JP2004112167A - Image storing and distribution system - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an image storing and distribution system which distributes recorded images by using the existing image distributing transmitter and an image receiver. <P>SOLUTION: In a system having an image receiver 14 for receiving images transmitted from an image transmitter 13 over a network medium 11, an image recorder 17 and a distribution instructor 16 are connected to the network medium, and the instructor 16 instructs the recorder to take images from the image transmitter or those from the image recorder. When the instructor instructs to take images from the transmitter, the image receiver receives the images from the recorder and stores them in the recorder. When the instructor instructs to take images from the recorder, the images stored in the recorder are reproduced and transmitted to the receiver. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
The present invention relates to a video distribution system for transmitting and receiving video captured by an imaging device such as a surveillance camera over a network, and more particularly to a video storage and distribution system that newly adds a function of storing and re-distributing video. It is.
[0002]
[Prior art]
2. Description of the Related Art Conventionally, video surveillance systems have been installed in hotels, buildings, convenience stores, financial institutions, and public facilities such as dams and roads for the purpose of deterring crime and preventing accidents. This means that an object to be monitored is photographed by an imaging device such as a camera, and the image is transmitted to a monitoring center such as a management office or a security room via an analog signal line, and a resident observer monitors it, It pays attention or records and saves images as necessary or necessary.
[0003]
On the other hand, there is a system for transmitting digital video via a network represented by the Internet or an intranet. Particularly in recent years, with the development of a large-capacity and high-speed network infrastructure, a system for transmitting digital video has been remarkably advanced.
[0004]
Along with the development of the network video transmission system, a network type video monitoring system for digitizing a video of a monitoring camera, transmitting the video via a network, and monitoring the video has been spreading in the field of a video monitoring system.
[0005]
Compared with the conventional video surveillance system that requires an analog dedicated line for each camera, such a network-type video surveillance system has advantages such as lower installation cost, transmission of various additional information, and high expandability. .
[0006]
A network-type video surveillance system that is currently mainstream distributes live video via a network from a video transmission device connected to a monitoring camera to a video reception device. The resident observer always views this video, and when a problem occurs, the system is adapted to a monitoring form that responds according to the situation.
[0007]
FIG. 4 shows an example of the configuration of a conventional network-type video surveillance system that distributes live video (the document does not relate to the invention disclosed in the literature).
[0008]
In FIG. 4, 11 is a network medium, 12 is a video generation device, 13 is a video transmission device, 14 is a video reception device, and 15 is a video display device.
[0009]
The network medium 11 is, for example, a network cable, a wireless LAN, a public line, or the like, and has a role of transmitting transmitted data. It also includes network devices such as routers and hubs. The video transmission device 13 and the video reception device 14 are connected to the network medium 11 so that they can communicate with each other.
[0010]
The image generation device 12 is an image generation device having an image sensor such as a camera, for example, and has a role of converting light into electricity to generate an image.
[0011]
The video transmission device 13 is, for example, an encoder device including a network interface, an image codec, and an interface for receiving a video from the video generation device 12, and receives an input video from the video generation device 12 via the network medium 11. It has a role of transmitting to the device 14.
[0012]
The image generating device 12 and the image transmitting device 13 may be combined as one device.
[0013]
The video transmission device 13 includes a video conversion unit 131, a video transmission unit 132, and an authentication unit 133. The authentication unit 133 has a role of determining whether a video distribution service can be provided in response to a live video distribution request from the video receiving device 14. The video conversion unit 131 has a role of converting an input video from the video generation device 12 into a form suitable for network distribution. For example, if the input video is an analog video, the input video is converted into a digital signal, and a compression process is performed depending on the transmission band of the network medium 11.
The video transmission unit 132 has a role of distributing the video converted by the video conversion unit 131 to the video reception device 14 via the network medium 11 in consideration of the judgment of the authentication unit 133.
[0014]
The video receiving device 14 is, for example, a decoding device including a network interface, an image codec, and an interface for outputting a video to the video display device 15, and serves to receive a video transmitted from the video transmitting device 13 through the network medium 11. have.
[0015]
The video receiving device 14 includes a video receiving unit 141 and a video converting unit 142.
The video receiving unit 141 has a role of transmitting a live video request to the video transmitting device 13 and receiving a distributed video as a result. The video converter 142 has a role of converting the video received by the video receiver 141 into a form that can be displayed by the video display device 15. For example, if the video display device 15 is a television monitor, it performs analog conversion. Further, if the received video is a compressed video, an expansion process is performed.
[0016]
The video display device 15 is, for example, a video display device having a projection element such as a television monitor, a CRT of a computer, and a liquid crystal monitor, and has a role of displaying a video by converting electricity into light.
[0017]
The video receiving device 14 and the video display device 15 may be combined as one device. For example, a form incorporated in a television monitor, a form of a computer connected to a CRT, or a form of a portable terminal such as a portable telephone having a display device can be given.
[0018]
Next, the flow of processing in a conventional network-type video monitoring system that distributes live video will be described with reference to FIG.
[0019]
The video generation device 12 always inputs a video to the video transmission device 13, and the video conversion unit 131 continues the process of converting the input video independently (process 211).
The video receiver 14 sends a video distribution request from the video receiver 141 to the video transmitter 13, and the video transmitter 132 receives the request (process 221). The video transmission unit 132 inquires of the authentication unit 133 whether or not the distribution service for the received request is available (processing 222), extracts the video from the video conversion unit 131 (processing 223), and distributes the video to the video receiving device 14. (Step 224). The video receiving unit 141 receives the distributed video and passes it to the video converting unit 142 (process 225). The video conversion unit 142 converts the passed video into a format that can be displayed by the video display device 15 and outputs the format to the video display device 15, and the video display device 15 displays the output video (process 226).
[0020]
There is a case where the authentication processing is not installed in the target video transmission device 13. In that case, the process 222 is omitted.
[0021]
[Problems to be solved by the invention]
In addition to the above-mentioned live video surveillance, the video surveillance system also has surveillance forms such as `` record and store surveillance video and watch recorded video retroactively when a problem occurs ''. There are customer needs for such "recording-type monitoring" mainly in stores. In a network-type video surveillance system, there is still no system that can meet the needs of recording-type surveillance, and it is essential to satisfy such needs.
[0022]
It is not so difficult to build a new system with these needs in mind from the beginning and to achieve both live video distribution and recorded video distribution. However, with the product launch competition in the early days, there are already a large number of systems in the market that assume only live video distribution. It is not easy to make the entire system compatible with recorded video distribution without replacing devices incorporated in those systems. This is because, in the recording video distribution, information for specifying a video to be viewed must be added, and such a mechanism is not incorporated in a video transmission device / video reception device on the premise of live video distribution.
[0023]
SUMMARY OF THE INVENTION An object of the present invention is to provide a video storage / distribution system capable of recording video distribution while utilizing both a video transmission device and a video receiving device for video distribution.
[0024]
[Means for Solving the Problems]
The present invention relates to a system for receiving a video transmitted from a video transmitting device via a network medium by a video receiving device, wherein a video recording device and a distribution instruction device are connected to the network medium, and the distribution instruction device includes the video recording device. Instruct the device whether the video from the video transmission device or the video from the video recording device, the video recording device, when the instruction from the distribution instruction device is a video from the video transmission device, The video from the video transmitting device is received by the video receiving device and stored in the video recording device, and when the instruction from the distribution instruction device is a video from the video recording device, the video is stored in the video recording device. A video storage / delivery system for reproducing a video and transmitting the video to the video receiving device.
[0025]
The present invention relates to a system for receiving a video transmitted from a video transmitting device via a network medium by a video receiving device, wherein a video recording device and a distribution instruction device are connected to the network medium, and the distribution instruction device includes the video recording device. The apparatus gives an instruction on the type of reproduction in the case of the video from the video transmission device or the video from the video recording device and the video from the video recording device, and the instruction from the distribution instruction device is the video transmission device In the case of the video from the video recording device, the video recording device receives the video from the video transmission device in the video receiving device and accumulates the video in the video recording device, and the instruction from the distribution instruction device is the video recording device If the video is from, playback of the video stored in the video recording device based on the instruction regarding the type of playback from the distribution instruction device Serial is a video storage distribution system and transmits to the video receiver.
[0026]
In the present invention, the video recording device stores a database indicating a correspondence between index information relating to the distribution of a recorded video and a video identification number that specifies the index information, and an instruction regarding a type of reproduction from the distribution instruction device. A video identification number given based on the video identification number, calculates video recording position information in the database from the video identification number, and retrieves and reproduces a video based on the information. is there.
[0027]
The present invention relates to a system for receiving a video transmitted from a video transmitting device via a network medium by a video receiving device, wherein a video recording device and a distribution instruction device are connected to the network medium, and the distribution instruction device includes the video recording device. Instructing the device to be a video from the video transmitting device or a video from the video recording device and a type of reproduction in the case of a video from the video recording device, as well as index information and distribution of the recorded video and the index information Stores a database indicating the correspondence with the video identification number specifying the video transmission device, and when the instruction of the distribution instruction device is a video from the video transmission device, the video recording device transmits the video from the video transmission device. The video is received by the video receiving device and stored in the video recording device. In the case of a video from the device, calculate a video identification number given based on an instruction regarding the type of playback from the distribution instruction device, calculate video recording position information in the database from the video identification number, A video storage and delivery system, wherein a video is taken out based on information, reproduced, and transmitted to the video receiving device.
[0028]
According to the present invention, in response to a case where a video transmitted from the video transmission device is a stream video, the stream video is decomposed and stored in a frame image, and when reproduced, a stream is reconstructed from the decomposed data and transmitted. The video storage and delivery system is characterized by performing playback operations such as fast forward, frame forward, and reverse playback at an arbitrary speed.
[0029]
In the present invention, the video recording device has a recording management unit that manages storing the video transmitted from the video transmission device on the medium, and the recording management unit reaches the maximum recordable capacity of the medium. In this case, the video storage / delivery system is characterized in that the recorded video is discarded based on a preset selection rule and endless recording is performed to overwrite the current video.
[0030]
BEST MODE FOR CARRYING OUT THE INVENTION
An embodiment of a video storage and delivery system according to the present invention will be described below.
FIG. 1 is a block diagram showing a configuration of the first exemplary embodiment of the present invention.
In FIG. 1, reference numerals 11 to 15 denote the same devices as the conventional device of FIG.
Reference numeral 16 denotes a distribution instruction device, and 17 denotes a video recording device.
[0031]
The distribution instruction device 16 is, for example, a control panel device provided with a network interface and arranged with a group of buttons such as live, forward playback, rewind, fast forward, and frame forward. The distribution instruction device 16 is connected to the network medium 11 and can communicate with other connection devices. The distribution instruction device 16 has a role of notifying the video recording device 17 of the type of video desired by the video viewer, that is, live video distribution and recorded video distribution, and in the case of recorded video distribution, transmitting an instruction regarding the type of reproduction. Have. This device may be built in the video receiving device 14 depending on the specifications of the video receiving device 14.
[0032]
The video recording device 17 is, for example, a computer having a network interface. The video recording device 17 is connected to the network medium 11 and can communicate with other connected devices.
[0033]
The video recording device 17 includes an emulation unit 171, a recording management unit 172, and a recording medium 173. The emulation unit 171 controls the video transmitting device 13 and the video receiving device 14, which only support live video distribution, to perform the necessary control for recording video distribution, and make the communication appear to be live video distribution. Have a role. The recording management unit 172 has a role of managing the recording position of the video recorded on the recording medium 173. The recording medium 173 is a physical object for recording a video, for example, a RAID device of a hard disk or a semiconductor memory. The video recording device 17 receives the video transmitted from the video transmitting device 13 and stores the video in the recording medium 173, and extracts the video from the recording medium 173 in response to a distribution request from the video receiving device 14, and receives the video. It has a role of making a call to the device 14.
[0034]
These roles are such that services can be simultaneously provided to an arbitrary plurality of video transmitting devices and an arbitrary plurality of video receiving devices.
[0035]
Next, a description will be given below of enabling recording video distribution with the above configuration. FIG. 2 is a diagram for explaining the flow of processing including the communication part of the first embodiment of the video storage and delivery system of the present invention. 2, 2 to 7, 131 to 133, 141 to 142, 161, and 71 to 72 are the same as those in FIG. FIG. 2 shows an enlarged view of the emulation unit 171.
[0036]
First, the configuration of the enlarged view will be described.
[0037]
The emulation unit 171 includes a communication system emulation unit 1711 and a state transition control unit 1712. The communication method emulation unit 1711 includes an authentication proxy unit 17111, a video reception proxy unit 17112, and an authentication transmission proxy unit 17113. The state transition control unit 1712 includes a video transmission device emulation unit 17121 and a distribution state management unit 17122.
[0038]
The communication system emulation unit 1711 performs reception processing on the video transmission device 13 in the video reception proxy unit 17112 according to the communication system on the video reception device 14 side, and performs transmission processing on the video reception device 14 with the video transmission device In accordance with the communication method of the side 13, the video transmission proxy section 17113 has a role of performing transmission processing. In addition, the authentication processing necessary for the transmitting side is also performed by the built-in authentication proxy unit 17111.
[0039]
The state transition control unit 1712 performs communication while performing timing management of a video distribution request to the video transmission device 13, timing management of video distribution to the video reception device 14, and distribution status management in response to an instruction from the distribution instruction device 16. It has a role of controlling the processing of the system emulation unit 1711. Also, it has a role of instructing the recording management unit 172 of input / output with the recording medium 173.
[0040]
The authentication acting unit 17111 determines whether or not the video distribution service can be provided in response to the video distribution request from the video receiving device 14. The authentication substituting unit 17111 performs the same process as the process performed by the authentication unit 133 of the video transmission device 13. As an authentication processing method, there are an ID method, a network address method, a password method, and the like. In advance registration of information necessary for authentication, for example, registration of a password, the same contents as those registered in the video transmission device 13 are registered in the video recording device 17 in advance.
[0041]
If the target video transmission device 13 does not have an authentication process, the video recording device 17 does not need to have the authentication proxy unit 17111.
[0042]
The video reception proxy unit 17112 has a role of issuing a video distribution request to the video transmission device 13 and receiving the distributed video. The communication method at that time follows the method of the video transmission device 13. The timing of issuing the video distribution request follows the instruction of the video transmission device emulation unit 17121. Information necessary for the video reception proxy unit 17112 to communicate with the video transmission device 13, for example, the network address of the video transmission device 13 is registered in the video recording device 17 in advance. Also, information registered in the video transmission device 13 for the video transmission device 13 to communicate with the video reception device 14, for example, the network address of the video reception device 14 is changed and registered to the network address of the video recording device 17. deep. Such a network address change registration is provided with an easy mechanism for all products that are network compatible devices, so that it is not necessary to replace the conventional device with this change registration.
[0043]
The video transmission proxy unit 17113 has a role of receiving a video distribution request from the video receiving device 14 and distributing a video. The communication method at that time follows the method of the video receiving device 14. Whether or not the distribution in response to the video distribution request can be performed is determined by the authentication acting unit 17111. The timing of distributing the video follows the instruction of the video transmission device emulation unit 17121. Information necessary for the video transmission proxy unit 17113 to communicate with the video receiving device 14, for example, the network address of the video receiving device 14 is registered in the video recording device 17 in advance. Also, information registered in the video receiving device 14 for the video receiving device 14 to communicate with the video transmitting device 13, for example, the network address of the video transmitting device 13 is changed and registered to the network address of the video recording device 17. deep.
[0044]
The video transmission device emulation unit 17121 has a role of mainly performing control related to timing, such as timing management of a video distribution request to the video transmission device 13 and timing management of video distribution to the video reception device 14. Further, it has a role of storing the video received by the video reception proxy unit 17112 in the recording medium 173 via the recording management unit 172. The information required for determining the timing of the video distribution request to the video transmission device 13 and the timing of the video distribution to the video reception device 14, for example, the distribution frame rate of the video transmission device 13 is registered in the video recording device 17 in advance. deep.
[0045]
In addition, with regard to the timing issuance, if information other than the distribution frame rate of the video transmission device 13, for example, information such as a lapse time interval and a recording schedule, is added, variations in video recording can be diversified.
[0046]
The distribution state management unit 17122 has a role of performing distribution state management. The information to be managed is the instruction from the distribution instruction device 16 and the transition of the video that has been distributed to the video receiving device 14 by the video transmission proxy unit 17113 so far. Also, the delivery state management unit 17122 takes out the recording video to be delivered from the recording medium 173 via the recording management unit 172. At this time, the specification of the recorded video to be taken out is calculated by calculation based on the instruction from the distribution instruction device 16 and the transition of the video that has been distributed to the video receiving device 14 by the video transmission proxy unit 17113 so far.
[0047]
Next, the flow of processing for enabling recorded video distribution will be described. The processing is roughly divided into three: video recording processing, video distribution processing, and distribution management processing.
[0048]
First, the video recording process will be described.
[0049]
The video transmission device emulation unit 17121 instructs the video reception proxy unit 17112 to acquire a video (process 311). The timing is calculated based on conditions such as the distribution frame rate of the video transmission device 13 registered in the video recording device 17 in advance. The video reception proxy unit 17112 sends a video distribution request to the video transmission device 13 according to the above-mentioned instruction (process 312). The process of the video transmission device 13 which has received the request is the same as the conventional processes 222 and 223 in FIG. 5, and as a result, the video is distributed to the video recording device 17 (process 313).
[0050]
The video reception proxy unit 17112 receives the distributed video and passes it to the video transmission device emulation unit 17121 (processing 314). The video transmission device emulation unit 17121 issues a video storage instruction to the recording management unit 172 together with the video (process 315). The recording management unit 172 calculates an optimal position on the recording medium for storing the video, and performs storage on the recording medium (process 316).
[0051]
At this time, information necessary for recording video distribution, for example, recording time information or recording position information is stored as index information in a database provided separately from the video data, and is numbered. The number is used to access the recorded video, and is assigned a value capable of uniquely obtaining a specific video, for example, a serial number. Hereinafter, this number is referred to as a video identification number. The database is a so-called tabular database. The video identification number serves as a line number, and it is possible to extract index information such as recording position information from the video identification number.
[0052]
The processing described above is performed when the video handled by the video transmission device 13 is composed of one frame unit. However, the video handled by the video transmission device 13 is a video composed of a combination (stream) of a plurality of frames, for example, an MPEG video. In step 316, a pre-process of decomposing the stream into frames is performed in process 316, and the optimal position on the recording medium for storing the video is calculated for each, and the storage on the recording medium and the index are performed. Performs information storage and numbering.
[0053]
The recording management unit 172 manages the recording position of the recorded video on the recording medium and simultaneously manages the current recording amount with respect to the maximum recordable capacity. In the process 316, when the current recording amount has reached the maximum recordable capacity, the recording management unit 172 selectively deletes the already recorded video according to a set rule, for example, a rule of simply discarding an old video. Endless recording is performed by discarding and overwriting the current video. Whether or not the endless recording can be performed and the above-described rules can be switched as a server selection setting.
[0054]
Next, the video distribution processing will be described.
[0055]
The video transmission proxy unit 17113 receives the video distribution request from the video receiving device 14 (process 321). The video transmission proxy unit 17113 inquires of the authentication proxy unit 17111 about the availability of the distribution service in response to the received request (process 322), extracts the video from the distribution status management unit 17122 (process 323), and determines the timing of the distribution by the video transmission device. In accordance with the instruction from the emulation unit 17121 (process 324), the video is distributed to the video receiving device 14 (process 325). The processing of the video receiving device 14 that has received the video is the same as the conventional processes 225 and 226 of FIG.
[0056]
Finally, the distribution management processing will be described.
[0057]
The distribution state management unit 17122 receives a reproduction instruction from the distribution instruction device 16 (process 331). Here, the reproduction instruction is, for example, reproduction, fast forward, rewind, or frame advance. The distribution state management unit 17122 decomposes them into three elements of reproduction direction, reproduction speed, and continuity and manages them as a reproduction instruction state. For example, in the reproduction, the reproduction direction is the forward direction, the reproduction speed is 1 × speed, continuity: yes, and the 3 × rewind is the reproduction direction: the reverse direction, the reproduction speed is 3 × speed, the continuity is yes, and the frame advance is , Reproduction direction: forward direction, reproduction speed: 1 × speed, continuity: none.
[0058]
The distribution state management unit 17122 also simultaneously manages the video identification numbers of the videos that have been distributed to the video reception device 14 by the video transmission proxy unit 17113 so far.
[0059]
The distribution state management unit 17122 calculates the video to be distributed next based on the above three management information and the video identification number. For example, if the video specification number 5 was previously distributed and the current reproduction instruction state is reproduction direction: forward direction, reproduction speed: triple speed, continuity: yes, the video specification number of the next video to be distributed Becomes 8. If the video identification number is represented by a mathematical formula, (previous video identification number) + (reproduction direction) × (reproduction speed) × (continuity) + (! Continuity), where forward = 1, reverse = −1 , With continuity = 1, without continuity = 0,! Means 0 if 1, 1 if 0. In addition,! The reason why is added is that the video identification number becomes 1 when continuity is present or not.
[0060]
The distribution state management unit 17122 issues a video takeout instruction to the recording management unit 172 based on the video identification number obtained by the above method. The recording management unit 172 calculates the video recording position information in the database from the given video identification number, accesses the recording medium 173 based on the information, extracts the video (process 332), and sends the video to the distribution status management unit 17122. Pass (processing 333).
[0061]
The distribution state management unit 17122 temporarily stores the extracted video and prepares for the video extraction from the video transmission proxy unit 17113. If the reproduction instruction from the distribution instruction device 16 arrives again during this time, the reproduction instruction state is replaced with the new instruction, the temporarily stored video is discarded, and the reprocessing is performed based on the previous information.
[0062]
The processing described above is performed in a case where the video handled by the video receiving apparatus 14 is configured in units of one frame. However, the video handled by the video receiving apparatus 14 is a video configured by combining (stream) a plurality of frames, for example, an MPEG video. In the case of, the distribution state management unit 17122 calculates the video identification number of the video of the stream length transmitted to the video reception device 14 by calculation, and issues an instruction to extract the video of the stream length to the recording management unit 172. The recording management unit 172 fetches the same number of pieces of recording position information from the video identification numbers of the given stream length, accesses the recording medium 173 based on the information, and fetches and extracts the video decomposed and recorded in frame units. One stream is reconstructed from the video of the stream length thus obtained, and is passed to the distribution state management unit 17122.
[0063]
The video identification number for the stream length is calculated by (previous video identification number) + (playback direction) x (playback speed) x (continuity) + (! Continuity) for continuous playback. It is calculated by repeating the video identification number last time and repeating the stream length times. In the case of playback without continuity, for example, in the case of frame-by-frame advancement, the calculation of the video identification number is performed by (previous video identification number) + (reproduction direction) × (reproduction speed) × (continuity) as in the case of frame unit. The calculation of + (! Continuity) may be performed once. In the case of frame-by-frame forwarding, the video reconstruction method differs in processing depending on the stream length variation tolerance of the video receiving device 14. If it is acceptable, the stream length is regarded as 1 and the corresponding one frame Alone to reconstruct one stream. If it is not allowed, the stream for the length is reconstructed based on the one frame.
[0064]
The recording video distribution is realized by the above three processes.
[0065]
The above-described flow is an example, and the authentication and the video distribution have been described as one unit of the sequence. However, the relationship between the two may not be a one-to-one relationship. This method can be realized even if the unit of video distribution is not so-called one frame.
Similarly, the video request and the video distribution have been described as one unit of the sequence, but the relationship between them may not be a one-to-one relationship.
[0066]
As for the timing, although a synchronization mechanism is mounted on both the video recording and the video distribution on the video recording device 17, there is a case where the synchronization is not required depending on the connected device. In this case, the timing control becomes unnecessary, the process 312 is performed as needed on the video recording side, and the video distribution side performs immediate distribution every time there is a request.
[0067]
Furthermore, although the description has been made with the minimum configuration of one video transmitting device and one video receiving device, the video recording device can be configured by multitasking processing so that any number of video transmitting devices and any number of video receiving devices can be used. Service can be provided at the same time.
[0068]
Next, referring to FIG. 2, a description will be given of a flow of processing for enabling live video distribution as in the related art. Of the three processes described in the description of the recorded video distribution, the two processes of the video recording process and the video distribution process perform the same operation in the live video distribution as at the time of the recorded video distribution. The video recording process does not appear to be necessary during live video distribution, but if video recording is not performed during live video distribution, the video during live video distribution will be unrecorded when returning to recorded video distribution again. It is because there is no situation.
[0069]
What differs between live video distribution and recorded video distribution is the distribution management process. The flow of the distribution management process at the time of live video distribution is described below.
[0070]
As in the case of recording video distribution, live video distribution starts with receiving an instruction from the distribution instruction device 16 (process 331). The instruction in this case is a request for a live video. Upon receiving the live video distribution instruction, the distribution state management unit 17122 switches the video fetching destination from the recording management unit 172 (process 333) to the video transmission device emulation unit 17121, and the recording management unit for recording video distribution so far. 172, the temporarily stored video that has been temporarily stored is discarded, and the video is immediately taken out to the video transmission device emulation unit 17121 (process 341). Here, the video extracted from the video transmission device emulation unit 17121 is the video immediately before the video transmission device emulation unit 17121 instructs the recording management unit 172 to store in the processing 315 in the video recording process. The distribution state management unit 17122 temporarily stores the video extracted from the video transmission device emulation unit 17121 again as a temporary storage video, and prepares for the video extraction from the video transmission proxy unit 17113. Thereafter, the distribution state management unit 17122 continues to extract the video from the video transmission device emulation unit 17121 until the recording video distribution instruction comes from the distribution instruction device 116 again.
[0071]
With the above processing, live video distribution is realized.
[0072]
In the above-described video storage / delivery system, it is desirable that the video recording device 17 can be simultaneously distributed to a larger number of video receiving devices 14 by one unit, because this leads to a reduction in the cost of the system. Next, a description will be given of enabling the video recording device 17 to simultaneously distribute to more video receiving devices 14.
[0073]
FIG. 3 is a diagram illustrating a configuration of a video storage and delivery system according to a second embodiment of the present invention and a flow of processing. FIG. 3 is to enable the video recording device 17 to simultaneously distribute to more video receiving devices 14. 3 differs from FIG. 2 in the distribution instruction device 18 with a calculation function, the simplified distribution state management unit 17123 and the simplified recording management unit 174 in the video recording device 17.
[0074]
The distribution instruction device 18 with a calculation function has a function of calculating a video identification number as one of its functions. This is one in which the process of calculating the video identification number from the reproduction content in the distribution state management unit 17122 in FIG. Accordingly, the distribution status management unit 17122 in FIG. 2 has been replaced by a simplified distribution status management unit 17123 with reduced functions. This is possible because the calculation process of the video identification number results in a simple calculation formula as described above.
When the distribution instruction device 18 with a calculation function having a calculation function of the video identification number is used, the information to be transmitted to the video recording device in the process 341 is the video identification number, and the instruction timing is performed in units of frames. .
[0075]
In the video recording device 17 shown in FIG. 2, a video identification number which is present in the past due to the recording being cycled in the endless recording and entering the overwriting mode but not presently present on the video recording device 17 is generated. Become. When managed inside the video recording device 17 as shown in FIG. 3, such presence / absence information can be transmitted sequentially, so that access to non-existent video does not occur, but the device is divided. If they do, you need to take action.
[0076]
In the embodiment of the present invention, in the return communication of the communication for transmitting the next video identification number to the video recording device 17 in the process 341, the currently recorded top and bottom video identification numbers are given as information and calculated. Access to non-existent video is prevented by sequentially reflecting the video identification number calculation of the distribution instruction device with function 18.
[0077]
In addition, the distribution instruction device 18 with a calculation function has a function of calculating video recording position information from a video identification number. This is a process of obtaining the recording position information from the video identification number in the recording management unit 172 in FIG. 2, that is, a method of obtaining the recording position information by referring to the database in the above description. It is.
Accordingly, the recording management unit 172 in FIG. 2 has been replaced by a simplified recording management unit 174 having reduced functions.
[0078]
This means that the relationship between the video identification number and the recording position is reduced to a relationship obtained by simple arithmetic, and the arithmetic expression is shared between the video recording process on the video recording device 17 side and the distribution instruction device with calculation function. It is realized by. In this case, the information transmitted to the video recording device 17 in the process 341 is the video recording position.
[0079]
A method of obtaining the relationship between the video identification number and the recording position by simple arithmetic is, for example, a method of treating the data size of one video frame with a fixed length and obtaining the recording position from the product of the data size and the video identification number. is there. For example, when the recording medium is a hard disk, a unit indicating a recording position is a sector, and one sector is 4096 bytes. If the video data size is fixed and is, for example, 12288 bytes, the length is 3 sectors. For example, it is necessary to determine that the video with the video identification number 5 is recorded in 3 × 5 = 15 sectors. It is possible. Even when the size of the video data output from the video transmission device fluctuates, so-called variable length, the maximum possible value is set as a fixed length value, and the difference is filled with a predetermined value, for example, zero. It is possible to respond.
[0080]
Further, in the endless recording described above, the recording position may be reset to zero due to the recording looping, and the simple linear relationship between the video identification number and the recording position may be broken. In consideration of such a case, in the return communication of the information to be transmitted to the video recording device 17 in the process 331, in addition to the above-described head and tail video identification numbers, the total number of sectors in the recording area is given as information, By sequentially reflecting the recording positions in the recording position calculation of the device 18, it is possible to obtain all the recording positions of the recorded video from the video identification number.
[0081]
In this manner, placing a part of the processing of the distribution state management unit 17123 and the recording management unit 174 on the distribution instruction device 18 side requires storing the recording positions of all the recorded videos on the video recording device 17. A series of processing to store the recording position in the database based on the video identification number, a series of processing to retrieve the recording position from the database from the video identification number, and calculating the next video identification number Eliminates the required processing. Accordingly, the CPU load of the video recording device 17 for one video is reduced by the reduction of the processing, and the usage of a storage device typified by a memory for installing a database is reduced. As a result, one video recording device 17 Can simultaneously increase the number of video receiving devices 14 that can respond.
[0082]
【The invention's effect】
As described above, according to the present invention, it is possible to obtain a video storage / distribution system capable of distributing recorded video while utilizing both the existing video transmission device and video receiving device for live video distribution.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of a first embodiment of a video storage / delivery system of the present invention.
FIG. 2 is a diagram illustrating a flow of a process including a communication part according to the first embodiment of the video storage / delivery system of the present invention.
FIG. 3 is a diagram illustrating a configuration of a video storage / delivery system according to a second embodiment of the present invention and a process flow;
FIG. 4 is a diagram illustrating an example of a configuration of a conventional network-type video monitoring system that distributes live video.
FIG. 5 is a diagram showing a flow of processing in a conventional network-type video monitoring system that distributes live video.
[Explanation of symbols]
11: network medium, 12: video generation device, 13: video transmission device, 14: video reception device, 15: video display device, 16: distribution instruction device, 17: video recording device, 18: distribution instruction device with calculation function, 131: video conversion unit, 132: video transmission unit, 133: authentication unit, 141: video reception unit, 142: video conversion unit, 171: emulation unit, 172: recording management unit, 173: recording medium, 174: simple type Record management unit, 1711: Communication system emulation unit, 1712: State transition control unit, 17111: Authentication proxy unit, 17112: Video reception proxy unit, 17113: Video transmission proxy unit, 17121: Video transmission device emulation unit, 17122: Delivery status management unit, 17123: simplified delivery status management unit, 211, 221-226, 311-316, 321-325, 331-3 3,341: processing.

Claims (6)

In a system for receiving a video transmitted from a video transmission device via a network medium by a video reception device, a video recording device and a distribution instruction device are connected to the network medium, and the distribution instruction device is connected to the video recording device, Indicate whether the video from the video transmission device or the video from the video recording device, the video recording device, when the instruction from the distribution instruction device is a video from the video transmission device, from the video transmission device Receiving the video by the video receiving device and storing the video in the video recording device, and reproducing the stored video in the video recording device when the instruction from the distribution instruction device is a video from the video recording device. And transmitting the image to the video receiving device. In a system for receiving a video transmitted from a video transmission device via a network medium by a video reception device, a video recording device and a distribution instruction device are connected to the network medium, and the distribution instruction device is connected to the video recording device, The video from the video transmission device or the video from the video recording device and an instruction on the type of reproduction in the case of the video from the video recording device, the instruction from the distribution instruction device is the video from the video transmission device In some cases, the video recording device receives the video from the video transmitting device at the video receiving device and accumulates the video in the video recording device, and the instruction from the distribution instruction device is a video from the video recording device. In some cases, the video stored in the video recording device is played back based on a playback type instruction from the distribution instruction device, and the video reception is performed. Video storage distribution system and transmits device. 3. The video storage / delivery system according to claim 2, wherein the video recording device stores a database indicating a correspondence between index information relating to the distribution of the recorded video and a video identification number for specifying the index information, Calculating the video identification number given based on the instruction regarding the type of reproduction from the computer, calculating the video recording position information in the database from the video identification number, and taking out and reproducing the video based on the information. Video storage and distribution system. In a system for receiving a video transmitted from a video transmission device via a network medium by a video reception device, a video recording device and a distribution instruction device are connected to the network medium, and the distribution instruction device is connected to the video recording device, An image from a video transmitting device or a video from the video recording device and an instruction on the type of reproduction in the case of a video from the video recording device, and index information relating to the distribution of the recorded video and a video specifying the index information A database indicating a correspondence with a specific number is stored, and when the instruction of the distribution instruction device is a video from the video transmission device, the video recording device receives the video from the video transmission device and receives the video from the video transmission device. The video data is received by the device and stored in the video recording device, and the instruction of the distribution instruction device is transmitted from the video recording device. In the case of, calculates the video identification number given based on the instruction on the type of reproduction from the distribution instruction device, calculates the video recording position information in the database from the video identification number, based on the information A video storage / delivery system which takes out a video, reproduces the video, and transmits the video to the video receiver. 5. The video storage and distribution system according to claim 1, wherein the stream video is decomposed and stored as a frame image and reproduced in response to a case where the video from the video transmission device is a stream video. A video storage and distribution system wherein a stream is reconstructed from the decomposed data and transmitted, and a reproduction operation such as fast-forward, frame-forward, or reverse reproduction at an arbitrary speed is performed. The video storage and distribution system according to any one of claims 1 to 4, wherein the video recording device has a recording management unit that manages storing video from the video transmission device in the medium, An image storage and delivery system, wherein the recording management unit performs endless recording in which, when the recordable maximum capacity of the medium has been reached, a recorded image is discarded and a current image is overwritten based on a preset selection rule.

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