136b and is configured to be able to connect a plurality of storage media 170a and 170b. However, the present invention is not limited to this, and the storage reading unit 136 and A configuration may be adopted in which three or more storage media 170 are provided.

  Further, the storage medium 170b is not limited to being connected from the beginning, and the storage medium 170b may be connected afterwards while the encoded data stream is being stored in the storage medium 170a. Further, three or more storage media 170 may be used alternately for the two storage reading units 136a and 136b. An example using three or more storage media 170 will be described in detail later.

  Then, the storage control unit 182 creates stream management information based on the setting information regarding the encoding from the compression / decompression unit 134 and the setting parameters by the user at the start and during the storage of the encoded data stream in the storage medium 170a. Then, the stream management information is stored in the storage medium 170a as a part of the encoded data stream file or as a separate file (S310).

  Here, the stream management information includes the number of scenes (files), the name of each scene, playback start time and playback end time, playback order, and the like.

(Storage destination switching process)
For example, when the remaining storage capacity decreases, the storage switching unit 180 switches the storage destination of the encoded data stream based on the remaining storage capacity of the storage medium 170a that is the storage destination of the plurality of storage media 170a and 170b. Then, storage of the encoded data stream to the storage medium 170b is started.

  First, the storage switching unit 180 determines whether or not the remaining capacity that can be stored in the storage medium 170a is equal to or less than a predetermined capacity (S312). If it is not less than the predetermined capacity (NO in S312), the process returns to the imaging determination step S300, and the storage process to the same storage medium 170a is continued as it is. If it is equal to or smaller than the predetermined capacity (YES in S312), the storage switching unit 180 switches the storage destination of the encoded data stream from the storage medium 170a to the storage medium 170b (S314).

  With such a configuration, the storage switching unit 180 leaves the storage medium 170a with sufficient storage capacity to store the digest data of the encoded data stream stored in the storage medium 170b, and ensures the digest data later. Can be memorized.

  Here, the predetermined capacity is obtained by multiplying the remaining storage capacity of the storage medium 170b by a predetermined coefficient (for example, 5%).

  With this configuration, the storage switching unit 180 always stores the digest data by a predetermined ratio (for example, 5%) with respect to the remaining storage capacity even when the remaining storage capacity of the storage medium 170b is different. Storage capacity can be left. Therefore, the storage switching unit 180 stores the digest data of an appropriate length in the storage medium 170a by setting the predetermined coefficient to an appropriate value so that the digest data is not too short or too long. It becomes possible to make it.

  The storage control unit 182 causes the storage reading unit 136a to perform the process of closing the file of the encoded data stream. In addition, the storage control unit 182 controls the storage reading unit 136a and, as described above, causes the stream management information to be added to the file before the close process or stored as a separate file.

(Identifier storage processing)
After the storage switching unit 180 switches the storage destination of the encoded data stream from the storage medium 170a to the storage medium 170b, the storage control unit 182 indicates that the encoded data stream continues to the storage medium 170a (next) The stream management information is additionally written with flag information indicating that there is an encoded data stream to be reproduced) and an identifier for identifying the storage medium 170b in which the subsequent encoded data stream is stored. In addition, the storage control unit 182 includes flag information indicating that the encoded data stream has the first part (there is an encoded data stream to be reproduced in advance) in the storage medium 170b, and the encoded data stream of the first part. Is added to the stream management information (S316).

  Similarly to the stream output step S302 to the management information storage step S310 related to the storage medium 170a, the stream output (S318), temporary storage (S320), encoding (S322), and stream storage (S324) are related to the storage medium 170b. Management information storage (S326) is performed.

(Digest data extraction process)
The digest extraction unit 138 determines whether a digest scene satisfying a predetermined condition is detected from the video stream and the audio stream (S328). If detected (YES in S328), the digest extraction unit 138 extracts digest data corresponding to the digest scene (S330). In the present embodiment, the digest data extraction process is specifically a process of acquiring time information for specifying a digest scene and storing it as stream management information of the storage medium 170b in which the digest scene is detected.

  Here, the predetermined condition is, for example, that a face is detected from the video stream, or that a voice regarded as a cheer is detected from the audio stream. In the former case, the digest extraction unit 138 functions as a face detection unit, and performs face detection processing for detecting a human face from the video stream. The digest extraction unit 138 functions as a face authentication unit, performs face authentication processing of the detected face and a registered face registered in advance, and determines that the detected face is regarded as the same person as the registered face. It is good also as conditions. In the latter case, the digest extraction unit 138 performs voice analysis. For example, if a voice stream includes voice with a predetermined sound pressure and a predetermined frequency or higher, the digest is detected as cheering.

(Digest data storage process)
The storage control unit 182 stores the digest data extracted regarding the encoded data stream stored in the storage medium 170b in the storage medium 170a (S332). Specifically, the storage control unit 182 corresponds to a predetermined capacity based on the time information specifying the digest scene held in the storage medium 170b, for example, with the time indicated by the time information as a start time. Digest data of a data amount or a predetermined time length is acquired from the storage medium 170b through the storage reading unit 136b and the compression / decompression unit 134. Then, the storage control unit 182 stores the acquired digest data in the storage medium 170a.

(End determination processing)
Then, the central control unit 140 determines whether or not there is a user input for stopping imaging (S334). If there is no user input to stop imaging (NO in S334), the process returns to the stream output step S318. When there is a user input to stop imaging (YES in S334), the storage control unit 182 causes the storage medium 170b to perform the process of closing the encoded data stream file. In addition, the storage control unit 182 controls the storage reading unit 136a to add the stream management information to the file or store it as a separate file as described above.

(Digest data storage stop and restart processing)
FIG. 3 is an explanatory diagram for explaining storage processing based on connection determination. As shown in FIG. 3A, after the encoded data stream A is stored in the storage medium 170a and the remaining storage capacity becomes equal to or less than a predetermined capacity, the subsequent encoded data stream B is stored in the storage medium 170b. Assume that processing has started. At this time, while the encoded data stream is stored in the storage medium 170b, the digest data is not yet stored in the storage medium 170a due to reasons such as the digest data is not yet extracted, as shown in FIG. If the connection of the 170a to the video storage device 100 is released, the digest data is not stored in the storage medium 170a as it is.

  Therefore, as described above, the storage control unit 182 stores an identifier for identifying the storage medium 170b in the storage medium 170a before storing the digest data regarding the encoded data stream stored in the storage medium 170b in the storage medium 170a. Keep it.

  When the connection determination unit 184 determines that the storage medium 170a is not connected to the video storage device 100 when the digest data is stored in the storage medium 170a, the digest related to the encoded data stream stored in the storage medium 170b. Stop storing data. At this time, as described above, the storage medium 170b stores time information for specifying the digest scene.

  Thereafter, as shown in FIG. 3C, when the connection determination unit 184 determines again that the storage medium 170a is connected to the video storage device 100, the storage control unit 182 displays as shown in FIG. The identifier stored in the storage medium 170a is referred to. When the other connected storage medium 170b is the storage medium 170b specified by the identifier, the digest data B relating to the encoded data stream B is obtained by referring to the time information stored in the storage medium 170b. It is acquired and stored in the storage medium 170a.

  The storage control unit 182 can reliably store the digest data in the storage medium 170 a by stopping the storage of the digest data and restarting the digest data later based on the identifier.

(Digest data mutual storage processing)
FIG. 4 is an explanatory diagram for explaining the process of storing digest data in a plurality of storage media. As described above, the storage control unit 182 stores the digest data B extracted for the encoded data stream B stored in the storage medium 170b in the storage medium 170a. Furthermore, as shown in FIG. 4, the storage control unit 182 further stores the digest data A extracted with respect to the encoded data stream A stored in the storage medium 170a in the storage medium 170b.

  In this case, if the digest extraction unit 138 extracts digest data during the storage process for the storage medium 170a, the storage control unit 182 adds time information for specifying the digest data to the stream management information of the storage medium 170a. Then, when the storage process for the storage medium 170b starts (when the storage process to the storage medium 170b is confirmed), the storage control unit 182 refers to the time information added to the stream management information of the storage medium 170a, and the storage medium 170a The digest data is extracted from the encoded data stream stored in the storage medium 170b and stored in the storage medium 170b.

  With this configuration, the user can grasp the presence / absence of the encoded data stream stored in the storage medium 170a and the outline of the content only by reproducing and visually confirming the storage medium 170b.

(Storage processing to three or more storage media 170)
The video storage device 100 can also use three or more storage media 170 for the two storage reading units 136a and 136b. For example, when a plurality of storage media 170a, 170b, 170c, and 170d are used, the storage medium 170c is connected instead of the storage medium 170a that has finished storing the encoded data stream while the encoded data stream is being stored in the storage medium 170b. Then, following the storage medium 170b, the encoded data stream is stored in the storage medium 170c. Similarly, while the encoded data stream is being stored in the storage medium 170c, the storage medium 170d is connected instead of the storage medium 170b that has finished storing the encoded data stream, and the storage medium 170c is followed by the encoding to the storage medium 170d. Store the data stream.

  In this case, when the digest extraction unit 138 extracts the digest data, the digest data itself, not the time information, is associated with an identifier for identifying the storage medium 170 storing the encoded data stream that is the source of the digest data. Held in the unit 128. For example, when the digest data for the storage medium 170a is held in the buffer unit 128, the storage control unit 182 stores the digest data continuously after the storage process to the storage medium 170a. , 170d.

  Therefore, if the storage medium 170 that has finished storing the encoded data stream is immediately switched to the new storage medium 170, the digest data is not stored in the storage medium 170a, and the storage medium 170b is stored in the storage medium 170a. The encoded data stream digest data is stored in the storage medium 170c, and the encoded data stream digest data stored in the storage media 170a and 170b is stored in the storage medium 170d in the storage media 170a, 170b, and 170c. Digest data of the encoded data stream thus stored is stored.

  Then, after the storage of the series of encoded data streams is completed, when the storage medium 170a is connected afterwards, the storage control unit 182 stores the data in the storage media 170b, 170c, and 170d that have not been stored yet. The digest data of the encoded data stream is added. Similarly, the storage control unit 182 stores the digest data of the encoded data stream stored in the storage media 170c and 170d when the storage medium 170b is connected, and stores the digest data in the storage medium 170d when the storage medium 170c is connected. The digest data of the encoded data stream thus recorded is additionally recorded.

  In this way, in order to add digest data later, the storage control unit 182 indicates that each of the storage media 170a, 170b, 170c, and 170d stores a series of encoded data streams. The identifier and the serial number indicating the number of the storage medium 170 that has been subjected to the storage process are stored. In addition, the digest extraction unit 138 associates the digest data to be held in the buffer unit 128 with the common identifier and the serial number of the storage medium 170 in which the encoded data stream that is the source of the digest data is stored.

  In addition, in the storage processing in the three or more storage media 170, the predetermined capacity for switching the storage medium 170 that is the storage destination of the code data stream corresponds to, for example, digest data having a time length specified in advance by user input. The amount of data.

  As described above, the video storage device 100 according to the present embodiment stores the video stream acquired in real time across the plurality of storage media 170a and 170b, among the plurality of storage media 170a and 170b. The digest data of the encoded data stream stored in the other storage medium 170b is stored in the medium 170a. Therefore, the user can grasp the presence / absence of the encoded data stream stored in the other storage medium 170b and the outline of the content only by reproducing and visually confirming the storage medium 170a.

(Video playback device 400)
FIG. 5 is a functional block diagram showing a schematic configuration of the video playback device 400. The video reproduction device 400 includes an operation unit 420, a plurality of reading units 422 (422a and 422b in FIG. 5), an expansion unit 424, a buffer unit 426, an external output unit 428, and a central control unit 430. Consists of.

  The operation unit 420 includes operation keys including a release switch, a cross key, a joystick, and the like, and accepts a user operation input. As described above, the video storage device 100 stores the encoded data stream and the digest data in the plurality of storage media 170a and 170b.

  The reading unit 422 reads the encoded data stream and digest data stored in the connected storage medium 170 and outputs the encoded data stream and digest data to the decompression unit 424. The decompression unit 424 decodes the encoded data stream read by the reading unit 422, separates it into a video stream and an audio stream, and outputs them to the buffer unit 426.

  The buffer unit 426 includes a RAM, a flash memory, an HDD, and the like, and temporarily holds a video stream and an audio stream. The external output unit 428 outputs the video stream and audio stream held in the buffer unit 426 to the video display device 500 that performs video display and audio output.

  The central control unit 430 manages and controls the entire video reproduction device 400 by a semiconductor integrated circuit including a central processing unit (CPU), a ROM storing programs, a RAM as a work area, and the like. The central control unit 430 also functions as a reproduction control unit 450.

  The reproduction control unit 450 identifies flag information indicating that the encoded data stream continues in the storage medium 170a connected to the reading unit 422a, and the storage medium 170b in which the subsequent encoded data stream is stored. It is determined whether the identifier to be stored is stored as stream management information.

  In the case where the storage medium 170b is connected to the reading unit 422b, the reproduction control unit 450 reads the encoded data stream stored in the storage medium 170a when the reproduction (from reading to output) is completed. The unit 422b continuously reads the encoded data stream from the storage medium 170b.

  If the flag information and the identifier indicating the storage medium 170b are stored, but the storage medium 170b is not connected to the reading unit 422b, the playback control unit 450 stores the storage medium 170b stored in the storage medium 170a. The digest data corresponding to the encoded data stream is reproduced.

  As described above, according to the video reproduction device 400 of the present embodiment, even when the encoded data stream is stored across the plurality of storage media 170a and 170b, the next storage medium 170b is connected when the storage destination is switched. If this is done, the video can be displayed smoothly without interruption. In addition, when the next storage medium 170b is not connected, the user can check the presence of the next storage medium 170b and the outline of the video by viewing the digest data.

  Furthermore, the playback control unit 450 may display the digest data using PinP or the like from a predetermined time before the playback of the encoded data stream stored in the storage medium 170a ends, for example. Further, when an encoded data stream is stored across three or more storage media 170, at the start of playback of one of the storage media 170, the playback control unit 450, for example, like a chapter selection screen, A digest data selection screen may be displayed.

  As mentioned above, although preferred embodiment of this invention was described referring an accompanying drawing, it cannot be overemphasized that this invention is not limited to this embodiment. It will be apparent to those skilled in the art that various changes and modifications can be made within the scope of the claims, and these are naturally within the technical scope of the present invention. Is done.

  Note that each step in the video storage control method of the present specification does not necessarily have to be processed in time series in the order described in the flowchart, and may include processing in parallel or by a subroutine.

  The present invention can be used in a video storage device and a video storage control method that can store a video stream across a plurality of storage media.

DESCRIPTION OF SYMBOLS 100 ... Image | video storage device 138 ... Digest extraction part 170 (170a, 170b) ... Storage medium 180 ... Storage switching part 182 ... Storage control part 184 ... Connection determination part

Claims (2)

A video acquisition unit that sequentially acquires video streams;
Among the plurality of storage media that respectively store at least a part of the video stream, the storage destination of the video stream is switched when a remaining capacity that can be stored in a predetermined storage medium that is a storage destination is equal to or less than a predetermined capacity. A memory switching unit;
Detecting a digest scene that satisfies a predetermined condition from the video stream, and extracting digest data corresponding to the digest scene; and
A storage control unit for storing the digest data extracted with respect to the video streams respectively stored in the storage medium of the switching destination in the predetermined storage medium;
Equipped with a,
Wherein the predetermined volume, the switching to the remaining storage capacity of the storage medium換先, video storage device according to claim Rukoto prompted by multiplying the predetermined coefficients. A video storage control method using a computer and a plurality of storage media each storing at least a part of a video stream,
The computer is
It acquires the video stream,
Wherein among the plurality of storage media, the remaining amount of the available storage capacity in the storage destination becomes a predetermined storage medium of the video stream, the remaining storage capacity of the storage medium of switching destination multiplies predetermined coefficients When the predetermined capacity or less is obtained , the storage destination of the video stream is switched to the storage medium of the switching destination,
Detecting a digest scene satisfying a predetermined condition from the video stream, extracting digest data corresponding to the digest scene,
Video storage control method, characterized in that the digest data extracted for each stored video stream in the storage medium of the switching destination, is stored in the predetermined storage medium.

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