KR20130046607A - Video management system and method of processing video data thereof - Google Patents

Abstract

Disclosed herein is a video management system and management / processing method thereof in accordance with the present invention. Here, one example of the video data processing method according to the present invention includes the steps of recording a video image for at least one object; And generating recommended video data associated with the recorded video image, and providing the generated recommended video data to a predetermined area when the recorded video image is reproduced. In addition, an example of a data processing method in the video management system according to the present invention may include generating first map information for the entire area covered by the video management system and a plurality of second map information for the detailed area of the first map. Making; And providing, on the screen, only the second map information of the region selected from the first map information among the generated first map information and the plurality of second map information on the screen, between the first map and the second map. Display link information.

Description

VIDEO MANAGEMENT SYSTEM AND METHOD OF PROCESSING VIDEO DATA THEREOF}

The present invention relates to a video management system, and more particularly, to a video data processing method in a video management system.

Conventionally, a closed circuit TV called CCTV (Closed-Circuit TeleVision) has been used in place of the role of a person where continuous monitoring or interception such as a specific space or a specific area is needed.

However, such CCTV is limited to a specific purpose or field and still prefers to be directly monitored by humans. Therefore, the use of the CCTV is limited, and thus the technology development is slow and the price is expensive.

However, with the recent increase in crimes and the demand for management, which has been difficult to keep in touch with people, or the difficulty of continuous monitoring, the interest and use of CCTV has increased so that it is now common in everyday life. It became.

However, there is still a lack of software / hardware support for management and control as the use of CCTV and the increase of the number of individuals, which makes it difficult to collect and acquire satisfactory data. In particular, when there are many video devices such as CCTVs managed by one video management system and their characteristics and roles are different, conventionally, the uniform management and control causes failure of data collection, damage or error. There is a problem in that the user or administrator is inconvenient because it is not faithful to the purpose of use.

An object of the present invention, in the case of image analysis collected through a plurality of video devices, to provide a connection between a plurality of videos by providing associated video images through a variety of properties, such as time properties, location properties, event properties, It is to provide a Video Management System (VMS) that improves the accuracy of video analysis.

Another object of the present invention is to provide a continuous sequence video image to make it easier to track, analyze, and the like for a moving person or object.

Another object of the present invention is to provide more efficient data processing and management through individual or group management of a plurality of video devices belonging to a video management system.

In order to solve the above problems, an example of a video data processing method according to the present invention, recording a video image for at least one object; And generating recommended video data associated with the recorded video image, and providing the generated recommended video data to a predetermined area when the recorded video image is reproduced.

An example of a data processing method in a video management system according to the present invention includes generating first map information on an entire area covered by the video management system and a plurality of second map information on detailed areas of the first map. ; And providing, on the screen, only the second map information of the region selected from the first map information among the generated first map information and the plurality of second map information on the screen, between the first map and the second map. Display link information.

An example of a video management system according to the present invention is to record a video image for at least one object, generate recommended video data associated with a recorded video image, and reproduce the generated recommended video data when playing the recorded video image. Provides a predetermined area to process video data.

Another example of a video management system according to the present invention may include generating first map information for the entire area covered by the video management system and a plurality of second map information for the detailed area of the first map and generating the generated first map information. Only the second map information of the region selected from the first map information among the map information and the plurality of second map information is provided on the screen, and the link information is displayed between the first map and the second map to process the data.

According to the present invention,

First, in the case of video analysis collected through multiple video devices, related video images are recommended through various properties such as temporal property, location property, and event property to provide connectivity between multiple videos, and to improve accuracy of video analysis. The height is effective to provide a Video Management System (VMS).

Second, there is an effect that it is easier to track, analyze, etc. for a moving person or object by providing a continuous sequence video image.

Third, a plurality of video devices can be efficiently processed and managed through individual or group management.

1 is an overall schematic diagram of an example of a video management system according to the present invention;
2 is a diagram illustrating an example of a setting method for video management / control according to the present invention;
3 is a view showing an example of a detailed setting method of FIG.
4 is a diagram showing another example of a setting method for video management / control according to the present invention;
5 is a view illustrating an example of a method for changing detailed information and settings of FIG. 4;
6 is a diagram illustrating an example of a management map linked to FIG. 4;
7 is a diagram illustrating an example of providing a screen linked to FIG. 4; and
8 illustrates an example of screen division in an automatic playback process according to the present invention;
9 is a diagram illustrating an example of an automatically replayed screen and a recommended video screen according to the present invention;
10 is a flowchart illustrating an example of a video data management / processing method according to the present invention; and
11 is a flowchart illustrating an example of a method for performing an automatic playback function according to the present invention.

Hereinafter, the present invention will be described in more detail with reference to the drawings.

The suffix "module" and " part "for components used in the following description are given merely for ease of description, and the" module "and" part "

Hereinafter, various embodiments of the present disclosure will be described in detail with reference to the accompanying drawings and the contents described in the accompanying drawings. However, the present invention is not limited or limited by the following embodiments.

In addition, the terminology used herein was selected as a general term widely used as possible in consideration of the functions in the present invention, but may vary according to the intention or custom of the person skilled in the art or the emergence of new technology. In addition, in certain cases, there may be a term arbitrarily selected by the applicant, in which case the meaning thereof will be described in the description of the corresponding invention. Therefore, it is intended that the terminology used herein should be interpreted based on the meaning of the term rather than on the name of the term, and on the entire contents of the specification.

On the other hand, an example of the video management system (VMS) according to the present invention described in the present specification, the installation manager to store the image data for efficient management of a plurality of video device image data collected in a limited storage space It is intended to provide a function to set a device by predicting a period or data capacity. In addition, the video management system (VMS) according to the present invention aims to help the management of the security manager by providing a recommendation setting by increasing the accuracy of the predicted value during the maintenance of the video device. For this purpose, the collected video data analysis information, recording quality, recording schedule, and storage space can be utilized. In addition, in the video management system (VMS) according to the present invention, in order to improve the problems of the conventional system, at the initial setting, a video management system (VMS) having organic properties connected to the video management system (VMS) can be visualized and set up at a glance. In addition, as video management system (VMS) operation time passes, video equipment collects and analyzes video data repeatedly to provide appropriate recording settings and schedule prediction. This helps security tasks that can efficiently manage limited storage space, and can be used to change settings to improve network speed in the future.

In the present specification, the video device refers to a closed-circuit TV such as, for example, CCTV, but at least some of the video devices may be video devices capable of communicating through a wired / wireless network.

1 is a diagram illustrating an overall schematic diagram of an example of a video management system (VMS) according to the present invention.

Referring to FIG. 1, an example of a video management system (VMS) according to the present invention includes a client unit, a video camera unit, a storage unit, a plurality of server units, a monitoring unit, and an output unit.

In another aspect, an example of a video management system (VMS) according to the present invention may include a first part having an item indicating each video device belonging to one video management system and for each video device of the first part. The second part for setting detailed information is provided on one screen, and the set information for storing and acquiring video data of each video device is displayed through the first part and the second part according to an input, and each video device While receiving and storing video data according to the setting from the first screen and the second part provided as the one screen, the mutual relation according to the setting may be visually displayed in a predetermined manner.

In this case, the first part includes a weight item for determining a name and importance of a corresponding video device, and if a weight item of a specific video device item of the first part is selected, the first part is arranged in the first part according to the selected weight item. Each video device may be rearranged.

The second part may include a video quality part that manages / controls the video quality of each video device, an event schedule part that manages / controls the recording time of each video device, and a storage space for storing video data of each video device. And at least one of a storage part, and the association is visually displayed as one of the items of each part, the dotted line and the solid line with respect to the contents set for the video device when a specific video device is selected in the first part. Can be. In addition, when a particular video device is selected in the first part, the association may include at least one of a size change, a highlight process, a color change, and a pop-up for items of each part with respect to contents set for the video device. When visually displayed or when a specific item of any one of the second parts is selected, the items of the remaining part are visually changed to at least one of resizing, highlighting, color changing, pop-up, and rearrangement according to the corresponding item. The amount of storage space created or allocated for a particular video device of the storage part is within a predetermined range, the resizing, highlighting, color changing, pop-up, and redo for the corresponding items in the first part and the second part. At least one of the arrangements may be made.

If the capacity of the storage space allocated for the specific video device of the storage part is within a predetermined range, it is recommended to change setting information of each part belonging to the second part, and to classify the current setting item and the recommendation item at the time of recommendation. The predetermined range may refer to a case in which the storage capacity exceeds 90% of the allotted storage capacity or in consideration of at least one of video quality, video data size, and event schedule of the corresponding video device. When calculating the storage capacity, it may mean that there is remaining storage space within one day.

In addition, when a specific video device of the first part is selected, the video screen and the accompanying information captured by the video device are provided as pop-ups and / or the location of the selected video device is displayed from the video management system overall map information. At least one of map information and GPS information may be displayed, and the storage capacity of the storage part is displayed using at least one of a bar-shaped bar graph and a number, and the storage capacity allocated to each video device among the storage capacity. The color can be displayed according to the free space of the space.

In another aspect, the video management system (VMS) of the present invention comprises at least one client, a plurality of servers, a plurality of video devices, and a first part in which each video device is classified and each video of the first part. A second part for setting detailed information about the device is provided on one screen, and includes a video processor configured to process video data according to a setting according to the provided screen, wherein the video processor is provided as the one screen. An association relationship may be displayed between the first part and the second part according to the setting.

Hereinafter, with reference to the accompanying drawings, it will be described in more detail for each configuration in the video management system (VMS) according to the present invention.

The client unit 1010 includes a client that requests at least one video management or / and control.

The first server unit includes at least one of a load balancing server 1022 and a streaming server 1024 to transmit a request of the client unit 1010.

The load balancing server 1022 performs a function of balancing load by sharing network traffic of the main streaming service in the case of traffic overloading such as communication with a plurality of clients. Server load balancing algorithms such as list connection, response time, hash, minimum missies, and bandwidth-based loadbalancing. .

The streaming server 1024 is a server for performing at least one or more functions of video distribution, transcode, and multi-stream.

The streaming server 1024 distributes video streams from network video units to at least one client.

The streaming server 1024 may transmit video data to a mobile device or a hand-held device such as a cellular phone, a PDA, a smart phone, a tablet PC, and transcode and transmit the video data for the mobile device. Can be.

The streaming server 1024 generates various types of video streams from the original video data. Here, the various types refer to, for example, a type in which a codec, a resolution, a quality, and the like are individually or combined.

The video camera unit is composed of a network switch unit 1030 and various video cameras.

Various video cameras include at least one network cameras connected via wired / wireless networks, analog cameras 1055 and digital video recorders connected through a video server 1050. ) Analog cameras connected to the device 1060.

The network switch unit 1030 is connected to the video camera unit and performs a function of classifying and controlling the input or output to be delivered to a destination.

The second server unit includes at least one recording server 1070 and functions as a server for storing an image recorded or photographed by the video camera unit. The second server unit may further include an archiving server 1072, a redundancy server 1074, and the like, to support or back up the recording servers 1070. can do.

The recording servers 1070 receive and store video streams from network video devices such as a network video recorder (NVR).

In addition, recording servers 1070 improve the reliability by forming a proprietary database file system on a raw hard disk rather than on a Windows file system because of reliability. )can do.

The archiving server 1072 archives the stored video data of the multi-recording system and the DVR to perform a video data backup function.

The redundancy server 1074 supports a failover recording system that replaces the main recording system in case of system failure.

The third server unit, as video management servers, includes at least one of a management server 1080 and a failover server 1082.

The management server 1080 performs centralized user management by connecting all clients to a corresponding service, such as a gateway for a solution. In this case, the service is meant to include users and groups policies that describe device access and detailed operation authority.

The management server 1080 configures all services and network video devices as a system by using a configuration tool to perform integrated solution management.

The management server 1080 performs integrated event management by storing events from all network video devices and distributing events stored in services and clients according to a detailed event handling policy.

In addition, the management server 1080 monitors the system health status of all network video devices and services and reports to the clients in the event of a system failure. system health monitering)

Failover server 1082 supports a failover administration system that replaces the main administration system in case of system failure.

The monitoring unit 1090 may directly handle the third server unit described above by the plurality of main monitoring staffs.

The output unit receives the video data and outputs the video data to the video wall 1120. The video data output to the video wall 1120 may be output, for example, according to at least one control of a keyboard controller 1110 and a video wall server 1100.

The video wall server 1100 generates a video wall display in a controllable CCTV control center.

In addition, the video management system (VMS) according to the present invention includes a video analytics server (Video Analytics Server) 1130, an access control server (1140), an alliance server (1150), and the like. It may further include.

The video analytics server 1130 obtains a video stream from network video devices, tripwires, object counting, reitering, left behind, and object retrieval. Video content is analyzed by analyzing video data using video analysis algorithms such as Object Remove and Facial Detection.

The access control server 1140 performs access management by providing more efficient video management for access control events through integration with a 3rd party ACU (Access Control Unit).

The alliance server 1150 creates multi-site federation by creating two or more NEXUS solutions, each of which allows one administration service to operate as a single solution. site federation).

One example of the video management system (VMS) according to the present invention described above is to record a video image for at least one object, generate recommended video data associated with the recorded video image, and generate the recommended video data. When the recorded video image is played back, it is provided to a predetermined area to process video data. In this case, the recommended video data may be a thumbnail image, and may be provided in the predetermined region in a continuous sequence form based on the recorded video image, and at least one attribute of time, position, and event of the object may be provided. Can be generated as a reference. In addition, the predetermined area may be east-west, north-south direction based on the recorded video image playback area, and the recommended video data is based on at least one of time, location, and event based on the recorded video image. The objects may be arranged hierarchically in the predetermined region so that the physical direction and the continuity of the object.

The video management system (VMS) according to the present invention may further provide at least one of identification information and recording time information of a video device capturing the video image when providing a recorded video image. If there are a plurality of objects, recommended video data for each object may be generated, and recommended video data may be provided for the selected object. The recorded video image and the recommended navigation image may be grouped and stored separately.

In addition, another example of a video management system (VMS) according to the present invention may generate first map information for the entire area covered by the video management system and a plurality of second map information for the detailed area of the first map. The second map information of the region selected from the first map information among the generated first map information and the plurality of second map information is provided on the screen, and the link information is displayed between the first map and the second map to display data. Process. In this case, the second map information, link information is displayed based on the association between the video devices included in the region, the first map and the second map information may be implemented in any one of 2D and 3D, When a specific video device in the second map information is selected, setting information of the video device may be provided in a predetermined area in a pop-up form. In addition, the setting of up, down, left, and right directions and distances of the corresponding video device may be changed from the pop-up type setting information or the second map information.

1 illustrates the overall configuration of the video management system VMS according to the present invention. However, the present invention is not limited to the illustrated configuration, and if necessary, some configurations may be further added or conversely omitted to construct a video management system (VMS).

Hereinafter, a method for managing / controlling video devices, that is, video cameras, in the video management system VMS will be described in detail.

2 is a diagram illustrating an example of a setting method for video management / control according to the present invention. 3 is a diagram illustrating an example of a detailed setting method of FIG. 2.

2 and 3 are screens illustrating an example of a setting method and a detailed setting method for video management / control according to the present invention. 2 and 3 may be individually set for each video device.

For example, referring to FIG. 2, the left area 2010 of the screen shows items such as cameras and storage, events and outputs, scheduling and archiving, logs, email, server access, users, and the like.

In the upper area 2020 of the right side of the screen, a camera summary is disclosed. In this case, information about a specific camera device is provided in a summary form in the corresponding area 2020. The enable / disable check, the camera name, the video format of the video data stored by the camera, recording settings, and the Items for retention time, storage path of recorded video data and archiving path are provided in text form.

In addition, a storage usage summary is provided in the lower area 2030 on the right side of the screen. In this case, the area 2030 is provided in a text format with a storage space drive, a path, use, a size of the storage space drive, a video data capacity stored in the storage space, another data capacity, and a free space. On the right side of the area 2030, the occupancy status of the storage space of the selected drive when there are a plurality of drives is displayed using a graph form and color.

The setting method as shown in FIG. 2 can be efficient when there are only a few video devices in the video management system (VMS).

FIG. 3 is an example of a screen for explaining a method used when a camera is newly added in, for example, the management / control screen shown in FIG. 2.

Referring to FIG. 3, this may be provided in a pop-up form when an additional item is selected in a specific area in FIG. 2, which includes an area 3010 that means adding a camera device. An area 3020 displaying a necessary setting item for addition, an area 3030 in which specific setting items for a specific item of the corresponding area 3020 are displayed, and an area 3040 including a final selection item are included.

The setting items displayed in the area 3020 of FIG. 3 include privacy masks, disk management, recording visualization rights, filters, image buffers, and cameras. ), Media profiles, recording, live visualization, IO control, scheduling, motion sensors, and event setup items.

Also, in the area 3030 of FIG. 3, for example, a window for inputting general camera data for a camera item, a window for inputting a camera name and a camera description, a window for selecting a camera device manufacturer, and a camera device model for selecting a camera device model. A window, a window for selecting the status of the firmware, a window for inputting or selecting a recording directory are disclosed, and an item for selecting whether to activate the corresponding camera is included.

However, if there are many video devices in the video management system (VMS), it is very complicated to display them all at once, which makes it difficult to identify the device and control the corresponding device, and may be inconvenient due to a complicated control process. In addition, although it may be possible to control video devices in individual units, efficiency may be reduced in a group unit, that is, when collectively controlling video devices linked to each other.

Hereinafter, another method for video management / control according to the present invention is disclosed.

First, another example of the video management / control method according to the present invention will be briefly described. A plurality of CCTVs are connected to a plurality of setting values, and the values required for setting video devices such as recording quality, recording schedule, and storage space are visual elements. Each video device is marked with color by giving importance. In addition, the user can visually show that the storage space is occupied for easier recognition of the user's video management / control, and the data collected from each video device can be visually easily distinguished from each other by color, and remain Make it easy to identify the space.

Further, in another embodiment of the present invention, since the accuracy of the predicted value increases as the period of collecting specific data through the video device increases, each video device provides an option for selecting a collection period, so that each video device has image data of a predetermined time. Repeat the collection and analysis to estimate the appropriate recording settings and remaining schedule. In addition, according to another embodiment of the present invention, one day prior to a storage period during video management operation, an administrator may be notified or automatically set to an appropriate setting to provide convenience.

In addition, according to another embodiment of the video management of the present invention, warnings are displayed in order of video devices having a higher capacity than the importance of video devices so that they can be changed to recommended values and occupy storage space compared to the importance. Low-weight video equipment will also display warnings in order so that they can be changed to recommended values.

Hereinafter, another embodiment of the present invention will be described in detail with reference to the accompanying drawings.

4 is a diagram illustrating another example of a setting method for video management / control according to the present invention.

Referring to FIG. 4, the video management / control method according to the present invention can be easily set through the illustrated screen. In particular, in the screens of FIGS. 4 to 6, necessary functions and items are presented and visualized at once on one screen so that the overall management degree can be easily recognized and changed. 4 (a) to 4d are also provided as one screen.

4 (a) illustrates a method of identifying / adding various devices connected to a video management system (VMS) through a wired / wireless network.

In FIG. 4A, an item indicating that a device and an item for adding a device are disclosed, and an address of a network connected to the lower part thereof (for example, in FIG. 4A, 255.255.255.10 (NetEVS) is displayed). Each video device connected by network address is listed.

Here, each video device may be assigned, for example, a weight 412 to easily recognize the importance of the video device. In this case, the weight may be displayed using, for example, numbers 1 to 5 or text such as English or Korean, or the importance may be displayed through color or highlight. In the above, the weight may mean, for example, that the greater the number, the higher the importance.

In addition, in the screen of FIG. 4A, when the user selects, for example, a weight item, the user may input or change a weight of the corresponding video device. Therefore, each video device may be arranged in order of importance. In this case, a video device having high importance may be positioned at the top of the screen, and may be located at the bottom of the screen as the importance becomes lower.

In addition, when the user selects a video device addition item, the user is added to the top position of the screen to input or select a camera name and a weight item. If the addition is terminated, it may be moved to a corresponding position on the screen according to the input or the selected weight.

In addition, in FIG. 4A, when at least two or more video devices are grouped, the corresponding group may be displayed and the video devices may be classified and arranged in group units. In addition, the video quality, the event schedule, and the storage space of FIG. 4 (b), which will be described later, may be set at a time by group.

FIG. 4B is a method of setting video quality linked to each video device belonging to the video management system VMS, that is, each device of FIG. 4A.

FIG. 4B shows items of video quality.

The frame and resolution are displayed in the video quality of FIG. 4 (b), and the items 20 frames 480x200, 30 frames 704x480, 60 frames 748x480, and 60 frames 800x600 are shown from the top.

Each item may include not only textual information but also an image to make it easier to recognize the degree of video quality of the item.

Each of the video quality items of FIG. 4B may be linked to each of the video device items of FIG. 4A. 4 (a) and 4 (b), it can be seen that each video device item and the video quality item are connected to each other by a dotted line. For example, it can be seen that the uppermost video device is set to 704x480 video quality of 30 frames. For example, when the particular video device of FIG. 4 (a) is selected or the specific video quality item of FIG. 4 (b) is set, the dotted line indicates a line darkened or highlights the corresponding items. Changes, resizing, etc. make it easy for users to recognize the relationship between video equipment and video quality.

In addition, an administrator of the VMS may easily change and set the video quality item through any one of the corresponding video device item, the dotted line, and the video quality item. Alternatively, when the administrator selects a specific video device, the video management system VMS may provide a recommendation value in consideration of the weight, the current storage state, the event schedule, and the like to change the setting.

Further, when the specific video quality item of FIG. 4 (b) is selected, the video device arrangement order of FIG. 4 (a) is rearranged according to the selected specific video quality item or as described above, the size change, the highlight and the color change are made. Or the like.

4 (c) shows event schedule items for each video device.

Here, the event schedule includes, for example, the recording time setting of each video device. That is, FIG. 4 (c) shows an 'all the time' item for always recording 24 hours and an 'office hour' item for recording only during working hours in relation to the recording time setting of each video device as an event schedule. This was shown. In addition, if a video device is recorded only during non-working hours, only a specific time, or only outside a specific time, or a group including at least two or more video devices is formed, a recording time setting for the corresponding group unit may be set.

As described above, when the specific event schedule item of FIG. 4 (c) is selected, at least one or more of the items of FIGS. 4 (a), 4 (b), and 4 (d) may be selected from the selected specific event schedule item. Related items can be size changes, highlights, color changes, pop-ups, rearrangements, and so on.

4 (d) shows items of storage space allocated for each video device.

Each item of FIG. 4 (d) corresponds to each storage space, and the items are used in the form of numbers or graphs as illustrated in FIG. .

As described above, when a particular storage space item of FIG. 4 (d) is selected, at least one or more of the items of FIGS. 4 (a) to 4 (c) associated therewith may be resized, highlighted, changed color, pop-up. Ups, rearrangements, and so on.

In addition, referring to FIG. 4, each item is connected to neighboring items by a dotted line so that a user can easily recognize a setting item, and if necessary, a dotted line may be displayed by a solid line or a blinking light. .

In addition, when a particular item is selected in Fig. 4, all the items in Figs. 4 (a) to 4 (d) related to it have the highest priority accordingly, such as resizing, color changing, highlighting, pop-up, rearrangement, etc. This can be

In addition, the preset video quality, event schedule, and storage space can be set as default according to the importance based on the weight.If the value added among existing or existing video devices is different from the default value, the user can easily recommend or visualize the setting change. You can also make it aware.

In case of selecting a specific item or requesting a change in FIG. 4 (a) to (d), the video management system (VMS) changes size, highlight, color change, pop-up, It can be processed to make it easier for users to recognize and control the setting.

5 is a diagram illustrating an example of a screen for changing detailed information and settings of FIG. 4.

FIG. 5 is a diagram illustrating a method for changing a setting in FIG. 4, and the description overlapping with FIG. 4 uses the above description, and a detailed description thereof will be omitted.

5 (a) to (d), there are highlighted portions, which are related to the present invention, for example, in a video management system (VMS), for example, a video device that needs to be automatically changed and its associated settings. It is a visualization of the contents.

For example, the topmost video device of FIG. 5 (a) indicates that the weight is 5, which is the most important video device. It can be seen that the video quality item set in the corresponding video device is 30 frames 704x480, the set event schedule item is always recorded for 24 hours, and the set storage item is storage space 2.

Here, the video management system (VMS) according to the present invention may automatically perform a function recommended by an administrator or perform an automatic setting function.

Referring to FIG. 5, as described above, the video device may know that the video device having the highest priority of weight 5 or the allocated storage space remains. In this case, when the video data transmitted from the video device is completely stored in the allocated storage space, the VMS automatically deletes the first stored video data and stores the newly added data based on the preset contents. Alternatively, storage space that is not yet allocated can be randomly allocated and notified. On the contrary, the video management system (VMS) may store a predetermined portion of the storage space allocated to the user, for example, about 90% or when there is enough space for a predetermined time, for example, one day. The user may be warned and the setting items linked to the video device and the setting items linked thereto may be changed to induce or recommend a setting change. In this case, the video management system (VMS) may change the user's setting by pop-up or displaying a storage space calculation, storage time calculation, etc. of the storage space according to the user's setting change process. You can also write.

Alternatively, the video management system VMS may recommend an unallocated and usable storage space among the storage spaces held.

In addition, the video management system VMS may recommend a setting change of the video device through comparison with other video devices having the same weight.

In this case, of course, the video management system VMS may delete the pre-stored video data according to the administrator's selection to secure the storage space.

In particular, the storage space display of FIG. 5 (d) may facilitate the user's cognitive convenience in various formats such as a simple graph, a graph, a numerical description (percentage or number of bytes remaining), and a numeric display.

As described above with reference to FIGS. 4 to 5, when there are many video devices belonging to one video management system (VMS), a user can easily manage and control when compared to FIGS. 2 to 3.

6 is a diagram illustrating an example of a UI provided by a video management system (VMS) provided according to the present invention, and FIG. 7 is a diagram illustrating another example of a UI.

Referring to FIG. 6, one example of a UI provided by a video management system (VMS) includes map information on an area, an area, or an area in which the video management system VMS operates or covers, respectively. Is provided. Hereinafter, such map information will be described, for example, referred to as map information provided by a video management system (VMS), that is, a management map.

First, the management map of FIG. 6 will be described.

Referring to FIG. 6, a management map of a video management system (VMS) according to the present invention may be provided at the request of an administrator.

The management map may include a plurality of areas, each of which includes items related to specific information or function performance, but is largely included in the information area 6010 and the information area 6010 including items for requesting the specific information or function execution. The description will be made by dividing the screen area 6020 into which the selected specific information or function is performed.

The information area 6010 includes an area for outputting information (for example, 15 Sep 2010 12:17:00) on the current time and date, and an item button for selecting various information or functions output on the screen area 6020. The provided area, the area provided with the item buttons which are classified into lower levels according to the selection of the corresponding item button, and the like may be provided.

For example, the item button is the first screen provided with the UI of FIG. 6, provided with login information for checking an administrator or determining whether there is a legitimate authority, if necessary, and updating firmware or other information required for UI configuration, or corresponding information. A home item for providing general information of the UI provided in FIG. 6, such as a notification of an update status, a device item for executing a video device and related information as shown in FIGS. 4 to 5, and a screen area 6020 of FIG. 6. Map items for executing map information showing the coverage of the illustrated video management system (VMS) in 2D or 3D, etc., recording settings of video equipment or video recording stored in each storage medium separately or in association with the device items. Definition of recording items and video management system (VMS) to provide all information related to recording such as current status Administrator information and changes to the authorization is provided administrator, it may be included in the user entry for all of the information and perform additional functions related to and adding administrator.

In addition, the information area 6010 may further include, for example, a link item for displaying related information when the information of each item is provided separately. For example, suppose that the administrator selects a device item among items provided in the information area 6010. In this case, the video management system VMS may provide the UI of FIGS. 4 to 5, for example. In this case, when the link item is deactivated, for example, the information of the respective areas may be provided separately from each other. When the administrator requests activation through the link item, as described above, The information provided in the region may provide information about the link relationship through dotted lines, solid lines or pop-ups, resizing, highlighting, color changes, and rearrangement. Also, in the map information provided in the screen area 6020 of FIG. 6, for example, if a link item is inactivated, the link relationship between each installed video device or the first map 6030 and the second map 6040 is displayed. It may also be provided only when the link item is not provided and the link item is activated. This is for the convenience of the administrator by allowing the administrator to determine the degree of information provision according to the administrator's choice because there may be confusion for the administrator due to the provision of link information when a plurality of video devices are provided.

Hereinafter, the screen area 6020 will be described. However, referring to FIG. 6, it is assumed that the above-described map item of the information area 6010 is selected or activated.

Various map information may be output to the screen area 6020. For example, in FIG. 6, a first map 6030 and a second map 6040 interlocked with the first map 6030 are output. In other words, the first map 6030 is provided with the entire map information covered by the video management system (VMS), and if a specific region or video device is selected, the detailed map information linked thereto is displayed in the second map 6040. Is provided. In the above description, the displayed information such as the video device among the map information provided in the first map 6010 may refer to a specific video device, or the specific area according to the cover area or that shown in FIG. 6 for the convenience of an administrator. Likewise, as a representative video device representing a plurality of video devices linked thereto, a video device having a symbolic meaning may be referred to.

In the screen area 6020 of FIG. 6, two video devices of the first map 6030 are selected, and an area linked to or covering the selected video device in the second map 6040 and each video provided in the corresponding area. The device is displayed with map information about the area. In this case, according to the present invention, even if the administrator selects a specific video device from the first map 6030, for example, the area covered by the selected video device is neighboring or interworking with other video devices in the first map 6030. May be provided with or provided with the link information excluded. In addition, each video device displayed on the first map 6030 and the second map 6040 may be displayed with directions and heights so that the cover area can be easily understood. In addition, the first map 6030 and the second map 6040 may separately display a moving object or a person in the provided area.

In addition, referring to FIG. 6, the screen area 6020 is currently enlarged by the second map 6040, and the first map 6030 is reduced and deactivated. It may be. In this case, when switching to the first map 6030, the second map 6040 may not be displayed.

In addition, a specific area may be selected for a specific portion of the first map 6030 and the second map 6040 in the screen area 6020 by using a box at the bottom right of the screen area 6020 of FIG. 6. In this case, the corresponding portion may be further enlarged. In addition, although the square box may be used only for the purpose of selecting a corresponding area, the size may be changed so that a desired area may be freely selected. In addition, a ruler item for selecting an overall reduction / enlargement of the screen area may be further included on the square box.

In addition, when the administrator selects a specific video device shown in the second map 6040 provided in the screen area 6020, for example, a screen as shown in FIG. 7 is provided, a predetermined area as shown in FIG. You can also see a screen shot by the selected video device. Here, the administrator may directly control the direction, distance, height, and the like of the video device, or may directly control the direction, distance, height, and the like of the video device in the state of the second map 6040 of FIG. 6. In this case, the area covered by each video device is immediately displayed on the second map 6040 so that the area not covered by the provided second map 6040 can be directly known through visualization, and thus an area requiring addition of the video device is required. It is possible to determine the error, such as the direction, distance, height, etc. of each video device, so that it is simple and convenient to grasp the overall management, monitoring or control situation and respond immediately. In the above, the distance means, for example, adjusting the range being photographed by adjusting a portion targeted by the current video device from a short distance to a long distance or vice versa. In this case, the video management system (VMS) additionally provides related information such as change of video quality or event according to distance adjustment of the corresponding video device, change or setting of information on the relationship with the storage medium, and the like. You can also make variables work together. In this case, a pop-up type UI may be provided to control the direction of the video device, or the corresponding video device may be enlarged to provide more control.

The above-described management map shown in FIG. 6 may be provided as a pop-up or other window or separately provided in the setting process through the above-described FIGS. 4 to 5 and the setting UI. In addition, the management map illustrated in FIG. 6 may be individual or linked with FIG. 7 to be described later.

FIG. 7 may be a case in which a manager sets a more accurate setting for management or / and control in the methods of FIGS. 4 through 5 in a video management system (VMS), or may be a UI for a linked screen according to FIG. 6. Alternatively, the manager may be a screen UI for building an initial system in a video management system (VMS) or adding or deleting a video device.

For example, although only the camera device item of FIG. 4 (a) or 5 (a) is shown in FIG. 7, the administrator sets or changes a setting for a specific video device in the video management system (VMS). Suppose

In the VMS, when an administrator selects a specific item of FIGS. 4 to 6, detailed information related to the item is provided.

In particular, when an administrator selects a specific video device item from among items provided by the video management system (VMS) as shown in FIG. 4 (a) or 5 (a), in FIG. Is provided in a pop-up form. In this case, for example, information about a network address (10.255.255.255), a device ID (root), an event (Motion, etc.), a tag, a video, and the like of the corresponding video device may be provided. For example, the tag refers to an additional comment other than a camera name to identify the video device more easily. In FIG. 7, the tag is expressed as “2nd Floor, Outdoor”. In addition, the video may be provided with information about an average size (12302kb) of video data, a video quality (30frame 704x480), a storage space (storage medium 1), and the like, in relation to video quality.

8 and 9, in the case of image analysis collected through a plurality of video devices according to the present invention, connectivity between a plurality of videos may be provided by recommending related video images through various properties such as time property, location property, and event property. And a video management system (VMS) for enhancing the accuracy of image analysis. In this case, the video management system (VMS) automatically provides a sequence of video sequences to the administrator to automatically play (Auto Playing) to make it easier to track, analyze, etc. for moving people or objects, multiple video We want to manage and manage the data more efficiently through individual or group management of devices.

Playback of a video image obtained from a video device is useful for image analysis by providing an image of a video device selected by a user or by providing information of a faucet that allows a user to recognize a physically adjacent video device by using a map technology. This supports the analysis of only the physical movement and orientation of an object within a single video image. Tracking of objects with various movements and directions is problematic and problematic.

Accordingly, in the present specification, in order to recommend the previous and next video of the video device currently being monitored by connecting properties such as time, location, event, etc. of each video device, sequentially successively among the plurality of video devices. It is intended to enable video monitoring. To this end, in the present specification, the video management system (VMS) assigns an event attribute to an object when recording is set for each video device so that recording and storage is performed according to the event. In this case, the object may be assigned event attributes related to audio and video, such as motion, motion, sound, temperature, and the like, to be recorded and stored according to an event. In addition, the video device may have metadata in addition to basic physical information such as time and location.

In the video management system (VMS) according to the present invention, a navigation view in which an administrator recommends the previous and next images by automatically replaying CCTVs having the same property information when playing a recorded image through a client. ), Continuous video playback can be performed by selecting the video of interest. Therefore, when the object of interest is moving, the administrator can automatically know the video device according to the moving position and can also edit and store the continuously reproduced screen separately.

To this end, in the present invention, when recommending a video device physically connected to the moving direction of the object, the thumbnail image of the candidate video device receiving the automatic playback command is visually arranged to have the same orientation around the currently playing image. This makes it easier to track objects. In addition, the object tracking image can be stored as continuous playback data without additional image editing, which may facilitate the task of security management.

8 is a diagram illustrating an example of screen division in an automatic playback process according to the present invention.

8A to 8D are examples of screen division for how to perform screen division, for example, in an automatic playback process. Examples include, but are not limited to, four divisions, nine divisions, 16 divisions, and the like, and include more detailed screen divisions and non-linear screen divisions.

9 is a diagram illustrating an example of an automatically reproduced screen and a recommended video screen according to the present invention.

FIG. 9 illustrates a process of automatically playing a tracking video of an object according to the present invention. In this case, a screen of a video device photographing an area in which an object is currently located is positioned at the center of the screen. It provides a recommended video.

Here, in FIG. 9, since the video image screen of the region where the current object is located has the highest priority or interest, this is enlarged and provided compared to other image screens. In addition, for the same reason, the screen to which the current object belongs can be activated to be easily recognized by the administrator, and the recommended video screens can be relatively inactivated or darkened. That is, if the object moves to the area of another video device, the video image may move to the center and may be output in the same principle.

In addition, when providing a screen to which the current object belongs, information on the time photographed in a predetermined area of the screen and a video device name or tag information for identifying the corresponding video device are provided, and within the provided video area. An item for reducing / enlarging a specific area or reducing / enlarging the entire screen, an item for storing or editing an output screen, or obtaining a thumbnail image may be provided. In addition, an item for switching the screen direction to 90 degrees, 180 degrees, 270 degrees in a clockwise or counterclockwise direction may be provided. In this case, the recommended video may also be switched.

In addition, in addition to the automatic playback on the screen to which the current object belongs, the user may manually activate / deactivate the screen arbitrarily through the arrow item shown in FIG. 9.

In addition, in the UI of FIG. 9, the upper item is similar to, for example, FIG. 6, but an item is provided for realizing functions for live, recorded playback, map, event, and user. 9, information about neighboring areas and information for identifying a corresponding area may be displayed so that the area to which the current object belongs is identified in a previously divided upper area. For example, in FIG. 9, the current object is moving in a predetermined area of the hall 001 area, and the neighboring area may be marked as a room 021 to predict the next moving destination of the object. In the lower part of FIG. 9, although only the current position is provided in the form of a bar, all video devices in the area are displayed below each area, and the moving direction of the object is easily displayed by the administrator. It is possible to predict the time and the like to move. In addition, in the lower region, an export item for separately storing or extracting the current screen or a snapshot item for acquiring the above-mentioned thumbnail image may be separately provided.

When the administrator selects a specific item for the image of the current area to which the object belongs, the screen to be played may be temporarily stored. For example, the system continues to process video data as a time-shift in broadcast even if it is paused in live mode, a function such as obtaining a thumbnail image or a snapshot is performed, or providing related information. In this case, it can be provided by switching from live to recording mode automatically.

In the above-described UI of FIG. 9, in the automatic play mode according to the present invention, the object provides an image captured or recorded by a video device of a corresponding viewpoint or an area to which the object belongs, on the screen, and based on the movement direction of the object or It is to provide a recommendation image in predetermined predetermined directions. For example, when the automatic playback mode is set even when playing a recorded video as well as live video, it may be edited through collection and extraction of related data and provided as shown in FIG. 9.

10 is a flowchart illustrating an example of a video data management / processing method according to the present invention.

In the video management system, a first part in which each video device is classified and a second part for setting detailed information about each video device of the first part are provided on one screen (S7010). In this case, an association relationship between the first part and the second part may be displayed according to the setting.

Information for storing and acquiring video data of each video device is set through the first part and the second part (S7020).

According to the setting, video data is received from each video device and stored (S7030).

Thereafter, if there is a request from the administrator, the video data stored for the specific video device is decoded and reproduced according to the request (S7040).

In the above description, the first part includes a weight item for determining a name and importance of a corresponding video device, and when a weight item of a specific video device item of the first part is selected, the first part is assigned to the first part according to the selected weight item. Each video device arranged may be rearranged.

In this case, the second part includes a video quality part for managing / controlling the video quality of each video device, an event schedule part for managing / controlling the recording time of each video device, and a storage space for storing video data of each video device. And at least one of a storage part for, and wherein the association relationship is one of items of each part and dotted lines and solid lines for contents set for the corresponding video device when a specific video device is selected in the first part. Visually, items of each part with respect to contents set for the corresponding video device may be visually displayed as at least one of a size change, a highlight process, a color change, and a pop-up.

In addition, when a specific item of any one part of the second part is selected, items of the remaining part may be visually formed by at least one of resizing, highlighting, color changing, pop-up, and rearrangement according to the corresponding item. If the amount of storage space allocated for a particular video device of the storage part is within a predetermined range, the size change, highlight processing, color change, pop-up, and At least one of the rearrangements may be made.

In addition, if the capacity of the storage space allocated for the specific video device of the storage part is within a predetermined range, it is recommended to change the setting information of each part belonging to the second part, and the current setting item and the recommended item at the time of recommendation. And the predetermined range is in units of dates in consideration of at least one of storage capacity of more than 90% of allotted storage capacity and / or video quality of the corresponding video device, size of video data, and event schedule. When calculating the storage capacity of, it may mean that there is remaining storage space within a day.

In addition, when the specific video device of the first part is selected in the above, the video screen and the accompanying information captured by the video device are provided as pop-ups and / or the location of the video device selected from the entire video management system map information is displayed. At least one of map information and GPS information may be displayed, and the storage capacity of the storage part is displayed using at least one of a bar-shaped bar graph and a number, and is allocated to each video device among the storage capacity. The color can be displayed according to the free space of the storage space. The recommended image, that is, the navigation image, may provide only a thumbnail image to minimize the system load. In addition, when there are a large number of objects, a video image for each object may be arranged in the center of the screen and a navigation image may be provided in the above-described manner. In this case, if each object is located in an area not adjacent to each other, the screen is divided so that the left or upper part is provided to the first object and the right or lower part is provided to the second object, or only selected objects are selected by the administrator. It can also be provided as: In this case, there is no recommendation image in the PIP format, for example, but the other object may be provided while continuously moving the area to which the object belongs, and video device identification information and the like may be provided. In addition, the administrator may change the main image and the PIP image for the plurality of objects provided in the PIP format in the same manner as the housewife switching. In this case, the existing PIP image becomes a main image and a recommended image is provided, and the existing main image is provided in reverse.

11 is a flowchart illustrating an example of a method for performing an automatic playback function according to the present invention.

In operation S11010, an image of a video device is recorded according to an object event.

The administrator plays an image of a video device on which an object event to be tracked is recorded (S11020). In this case, video devices having the same time and location information may be grouped to reproduce an image.

In the auto play mode, a thumbnail navigation image of a candidate video device to receive a corresponding command is provided (S11030). In this case, the navigation image may be visually arranged with the same orientation based on the image currently being played. In addition, the user may select a desired video device among the thumbnail images of the candidate video device.

Each video of the video device is automatically played in succession (S11040).

According to the present invention as described above, recording the video image for the at least one object and generating the recommended video data associated with the recorded video image, the generated recommended video data to the predetermined region during the playback of the recorded video image Providing a step is made. In this case, the recommended video data may be a thumbnail image, and may be provided in the predetermined region in a continuous sequence form based on the recorded video image, and at least one attribute of time, position, and event of the object may be provided. Can be generated as a reference. In addition, the predetermined area may be east-west, north-south direction based on the recorded video image playback area, and the recommended video data is based on at least one of time, location, and event based on the recorded video image. The objects may be arranged hierarchically in the predetermined region so that the physical direction and the continuity of the object.

The video management system (VMS) according to the present invention may further provide at least one of identification information and recording time information of a video device capturing the video image when providing a recorded video image. If there are a plurality of objects, recommended video data for each object may be generated, and recommended video data may be provided for the selected object. The recorded video image and the recommended navigation image may be grouped and stored separately.

In addition, the data processing method in the video management system (VMS) according to the present invention, generating first map information for the entire area covered by the video management system and a plurality of second map information for the detailed area of the first map. And providing only second map information of a region selected from the first map information among the generated first map information and the plurality of second map information on a screen. Display link information between maps. In this case, the second map information, link information is displayed based on the association between the video devices included in the region, the first map and the second map information may be implemented in any one of 2D and 3D, When a specific video device in the second map information is selected, setting information of the video device may be provided in a predetermined area in a pop-up form. In addition, the setting of up, down, left, and right directions and distances of the corresponding video device may be changed from the pop-up type setting information or the second map information.

As described above, the video management system (VMS) and the management / processing method thereof according to the present invention are not limited to the configuration and method of the embodiments described as described above, but the embodiments may be modified in various ways. All or some of the embodiments may be selectively combined to make this possible.

On the other hand, the video management system (VMS) of the present invention and its management / processing method can be embodied as processor-readable codes on a processor-readable recording medium included in the video management system (VMS). The processor-readable recording medium includes all kinds of recording apparatuses in which data that can be read by the processor is stored. Examples of the recording medium that can be read by the processor include a ROM, a RAM, a CD-ROM, a magnetic tape, a floppy disk, an optical data storage device, and the like, and may also be implemented in the form of a carrier wave such as transmission over the Internet . The processor-readable recording medium can also be distributed over network coupled computer systems so that the processor-readable code is stored and executed in a distributed fashion.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes and modifications may be made without departing from the spirit and scope of the present invention.

1010: client portion 1022: load balancing server
1024: streaming server 1030: network switch unit
1050, 1055, 1060: Video equipment 1070: recording servers
1072: Archiving Server 1074: Redundancy Server
1080: management server 1082: failover server
1090: monitoring unit 1100: video wall server
1110: keyboard controller 1120: video wall
1130: video analysis unit 1140: access control server
1150: the Alliance server

Claims (28)

Recording a video image of at least one object; And
Generating recommended video data associated with the recorded video image and providing the generated recommended video data to a predetermined area at the time of playing the recorded video image. The method of claim 1,
The recommended video data,
How to process video data as thumbnail images. The method of claim 2,
The recommended video data is provided in the form of a sequence in a continuous sequence on the basis of the recorded video image in the predetermined area. The method of claim 3,
The recommended video data,
And at least one attribute of a time, a position, and an event of the object. 5. The method of claim 4,
The predetermined area,
And a video data processing method based on the recorded video image reproduction region. The method of claim 5,
The recommended video data,
And hierarchically arranged in the predetermined area such that the object has a physical direction and continuity based on at least one of time, location, and event based on the recorded video image. The method according to claim 6,
When providing the recorded video image,
And at least one of identification information and recording time information of a video device capturing the video image. The method of claim 7, wherein
If there are a plurality of objects,
A video data processing method for generating recommended video data for each object and providing recommended video data for the selected object. 9. The method of claim 8,
The recorded video image and the recommended navigation image,
Method for processing video data that is grouped and stored separately. Generating first map information for the entire area covered by the video management system and a plurality of second map information for the detailed area of the first map; And
Providing only the second map information of the region selected from the first map information among the generated first map information and the plurality of second map information on the screen;
And a video management system displaying link information between the first map and the second map. The method of claim 10,
The second map information,
The data management method of the video management system that the link information is displayed based on the association between each video device included in the area. The method of claim 11,
And the first map and the second map information are implemented in any one of 2D and 3D. The method of claim 12,
When a specific video device in the second map information is selected,
A data processing method in a video management system in which setting information of a video device is provided in a predetermined area in a pop-up form. The method of claim 13,
And a setting for changing up, down, left and right directions and distances of the video device from the pop-up type setting information or the second map information. Video management for recording video images for at least one object, generating recommended video data associated with the recorded video images, and providing the generated recommended video data to a predetermined area when playing the recorded video image to process the video data. system. 16. The method of claim 15,
The recommended video data,
Video management system that is a thumbnail image. 17. The method of claim 16,
The recommended video data is provided to the predetermined area in a continuous sequence form based on the recorded video image. 18. The method of claim 17,
The recommended video data,
And a video management system generated based on at least one attribute of time, location, and event of the object. 19. The method of claim 18,
The predetermined area,
And a video management system in a direction of east, west, north, and south based on the recorded video image reproduction region. 20. The method of claim 19,
The recommended video data,
And a video management system arranged hierarchically in the predetermined area so as to have a physical direction and continuity of the object based on at least one of time, location, and event based on the recorded video image. 21. The method of claim 20,
When providing the recorded video image,
And at least one of identification information and recording time information of a video device capturing the video image. The method of claim 21,
If there are a plurality of objects,
A video management system that generates recommended video data for each object and provides recommended video data for the selected object. The method of claim 22,
The recorded video image and the recommended navigation image,
Video management system grouped separately. First map information of the entire area covered by the video management system and a plurality of second map information of the detailed area of the first map are generated, and the first one of the generated first map information and the plurality of second map information is generated. A video management system for providing data on the screen, wherein the second map information of the area selected from the map information is displayed on the screen, and displaying link information between the first map and the second map. 25. The method of claim 24,
The second map information,
A video management system in which link information is displayed based on an association between video devices included in a corresponding area. 26. The method of claim 25,
The first map and the second map information is implemented in any one of 2D and 3D video management system. The method of claim 26,
When a specific video device in the second map information is selected,
A video management system in which setting information of a video device is provided in a predetermined area in a pop-up form. 28. The method of claim 27,
And a setting for up, down, left and right directions and distances of the video device from the pop-up type setting information or the second map information.

Images