JP2010161632A - Video monitoring system, video information distribution apparatus, and client apparatus - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To enable construction of a UI that does not require program change by carrying out update management of UI components for a Web browser that selects live video or stored video and displays video by using meta information of video and alarm. <P>SOLUTION: A camera ID and alarm information of a plurality of cameras 1 that image their own each monitoring regions are treated as meta information 30 and 40. A client apparatus 18 updates and manages the display types of a camera selection display component 90, a video display component 80, and an alarm list display component 70 which are UI components for a Web browser (a browsing means 6) based on meta information obtained as necessary from a video information distribution apparatus 17. By a user operation (a UI event) to the camera selection display component and the alarm list display component on the Web browser, a video distribution request using the corresponding meta information is transmitted to the video information distribution apparatus to obtian and display the required live video or stored video. <P>COPYRIGHT: (C)2010,JPO&INPIT

Description

  The present invention relates to a video monitoring system for managing a monitoring video selection screen and a video display screen, a video information distribution device and a client device used in the system.

  In recent years, with the progress of network transmission speed and digitalization of images, services for distributing moving images on the Web have become widespread. In video surveillance systems that perform remote monitoring, video (live video and recording) acquired from a plurality of cameras and meta-information related to the video are distributed on the Web, and the video received by the client device is transmitted by a Web browser. Systems that control video displayed on the screen and displayed using meta information are becoming widespread. As such a video control system, in the camera server device, the camera angle range (pan, tilt, zoom range) is generated as meta information and distributed together with the camera video. When the angle range attached to is adjusted, the image is changed by executing an action corresponding to the angle range (a command is sent to change pan, tilt, zoom), and the angle range set above is set. In response, there is a technique for providing information such as pop-up display of information related to a subject appearing in a camera video (for example, a comment on the subject, an instruction manual, an email creation screen, etc.) (see, for example, Patent Document 1).

JP 2000-341680 A (FIG. 1)

  In the conventional system that distributes and reproduces video with meta information described in Patent Document 1 above, the meta information is used to arrange the image of the selectively displayed video or add supplemental information. However, it is not used to select the camera or display the selected video directly. Therefore, since only the default operation based on the meta information predetermined on the delivery side is performed on the client side, only those who are familiar with the program or system can cope with changing the meta information. It was. In the conventional system, for example, when a new display operation based on data other than the camera, such as alarm information in the monitoring area, is specified, the program in the camera server device and the client device needs to be significantly modified. .

  The present invention has been made in order to solve the above-mentioned problems. Update management of a user interface (hereinafter referred to as UI) part of a Web browser that performs selection and display of live video and stored video is performed using video and alarm. It is an object of the present invention to obtain a video monitoring system, a video information distribution apparatus, and a client apparatus that enable construction of a UI that does not require program change by using the meta information.

  The video monitoring system according to the present invention is a video monitoring system in which a video information distribution apparatus appropriately distributes live video by a plurality of cameras in which each monitoring area is imaged or their stored video to a client device via an Internet line. The information distribution device accumulates the camera ID, the video acquisition date and time, and the presence or absence of an alarm in the monitoring area in association with the video of the plurality of cameras. Generate and store, distribute live video or stored video according to the meta information included in the meta information distribution request received from the client device, and also to live video and stored video according to the meta information distribution request from the client device Related video meta information and alarm meta related to alarm information history The client device updates and manages the display form of the camera selection display component for selecting the live video on the Web browser based on the video meta information received from the video information distribution device. Then, the display form of the alarm list display component for selecting the stored video on the web browser is updated based on the received alarm meta information, and the video is displayed on the web browser based on the received video meta information. Update management of the display form of the video display component for generating a video distribution request using the meta information corresponding to the start of connection with the video information distribution device and the user operation for the camera selection display component or the alarm list display component, In addition, when the video distribution request is generated and during the management process of each display component, a meta information distribution request is generated to generate a video. In which it was to be sent to the multicasting device.

  According to the present invention, the camera ID and alarm information of a plurality of cameras that capture the respective monitoring areas are handled as meta information, and the UI component of the Web browser based on the meta information appropriately acquired from the video information distribution device in the client device The display mode of the camera selection display component, video display component, and alarm list display component is updated and managed, and the video using the corresponding meta information by the user operation on the camera selection display component and alarm list display component on the Web browser A distribution request is transmitted to a video information distribution apparatus to acquire and display necessary live video or stored video. Therefore, it is possible to construct a UI that does not need to change the program, and to realize a video surveillance system that can be handled even by a user who is not familiar with the program or system.

It is a block diagram which shows the function structure of the video surveillance system by Embodiment 1 of this invention. 3 is a flowchart showing an operation procedure of a video reception unit according to the first embodiment. 4 is a flowchart showing an operation procedure of a video accumulation / output unit according to the first embodiment. 4 is an explanatory diagram showing a configuration of a storage format stored in the storage device according to Embodiment 1. FIG. 3 is a flowchart showing an operation procedure of an alarm receiving unit according to the first embodiment. 4 is a flowchart showing an operation procedure of a video delivery unit according to the first embodiment. It is explanatory drawing which shows the example of data of the alarm meta information based on the first embodiment. It is explanatory drawing which shows the data example of the image | video meta information which concerns on the same Embodiment 1. FIG. FIG. 6 is a sequence diagram showing an operation sequence at startup in the client device according to the first embodiment. FIG. 10 is a sequence diagram showing an operation sequence when receiving meta information in the client device according to the first embodiment. It is a flowchart which shows the operation | movement procedure of the meta information receiving means which concerns on the same Embodiment 1. It is a flowchart which shows the operation | movement procedure of the meta information filter means based on the first embodiment. It is explanatory drawing which shows the example of the meta information conversion rule table which concerns on the same Embodiment 1. FIG. It is explanatory drawing which shows the data structural example of the meta information converted by the meta information filter means based on the first embodiment. It is a flowchart which shows the operation | movement procedure of the meta information delivery means which concerns on the same Embodiment 1. 6 is a flowchart illustrating an operation procedure of a UI component management unit according to the first embodiment. 6 is an explanatory diagram illustrating an example of an alarm list display component managed by a UI component management unit according to the first embodiment. FIG. It is explanatory drawing which shows the example of the video display component managed by the UI component management means concerning the first embodiment. It is explanatory drawing which shows the example of the camera selection display component managed by the UI component management means based on the first embodiment. It is explanatory drawing which shows the format of the management metadata table used with the UI component management means based on the first embodiment. It is explanatory drawing which shows the example of the management metadata table regarding the alarm list display component which concerns on the same Embodiment 1. FIG. It is explanatory drawing which shows the example of the management metadata table regarding the video display component which concerns on the same Embodiment 1. FIG. It is explanatory drawing which shows the example of the management metadata table of the camera selection components which concerns on the same Embodiment 1. FIG. It is explanatory drawing which shows the example of the reception alarm meta information displayed with the web browser which concerns on the same Embodiment 1. FIG. 6 is an explanatory diagram illustrating an example of an initial screen of the Web browser according to the first embodiment. FIG. FIG. 10 is a sequence diagram showing an operation sequence when a UI event occurs according to the first embodiment. It is a block diagram which shows the function structure of the video surveillance system by Embodiment 2 of this invention. It is explanatory drawing which shows the example of the initial screen of the web browser which concerns on the same Embodiment 2. It is explanatory drawing which shows the example of UI list | wrist including the metadata made into the edit object of the meta management data editing means concerning Embodiment 2. FIG. It is a block diagram which shows the function structure of the video surveillance system by Embodiment 3 of this invention. It is explanatory drawing which shows the operation list for operating the UI operation log | history holding means which concerns on the same Embodiment 3. FIG.

Embodiment 1 FIG.
FIG. 1 is a block diagram showing a functional configuration of a video surveillance system according to Embodiment 1 of the present invention.
In the figure, a video information distribution device 17 distributes video captured by a plurality of cameras 1 to the client device 18 via the Internet 13 in the state of live video or stored video in response to a video distribution request from the client device 18. To do. The client device 18 issues a video distribution request to the video information distribution device 17 by a user operation on the Web browser, and displays the distributed video on the screen by the Web browser.
The video information distribution device 17 includes a video reception unit 2, a video storage / output unit 3, an alarm reception unit 4, a video distribution unit 5, and a storage device 11. On the other hand, the client device 18 includes browsing means 6, meta information receiving means 7, meta information filtering means 8, meta information distribution means 9, UI component management means 10, and control means 12.
Here, the browsing means 6 corresponds to the function of the Web browser, communicates with the Web server of the video distribution means 5, receives HTML, etc., displays using predetermined UI parts, and displays Is a means for requesting data for a user operation from a Web browser screen. The control unit 12 transmits a control code (video distribution request, meta information distribution request) to the video distribution unit 5 according to an event output from the browsing unit 6 according to a user instruction, and also includes a meta information filter unit 8, a meta information filter unit 8, It is means for controlling the information distribution means 9 and the UI parts management means 10. It is assumed that the control means 12, the browsing means 6, and the meta information receiving means 7 are connected to the video distribution means 5 via the Internet line 13 via a router (not shown).

Next, the operation of each unit of the video information distribution device 17 will be described.
Each of the plurality of cameras 1 outputs a video signal obtained by imaging a predetermined monitoring area, and outputs a motion detection signal that detects motion information of the video. The video receiving means 2 receives video signals and motion detection signals from a plurality of cameras 1, digitally converts and encodes the video signals to generate a digitally encoded video, outputs it together with the camera ID, and outputs a motion detection signal To do. The detailed operation of the video receiving means 2 will be described with reference to the flowchart of FIG.
Video receiving means 2 acquires video signals from a plurality of cameras 1 (step ST101). As an acquisition form in this case, for example, a YUV video signal is used. Also, the motion detection signal detected by the camera 1 is acquired and output to the alarm receiving means 4 (step ST102). This motion detection signal is a signal for detecting an abnormality occurring in the monitoring area as a change on the video. For example, a difference between video frames is taken and turned on when the difference is equal to or greater than a certain value, and turned off otherwise. Signal. The motion detection signal is usually superimposed on the vertical blanking period of the video signal. The video receiving means 2 digitally converts the acquired video signal and encodes it to generate a digitally encoded video (hereinafter referred to as video data) (step ST103). For this encoding method, for example, JPEG (Joint Photographic coding Experts Group) encoding is used. Next, the video receiving means 2 gives the generated video data a camera ID for identifying the source of the video, and outputs it (step ST104). In this case, the output video data is supplied to the video storage / output unit 3 and also to the video distribution device 5.
Note that some cameras generate video data obtained by digitally encoding video signals, give camera IDs, and output them. As video receiving means 2 in that case, video data from each camera and motion detection are used. It is sufficient to use a type that has a function of separating signals.

In the video storage / output unit 3, the video data input from the video receiving unit 2 is stored in the storage device 11 in a predetermined format in association with the camera ID, the video acquisition date and time, and the alarm information. Details of the storage operation of the video storage / output means 3 will be described with reference to the flowchart of FIG.
The video storage / output unit 3 creates a storage format for one frame, and creates a video information table according to this (step ST201). As shown in FIG. 4, the storage format here defines a plurality of video data, and includes a data item corresponding to each video data and a data portion (field) thereof. The camera ID 20 is the ID of the imaging camera that is the source of the video data, the date and time 21 is the imaging date and time of the video data, the video 22 is the video data itself, and the alarm information 23 is the presence or absence of an alarm. Next, the video data input from the video receiving means 2 is stored in the video field 22 of the previously created video information table (step ST202). Subsequently, alarm information is acquired from the alarm receiving means 4 (step ST203), and the presence / absence of an alarm is determined (step ST204). If there is an alarm, it is set to “1” (step ST205) and stored in the alarm information field 23 of the video information table together with the corresponding camera ID or contact number. On the other hand, if there is no alarm, it is stored as “0” (step ST206) in the alarm information field 23. In both cases of ST205 and ST206, the system time is acquired from the OS or the like, and stored in the date / time field 21 of the video information table as the imaging date / time (step ST207). Next, a camera ID is acquired from the video receiving means 2 (step ST208) and stored in the camera ID field 21 of the video information table. Next, the video information table storing each data is accumulated in the storage device 11 (step ST209).

In addition to the motion detection signal, the alarm receiving means 4 is provided with contact information, and outputs a motion detection signal and contact information representing these abnormal states as alarm information. The detailed operation of the alarm receiving means 4 will be described with reference to the flowchart of FIG.
First, the alarm receiving unit 4 acquires contact information representing the state of a contact such as a sensor that detects an abnormality installed in the monitoring area (step ST301). Also, a motion detection signal output from the video receiving means 2 is acquired (step ST302). The acquired contact information and / or motion detection signal is output as alarm information to the video accumulation / output means 5 (step ST303).

When receiving the control code that is a video distribution request from the client device 18, the video distribution unit 5 distributes video data and meta information corresponding to the content to the requesting client device 18. The detailed operation of the video distribution means 5 will be described with reference to the flowchart of FIG.
The video distribution means 5 first determines whether or not a control code has been received from the client device 18 (step ST401). When the control code is received, it is determined whether there is a change in the output mode in the control code (step ST402). Here, the video distribution means 5 holds an output mode for responding to a video distribution request from the client device 18, and changes the operation based on the output mode. This output mode includes a combination of “live video” and camera ID, and a combination of “stored video”, camera ID, and acquisition date / time information. If the output mode is changed, the output mode is stored (step ST403), and the process proceeds to the next processing step ST404. On the other hand, if the control code is not received in ST401 and if the output mode is not changed in ST402, the process proceeds to the next processing step ST404 as it is. In ST404, it is determined whether the output mode is live video. If the output mode is live video, video data matching the camera ID output by the video receiving means 2 is acquired (step ST406). On the other hand, if the output mode is not a live video, the video storage / output means 3 is requested to acquire the stored video using the date / time information and camera ID specified by the control code (video distribution request) The date / time information and the video data corresponding to the camera ID and the alarm information are acquired from the video storage / output means 3. (Step ST407). In this case, the video storage / output unit 3 that has received the acquisition request reads the video data and alarm information that match the instructed date / time information / camera ID from the storage device 11 based on the storage format shown in FIG. Output to the video distribution means 5.

Furthermore, the video distribution means 5 uses data other than video data from the data acquired in ST406 or ST407, that is, camera ID for live video, while date and time information and camera ID for video meta information for stored video. In addition, the history of the stored alarm information is extracted, generated as alarm meta information, and transmitted to the client device 18 (step ST408). Here, the format of the meta information is, for example, a JSON (JavaScript Object Notation) format defined by RFC4627 as shown in FIGS. Here, the alarm information is alarm meta information, and video related information (date information, camera ID) is output as video meta information.
As shown in FIG. 7, the alarm meta information 30 has a format in which a meta information key part and a meta information data part are paired, and an “alarm date and time” that indicates the occurrence of an alarm in a meta information key part 32 that indicates the date and time of occurrence of the alarm. The actual occurrence date and time is stored in the meta information data section 33 in the form of “year / month / day hour: minute: second”. In addition, an “alarm” indicating an alarm occurrence location in the meta information key portion 34, an ID (eg, Cam # 02) of a camera installed at the alarm occurrence location in the meta information data portion 35, or a contact number (eg, contact # 001). ). Furthermore, “alarm type” is stored in the meta information key part 36, and “MD” indicating that the actual alarm type is motion detection or “contact point” indicating contact detection is stored in the meta information data part 37.

On the other hand, as shown in FIG. 8, the video meta information 40 has a format in which a meta information key part and a meta information data part are paired. The meta information key part 41 has “video acquisition date and time” and the meta information data part 42 has. The actual acquisition date is stored in the form of “year / month / day hour: minute: second”. Further, the “camera ID” for identifying the imaging camera is stored in the meta information key unit 43, and the actual camera ID (for example, Cam # 02) is stored in the meta information data unit 44. Further, the “device ID” for identifying the storage device storing the video in the meta information key unit 45 and the actual device ID (eg, 12341000) in the meta information data unit 46 are stored. The device ID is a character string for identifying the device such as a manufacturing serial number.
The video distribution means 5 transmits meta information to the client device 18 using a Web server (not shown), and then transmits video data (step ST409).

Next, the operation of the client device will be described.
First, a startup sequence in the client device 18 will be described with reference to FIG. HTML (script language developed by ECMAScript: Ecma International) associated with HTML from the Web server in the video distribution means 5 of the video information distribution apparatus 17 is transmitted by HTTP (Uniform Resource Identifier) from the Web browser of the browsing means 6. Download with Hypertext Transfer Protocol protocol. The browsing means 6 sends an activation notification to the control means 12 described in Javascript by the downloaded HTML. Upon receiving this activation notification, the control unit 12 activates the meta information receiving unit 7, the meta information filter unit 8, the meta information distribution unit 9, and the UI component management unit 10. The UI component management unit 10 generates a predetermined number of components instance, and each of the plurality of UI component management units 10 generates HTML of the UI component and notifies the control unit 12 of the completion of initialization together with its own instance information. Based on the initialization completion notification, the control unit 12 outputs a UI component initialization completion notification together with the instance information of the UI component management unit 10 to the meta information distribution unit 9. The meta information distribution unit 9 stores an instance of the UI component management unit 10 inside based on the UI component initialization completion notification output by the control unit 12.

Next, the operation of each part of the client device when receiving meta information will be described. FIG. 10 is a sequence diagram when the meta information is received by the client device 18.
The meta information receiving unit 7 receives the meta information distributed separately from the video data from the video distribution unit 5 of the video information distribution device 17 described above. The detailed operation will be described with reference to the flowchart of FIG.
First, the meta information receiving unit 7 generates an HTTP request (step ST501). For example, when “? Image = live & meta = alarm” is set in the search query, the output mode of the video distribution means 5 is set to “live video”, and the meta information is designated as alarm meta information only. Next, the browsing unit 6 is notified of the generated HTTP request, and HTTP transmission is performed to the video distribution unit 5 (step ST502). When an HTTP response is received from the video distribution means 5 (step ST503), the HTTP response is analyzed (step ST504), and meta information in the HTTP response is acquired (step ST505). Next, the acquired meta information is output to the meta information filter means 8 (step ST506).

The meta information filter means 8 converts the meta information acquired by the meta information receiving means 7 based on a predetermined meta information conversion rule. The detailed operation of the meta information filter unit 8 will be described with reference to the flowchart of FIG.
The meta information filter unit 8 acquires the meta information received by the meta information receiving unit 7 (step ST601), and acquires a meta information conversion rule that matches the key part of the meta information (step ST602). This meta information conversion rule is stored in a table of the format shown in FIG. Here, since it is assumed that only alarm meta information is received as meta information now, an example of an alarm meta information conversion rule will be described. The meta information conversion rule 50 includes a replacement target character string (camera ID and contact number that is an alarm occurrence location) 51 and a replacement character string (character string after replacement: a room or door number representing an actual alarm occurrence location) 52. When the data part character string of the acquired meta information matches the replacement target character string, it can be replaced with the corresponding replacement character string. Next, internal variable i is initialized to 0 (step ST603), and it is determined whether variable i matches the number of meta information conversion rules (step ST604). If the number does not match the number of information conversion rules, it is determined whether the data part character string of the acquired meta information matches the replacement target character string of the meta information conversion rule (step ST605). If it matches the replacement target character string, the data portion of the meta information is replaced with the replacement character string of the meta information conversion rule (step ST606), and the process proceeds to the next processing step ST607. On the other hand, if they do not match in the determination of ST605, the process proceeds to the next processing step ST607 as it is. In step ST607, the internal variable i is incremented and the process proceeds to ST604. If the internal variable i matches the number of meta information conversion rules in the determination of ST604, meta information in which all the data part character strings are converted in accordance with the meta information conversion rules is output to the meta information distribution means 9 (step ST608).

  Here, the conversion result by the meta information filter means 8 has a data structure as shown in FIG. 14, for example. The meta information 60 converted in accordance with the meta information conversion rule table is composed of meta information 61 whose date and time are meta keys, alarm meta information 62, and alarm type meta information 63. By performing this conversion, when the origin of the camera (video) and alarm information is displayed, for example, as an alarm list shown in FIG. It is possible to visually grasp the monitoring target in which this occurs. The meta information filter unit 8 is not necessarily provided.

The meta information distribution unit 9 distributes the meta information converted by the meta information filter unit 8 to a plurality of UI component management units 10 according to a predetermined rule. The detailed operation of the meta information distribution unit 9 will be described with reference to the flowchart of FIG.
First, the meta information distribution unit 9 acquires the number of UI component management units (number of instances) (step ST701). Next, the internal variable i is initialized with 0 (step ST702), and it is determined whether the internal variable i matches the number of UI parts management means (step ST703). If they do not match, the meta information converted by the meta information filter means 8 is output to the UI component management means 10 (step ST704), then the internal variable i is incremented (step ST705), and the processing of ST703 to ST705 is performed. repeat. In the process of ST703, if the internal variable i eventually matches the number of UI parts management means, this process is terminated. Thereby, the meta information after the conversion is notified to all instances of the UI component management means 10.

Next, before the description of the operation of the UI component management unit 10, each data managed by the UI component management unit 10 will be described.
In the UI part management means 10, as UI parts used for displaying data or the like by the Web browser of the browsing means 6, an alarm list display part for displaying alarm information as a list, a video display part for displaying video, And a camera selection display component for selecting a camera ID. As illustrated in FIG. 17, the alarm list display component 70 displays alarm meta information including an alarm occurrence date / time 71, an occurrence location 72, an alarm type 73, and the like. By selecting, the corresponding stored video can be requested. Further, as illustrated in FIG. 18, the video display component 80 includes a video display area 81 for displaying the downloaded video, a play button 82 for controlling the display of the video, a stop button 83, a rewind button 84, a fast-forward button 85, and the like. It consists of Further, as illustrated in FIG. 19, the camera selection display component 90 includes camera selection buttons 91 to 94 for requesting a live video, and button numbers “1” to “4” given to the camera selection buttons are It is associated with one of the camera IDs of the four cameras. In the camera selection display component 90 of this example, only live images of four cameras can be selected. However, by replacing the camera ID corresponding to the button number with the ID of another camera by the method of the second embodiment described later, the live images can be selected. Video can be selected.

  Further, the UI component management means 10 manages the metadata of each UI component using the format of a management meta table as shown in FIG. This management meta table defines data items for storing data items such as matching metadata, output metadata, destination UI component, GUI component instance, and matching target data, and actual metadata corresponding thereto. Here, the matching metadata is a data list for collating the metadata output from other UI component management means with that of the UI component management means. The output metadata is a data list that is passed from the UI component management unit to another UI component management unit. The destination UI component is a list of UI component management means to which “output metadata” is sent. The matching target data is metadata held by the UI component management unit, refers to actual data, and is data that is collated and searched with metadata received by the UI component management unit. FIG. 21 illustrates a management metadata table of alarm list display parts actually created using this management metadata table format. FIG. 22 shows an example of a management metadata table for video display components. Similarly, the management metadata table for each camera selection button of the camera selection display component is illustrated in FIGS. Here, for example, the “*” mark in the data part of the destination UI component in FIG. 21 means a case where it applies unconditionally. In addition, the “-” mark in the matching metadata and the matching target data in FIGS. 23A to 23D indicates that the condition does not always apply.

FIG. 24 shows an example of the alarm list displayed on the Web browser screen by the UI component management means 10 for managing the alarm list display component shown in FIG. In the alarm list, a history of alarm information is displayed as alarm meta information.
FIG. 25 shows an initial screen 100 of the Web browser, which is composed of a header, a video display component 101, a camera selection display component 102, and a list display component (alarm list display component in the case of alarm meta information) 103. Yes.

The plurality of UI parts management means 10 are UI parts (in this case, managed in accordance with meta information (video meta information, alarm meta information) input from the meta information distribution means 9 and video data received from the video distribution means 5, respectively) The display form of the video display component, camera selection display component, alarm list display component) is changed.
The detailed operation of the UI component management means 10 will be described with reference to the flowchart of FIG.
First, the UI component management unit 10 acquires the matching metadata from the management metadata table held by itself (step ST801). Here, in the case of the management metadata table of the alarm list display component in FIG. 21, “date and time, location of occurrence, alarm type” is stored in the data portion of the matching metadata. Similarly, in the case of the management metadata table of the video display component in FIG. 22, “date and time, camera ID” is stored in the data portion of the matching metadata. On the other hand, in the case of the management metadata table of the camera selection button in FIG. 23, data is included in the data portion of the matching metadata of the camera selection buttons “1” to “4” (corresponding to the buttons 91 to 94 shown in FIG. 19). Does not exist.

  Next, the UI component management unit 10 determines whether the meta information input from the meta information distribution unit 9 includes data that matches the data portion of the matching metadata in the corresponding management metadata table (step ST802). ). Here, for example, if the management metadata table is an alarm list display part table and the input metadata is alarm metadata, the data portion of the matching metadata is “date / time, location of occurrence, alarm type”, and therefore matches. However, in the case of video meta information, they do not match. If no matching data exists, the process proceeds to step ST801 in order to obtain the matching metadata of the next management metadata table. On the other hand, if there is data that matches the data portion of the matching metadata in the determination in ST802, it is determined whether meta information exists in the data portion of the matching target data in the management metadata table (step ST803). In this case, since meta information exists in the matching target data, HTML is regenerated to reflect the data in the data portion of the matched meta information (step ST804). That is, the description of the data portion of the matching target data in the management metadata table of the alarm list display component or the video display component is updated.

So far, the client device 18 has been described with respect to the operation for receiving the meta information. Next, the operation when the UI event is generated by the UI operation will be described. FIG. 26 is a sequence diagram illustrating an operation order when a UI event is generated by the user.
An operator operates the Web browser screen of the browsing means 6. The UI operation can be performed on the camera selection button and the alarm list displayed on the web browser screen. Here, the operator clicks the camera selection button “2” on the web browser screen shown in FIG. 25, for example. Suppose that The browsing unit 6 sends a UI event notification of the button to the UI component management unit 10 that manages the display component. The UI component management unit 10 outputs the UI event reception notification, the instance, and “output metadata” in the management metadata table to the control unit 12. In the example in which the camera selection button “2” is clicked, the UI component management means 10 that manages the camera selection button responds to this UI event with the “output meta” of the management metadata shown in FIG. The camera ID “Cam # 02” corresponding to the button “2” of “data” is output to the control means 12.

  When the control unit 12 receives data such as a UI event reception notification from the UI component management unit 10, first, the control unit 12 causes the client device to perform the same processing as the above-described processing at the time of receiving the meta information. That is, the camera ID is notified to the instance of each UI component management unit 10 by the meta information distribution unit 9 via the meta information filter unit 8. Upon receiving the notification, the UI component management means 10 performs processing in accordance with the flow of broken line display in FIG. When the data part of the matching metadata in the management metadata table matches the camera ID, the data part of the matching target data held according to the camera ID is updated. For example, in the management metadata table of the video display component, when the camera ID is different from the existing camera ID of the matching metadata, the camera ID is not included as “video metadata information” of the data portion of the matching target data. The UI component management means 10 needs to request the meta information from the control means 12 and obtain the video meta information (step ST805). In this case, the control codes transmitted from the control unit 12 to the Web server of the video distribution unit 5 are a video distribution request and a meta information distribution request. As a video distribution request, a live video of the camera ID “Cam # 02” corresponding to the button “2” is requested. When the meta information receiving unit 7 receives the meta information that is a response to the request, the meta information receiving unit 7 transmits the meta information to the UI component management unit 10. Next, the UI component management means 10 determines whether or not there is meta information data in the “matching target data” with respect to the received meta information (step ST806), and if it exists, the process proceeds to step ST804 and exists. If not, the process proceeds to step ST802.

  As described above, according to the first embodiment, the camera ID and alarm information of a plurality of cameras that capture the respective monitoring areas are handled as meta information, and the meta information that is appropriately acquired from the video information distribution apparatus in the client apparatus. The display mode of the camera selection display component, the video display component, and the alarm list display component, which are UI components of the Web browser, is updated and managed based on the Event), a video distribution request using the corresponding meta information is transmitted to the video information distribution apparatus, and necessary live video or stored video is acquired and displayed. Therefore, according to the first embodiment, it is possible to construct a UI that does not need to change the program, and to realize a video monitoring system that can be handled even by a user who is not familiar with the program or the system. Conventionally, the functions of UI events and UI parts (display parts) are defined based on specifications and realized by a program. In addition, the UI components are executed in a predetermined procedure and flow using prescribed data. For this reason, the change from the outside requires replacement of the device or software installation work by a service person, but there is no such problem.

Embodiment 2. FIG.
FIG. 27 is a block diagram showing a functional configuration of a video surveillance system according to Embodiment 2 of the present invention. In the figure, portions corresponding to those in FIG. 1 are denoted by the same reference numerals, and description thereof will be omitted in principle. In the second embodiment, meta management data editing means 14 is provided in the configuration of the first embodiment. The meta management data editing unit 14 is a unit that edits the contents of “conformance metadata” and “output metadata” in the management metadata table of the UI component management unit 10 and provides a GUI for editing the contents.
In the case of the second embodiment, an initial screen of a Web browser configured as shown in FIG. 28 is used. The screen of FIG. 28 has a “meta information edit” button 300 for starting the meta management data editing means 14 in addition to the initial screen of FIG. 25 of the first embodiment.

Next, the operation of the meta management data editing unit 14 will be described.
When the operator depresses the “edit meta information” button 300 on the screen of FIG. 28, the meta management data editing means 14 is activated. The meta management data editing unit 14 causes the browsing unit 6 to select a user from the GUI instance of the target UI component management unit 10, creates an editable UI list from the management metadata table, and displays the Web of the browsing unit 6. Display on browser screen. The UI list displayed by the browsing means 6 has a format as shown in FIG. 29, for example. This is a UI list when the camera selection button 102 in FIG. 28 is taken as an example. Here, for example, “adaptation metadata” 310 and “output metadata” 311 are data to be edited by the meta management data editing means 14. Assume that the user changes the camera ID “Cam # 01” of “output metadata” to “Cam # 05”, for example, in the UI list of FIG. 29. The meta management data editing unit 14 reflects this change content in the management metadata of the instance of the UI component management unit 10. In FIG. 28, the camera selection button “1” of the camera selection display component 102 initially designates a live video from the camera with the camera ID “Cam # 01”. "Is changed to one that designates a live video from a camera whose camera ID is" Cam # 05 ". In the example of FIG. 28, only four camera selection buttons are set. However, if an increase in the number of cameras to be installed is required due to the expansion of the system, the number of cameras will increase unless the program is changed conventionally. The selection button for the camera could not be supported, but if it is changed as described above, the number of existing camera selection buttons can be supported.
Therefore, by providing the meta management data editing means 14 in the client device, the user can edit the management metadata of the UI component management means 10, so that the UI can be customized without changing the program. In addition, user operation efficiency can be improved.

Embodiment 3 FIG.
FIG. 30 is a block diagram showing a functional configuration of a video surveillance system according to Embodiment 3 of the present invention. In the figure, portions corresponding to those in FIG. 27 are denoted by the same reference numerals, and description thereof will be omitted in principle. In the third embodiment, UI operation history holding means 15 is provided in the configuration of the second embodiment. The UI operation history holding unit 15 is a unit that holds a history of UI events that are operations performed by the user on the Web browser.
FIG. 31 is an operation list for operating the UI operation history holding unit 15 displayed on the Web browser screen. The selectable radio button UI component 400 and the UI operation history are given to the UI component management unit 10. The selection item 401 is shown.

Next, the operation will be described.
When the user performs a UI operation for requesting video distribution to the camera selection button or the alarm list from the screen of the Web browser, the browsing unit 6 outputs the UI event to the UI operation history holding unit 15. The UI operation history holding unit 15 stores the received UI event as an operation history. As in the second embodiment, when the “meta information edit” button 300 on the Web browser screen shown in FIG. 28 is pressed, the meta management data editing means 14 is activated. Next, the user selects an instance of the target UI component management unit 10 and selects “UI operation history” 401 from the operation list shown in FIG. When the “UI operation history” 401 is selected, the UI operation history holding unit 15 assigns the held UI event to the output metadata of the management metadata of the instance of the UI component management unit 10 as the UI operation history. Next, when a UI event occurs in an instance of the UI component management unit 10 whose output metadata is “history” in the output metadata of the instance management metadata of the UI component management unit 10, the control unit 12 displays the UI component management unit 10. These UI events are output to the browsing means 6 in the order of time series that have occurred so far and displayed in a list.
Therefore, by giving an operation to the meta information by the user, that is, a UI event, a plurality of UI operations can be reproduced with a single button or the like in the subsequent processing, and the user operation efficiency can be improved. Examples of the plurality of UI operations include pressing a camera selection button and further pressing a playback button.

Embodiment 4 FIG.
The video surveillance system according to the third embodiment of the present invention has the same configuration as FIG. 27 of the second embodiment or FIG. 30 of the third embodiment.
In the fourth embodiment, an extended function of the control means 12 will be described.
The control unit 12 transmits the management metadata of all UI parts management unit 10 edited and constructed by the user to the Web server of the video distribution unit 5 and stores it in the video distribution device 17. Then, in another user's client device, the stored management metadata is downloaded according to the presentation from the Web server, and is set as the initial management metadata in the UI component management means 10 of the device.
The edited management metadata is transmitted to the video distribution device 17, and thereafter, the UI customization contents are collectively displayed by using the management metadata in the initial state of the UI component management unit 10 in response to a request from another user. Thus, it can be used as data of other users, and UI customization is possible without editing the management metadata of the UI component management means 10 again.

  1 camera, 2 video receiving means, 3 video storage / output means, 4 alarm receiving means, 5 video distribution means, 6 browsing means, 7 meta information receiving means, 8 meta information filtering means, 9 meta information distributing means, 10 UI parts Management means, 11 Storage device, 12 Control means, 14 Meta management data editing means, 15 UI operation history holding means, 17 Video information distribution device, 18 Client device, 70 Alarm list display component, 80 video display component, 90 Camera selection display parts.

Claims (12)

In a video monitoring system in which a video information distribution device appropriately distributes live video from a plurality of cameras in which each monitoring area is imaged or their stored video to a client device via an Internet line,
The video information distribution device includes:
The camera ID, the video acquisition date and time, and the presence or absence of an alarm in the monitoring area are stored in association with video from multiple cameras. If there is an alarm, alarm information including the date and time of occurrence, location and alarm type is stored in the corresponding stored video. Accumulate in association,
Video meta information related to live video and stored video is distributed in response to meta information distribution request from the client device, and live video or stored video is distributed according to meta information included in the video distribution request received from the client device And alarm meta information related to the alarm information history,
The client device is
Updating and managing the display form of the camera selection display component for selecting the live video on the Web browser based on the video meta information received from the video information distribution device;
In addition, the display form of the alarm list display component for selecting the stored video on the web browser based on the received alarm meta information is updated and managed,
Further, the display form of the video display component for displaying the video on the web browser is updated and managed based on the received video meta information,
At the start of connection with the video information distribution device and at the time of user operation on the camera selection display component or the alarm list display component, a video distribution request is generated using the corresponding meta information. A video monitoring system, wherein a meta information distribution request is generated and transmitted to the video information distribution apparatus in a process of managing display components. The client device
Based on the meta information received from the video information distribution device, the respective management metadata tables for managing the meta information associated with the camera selection display component, the alarm list display component, and the video display component are updated according to a predetermined format. UI component management means for each display component that updates and manages the display form of the corresponding display component based on the management metadata table;
2. The video monitoring system according to claim 1, further comprising meta information distribution means for distributing the received meta information to each UI component management means according to a predetermined rule. Meta information filter means for converting a character string of meta information received from the video information distribution device into a character string suitable for display based on a predetermined meta information conversion rule,
The meta information distribution unit distributes the meta information of the character string converted by the meta information filter unit to the corresponding UI component management unit,
The video monitoring system according to claim 2, wherein the corresponding UI component management means displays meta information displayed on a display component managed by the UI component management unit as the converted character string. The client device displays a meta information editing button for user operation on the Web browser screen, and is activated when the meta information editing button is operated. Based on the management metadata table of the UI component management unit, the client device A UI list for editing information is created and displayed on the screen of the Web browser. When the meta information on the UI list is edited by the user, the UI component management means Meta management data editing means for changing the corresponding meta information of the management metadata table is provided,
The video monitoring system according to claim 2, wherein the UI component management unit performs an operation after the change based on the changed management metadata table. The client device holds the UI event that has been performed on the Web browser, and selects the UI operation history radio button from the operation list displayed on the Web browser screen, thereby corresponding to the held UI event. A UI operation history holding means for giving a UI operation history to the management metadata of the UI component management means;
5. The UI operation history existing in the management metadata of UI component management means corresponding to the UI event when the UI event occurs is displayed as a list on the Web browser screen. Video surveillance system. The client device transmits the management metadata of all UI parts management means edited by the user to the video distribution device and stores it,
The video distribution device downloads the stored management metadata table to a client device of another user in response to a request and sets it as management metadata in an initial state of the UI component management unit of the device. 6. The video surveillance system according to claim 4 or 5, wherein In a video information distribution apparatus that appropriately distributes live video from a plurality of cameras that capture each monitoring area or their stored video to the client device via an Internet line,
The camera ID, the video acquisition date and time, and the presence or absence of an alarm in the monitoring area are stored in association with video from multiple cameras. If there is an alarm, alarm information including the date and time of occurrence, location and alarm type is stored in the corresponding stored video. Accumulate in association,
Distributing live video or stored video according to meta information included in the meta information distribution request received from the client device, and video meta information related to live video or stored video according to the meta information distribution request from the client device And a video information distribution device that generates alarm meta-information related to the history of alarm information and distributes it to the client device. In a client device that receives live video from a plurality of cameras that capture respective monitoring areas or their stored video, which are appropriately distributed from the video information distribution device via the Internet line,
Updating and managing the display form of the camera selection display component for selecting the live video on the Web browser based on the video meta information received from the video information distribution device;
In addition, the display form of the alarm list display component for selecting the stored video on the web browser based on the received alarm meta information is updated and managed,
Further, the display form of the video display component for displaying the video on the web browser is updated and managed based on the received video meta information,
At the start of connection with the video information distribution device and at the time of user operation on the camera selection display component or the alarm list display component, a video distribution request is generated using the corresponding meta information. A client device, wherein a meta information distribution request is generated and transmitted to the video information distribution device in a process of managing display components. Based on the meta information received from the video information distribution device, the respective management metadata tables for managing the meta information associated with the camera selection display component, the alarm list display component, and the video display component are updated according to a predetermined format. UI component management means for each display component that updates and manages the display form of the corresponding display component based on the management metadata table;
9. The client apparatus according to claim 8, further comprising meta information distribution means for distributing the received meta information to each UI component management means in accordance with a predetermined rule. Meta information filter means for converting a character string of meta information received from the video information distribution device into a character string suitable for display based on a predetermined meta information conversion rule,
The meta information distribution unit distributes the meta information of the character string converted by the meta information filter unit to the corresponding UI component management unit,
10. The client device according to claim 9, wherein the corresponding UI component management means displays meta information to be displayed on a display component managed by the UI component management unit as the converted character string. A meta information edit button for user operation is displayed on the Web browser screen, and is activated when the meta information edit button is operated, and edits predetermined meta information based on the management metadata table of the UI component management means. A UI list for the UI parts management means based on the edited meta information when the user edits the meta information on the UI list. Meta management data editing means for changing the corresponding meta information of
The client device according to claim 9, wherein the UI component management unit performs an operation after the change based on the changed management metadata table. A UI component management unit that holds a UI event performed on a Web browser and selects the UI operation history radio button from an operation list displayed on the Web browser screen, thereby corresponding to the held UI event. A UI operation history holding means for providing the management metadata as a UI operation history,
12. The UI device according to claim 11, wherein when the UI event occurs, the UI operation history existing in the management metadata of the UI component management unit corresponding to the UI event is displayed in a list on the Web browser screen. Client device.

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