RU2510960C2 - Video surveillance device - Google Patents

Abstract

FIELD: physics, video.

SUBSTANCE: invention relates to video surveillance systems using means of recognising hazardous at a secure facility. The device comprises at least one video camera which is capable of converting a video signal to a digital video signal, a video signal storage unit, a unit for converting the digital video signal to a sequence of images on a video monitor screen, and further includes a manipulator of a control unit of the conversion unit which is such that movement of the manipulator corresponds to change in images on the video monitor screen, and the direction and rotational speed of the wheel corresponds to the sequence and rate of change of successive images; the device includes an event analyser which picks up events from the digital video signal which require the attention of the operator, and generates a labelling signal upon picking up an event which requires the attention of the operator; the device further includes an event display in form of a wheel, which is such that its rotation corresponds to the rotation of the manipulator of the control unit, and the event display displays images of labels of events recorded by the camera which require the attention of the operator.

EFFECT: high reliability of security and accuracy of recognition.

8 cl, 3 dwg

Description

The invention relates to automated video surveillance systems using motion recognition systems or images and is intended to identify potentially dangerous events at a guarded object.

Stationary posts for monitoring the state of a protected object are known, based on various physical principles: radar, photoelectric, induction, Doppler and others.

Known devices are not effective enough to detect dangerous events occurring at a guarded object of vehicles due to the fact that fully automated systems are unsuitable for reliable detection of dangerous events, and systems operating under the operator’s control do not provide the necessary quick decision-making.

Closest to the claimed invention is the system RF Application No. 2008139232/09, dated 03.10.2008 for a video monitoring system consisting of networked stationary video cameras that receive and transmit an image of the observed territory; switch and archive server; the workplace of the operator or user with a manipulator and a video monitor, in the windows of the screen of which there are video images of the territory observed by stationary video cameras, as well as part of the territory or zone of the territory with an object in it observed by a PTZ camera. A disadvantage of the known device is also the insufficient speed and efficiency of decision-making regarding events requiring the intervention of operational personnel or security services of the object.

To increase the security of the facility, both by accelerating the response to events and by reducing staff fatigue, a video surveillance device comprising at least one video camera configured to convert a video signal to a digital video signal, a digital video signal storage unit, a conversion unit digital video signal into a sequence of images on the screen of a video monitor, characterized in that the device further comprises a manipulator of the control unit of the conversion unit, that the movement of the manipulator corresponds to a change of images on the screen of the video monitor, and the direction and speed of movement of the manipulator corresponds to the sequence and speed of the change of successive images, the device contains an event analyzer that extracts events that require attention from the digital video signal and generates a marking signal when highlighting an event that requires attention operator, an event indicator is added to the device such that its movement corresponds to the movement the manipulator of the control unit, and the event indicator shows the marks registered by the camera of events that require attention from the operator.

In the particular case of the implementation, the manipulator and the video monitor can be made in the form of areas of one multifunction display equipped with touch sensors, the manipulator being made in the form of a wheel image, and at least in the image of the manipulator there is a screen area that responds to touch, and the reaction signal on touch is used to modify the image of the wheel, creating the illusion of its rotation.

Also, in the particular case of implementation, the event analyzer can be performed comparing sequential frames and generating a marking signal, at a predetermined level of differences between sequential frames.

For example, when a frame is represented as a set of pixels and the camera is stationary, differences in pixel groups constituting 10% of the areas of consecutive frames can serve as a basis for generating an alarm or, in other words, an alert about the occurrence of an event that requires attention from the operator.

Also, the event analyzer can be performed analyzing the images presented on the frames and generating a marking signal when the images are found in advance that correspond to predefined criteria. For example, the appearance of a face image in a frame from a camera installed indoors can serve as a basis for generating an alarm.

In the particular case of the invention, the event indicator can be made in the form of an image on the display, however, the indicator can be made in the form of a special-purpose display element, for example, in the form of an LED located at the operator’s workplace.

Also, the indicator and the wheel can be made in the form of combined images, while the indicator and the wheel can rotate synchronously or, in the particular case of implementation, can be connected through a gearbox or other means of changing the speed of rotation of the wheel relative to the event indicator.

In the particular case of implementation, an additional control unit made in the form of a manipulator, for example, a mouse or trackball manipulator, the output signal of which is used to control device functions and the display is configured to display device functions available for control, can be used in the device the manipulator, as well as the parameters of these functions. The specified manipulator can be used for accelerated frame changes, navigation between events requiring attention, zooming in or out, or other purposes. The manipulator can be made with the possibility of spontaneous uniform rotation in the absence of exposure to the operator. That is, the operator can interfere with the display of successive frames at any time.

In the particular case of implementation, the device may further comprise a wheel-shaped manipulator of the control unit of the conversion unit such that the rotation of the manipulator corresponds to a change of images on the video monitor screen, and the sequence and speed of successive images correspond to the direction and speed of rotation of the wheel.

In the particular case of implementation, the device may further comprise an event indicator made in the form of a wheel such that its rotation corresponds to the rotation of the manipulator of the control unit.

Figure 1 shows a block diagram of a device;

figure 2 is a General view of the workplace of the operator;

figure 3 is a General view of the operator’s workplace, where in the upper left corner the image obtained from one of the surveillance cameras is conventionally shown.

The device contains (figure 1):

video cameras 1, a digital video signal storage unit 2, made, for example, in the form of an electronic information storage device for a personal computer, a digital video signal conversion unit 3 into a sequence of images on the screen of a video monitor 4, made, for example, in the form of a video card of a personal computer 5, the device also comprises in the form of a wheel, the manipulator 6 of the control unit of the conversion unit, the device contains an event analyzer not shown in the drawings, which extracts events from the digital video signal The operator's attention, and the signal generating the label when highlighting an event that requires operator's attention. The event analyzer can be made in the form of an additional computer with access to the memory in which video information is accumulated. The device comprises an event indicator 6 made in the form of a wheel such that its rotation corresponds to the rotation of the manipulator of the control unit, and the event indicator shows the labels 7 of events recorded by the camera that require attention from the operator.

The device operates as follows.

The operator monitors the situation at the guarded object by real-time viewing of video data and videos transferred to the archive, for example, while watching a slow-motion image. To navigate the video data are used, for example, the recording time indicator of the current frame or group of frames (timeline) and the scroll wheel (Figure 2).

The scroll wheel is the operator’s main tool for controlling the supported operating modes when viewing video data. In this case, all information about the current viewing mode is reflected in the timeline.

The tools used by the operator are designed to control the viewing of video data. In the absence of the operator’s influence on the scroll wheel, the scroll wheel rotates autonomously, for example, from left to right, demonstrating the shooting process and the current, for example, zone time. A timeline located above the scroll wheel informs the operator of the time display scale, for example, by placing time coordinates on a timeline. Also on the timeline can be located labels or risks corresponding to detected or registered alarming events, risks that require immediate attention by the operator can be colored red, labels of other events can be shown in corresponding colors. The central risk timeline can be painted white. Central risk is designed to conditionally display the time displayed on the screen of the event. The part of the timeline to the right of the central white risks can be colored blue and conditionally can mean future time, to the left the scale is green, conditionally it means the time of recording the archive. Above the timeline are the date and time display fields.

To view archived videos, the operator mainly uses the scroll wheel as a control and the timeline as an element for displaying preliminary information. Also, with the help of an additional manipulator, the operator can select events on the timeline, which provides a quick transition to the corresponding frames. Switching to the archive viewing mode is carried out by pressing the scroll wheel like a regular button. Then on the scroll wheel the inscription “live” (direct playback) will change to “pause”. At this point, the right side of the timeline will begin to turn green. This is due to the stopping of the central risk relative to the passage of time (in the live mode, the central white risk moved with the scale stained green, so the movement is not noticeable).

To start viewing the archive, you must swipe the wheel (scroll it) from left to right. The inscription will change to ">", which means direct playback of the archive at a speed corresponding to the recording speed. The beginning of the viewed record is the moment in time at which the operator switched to the archive viewing mode.

The start time of the video in question is selected by scrolling through the archive in the opposite direction, for orientation the operator needs to use the date and time fields that correspond to the position of the central white risk on the timeline. To search for the start time of a video of interest, you can use the accelerated wheel scroll mode. For example, scroll speeds vary exponentially in accordance with natural units. That is, the visible part of the adjusting wheel, or 180 angular degrees, can correspond, for example, to 1 second, or 1 minute, or 1 hour, or one day, or one month.

After using the scaling, an interesting point in time was found on the scale, the operator can select a part of the archived video for its cyclical playback. For example, pressing the “I ← → I” button provides the ability to select a fragment, and the use of markers sets the boundaries of the fragment. To confirm the selection of the fragment, the button “I ← → I” is pressed again. On the timeline, a time period is formed, painted in gray, which corresponds to the choice of archive video recording. Next, scroll the wheel in the playback speed setting mode (button) “>” and the selected video will begin to play, for example, cyclically.

It should be noted that video recording refers to synchronous video recording for all cameras in a group when there are several cameras. That is, after selecting a fragment for recording one video camera, synchronized playback of recording fragments of other video cameras for a given time interval can be provided, which provides, for example, the possibility of a detailed study of the situation from different angles. Also, when using mobile video cameras, an additional screen showing the sector of view on the terrain of one or more cameras can be used.

Exiting the viewing mode of the selected video can also be done by pressing the “I ← → I” button.

In archive viewing mode, the operator can view the video frame by frame using the scroll wheel. To do this, you must slowly scroll the wheel to the right or left, depending on in which direction you want to view the video - forward or reverse.

The archive viewing mode is exited by double-clicking on the scroll wheel, which is used as a button.

In the case of establishing the real danger of an object whose actions provoked the registration of an alarm event, this object can be visually highlighted by the operator in frames, for example, by framing a frame with a contrasting color. Timeline labels corresponding to the frames on which the indicated object is located can also be highlighted in contrasting colors, mainly red. Also, after a thorough study of the footage, the operator can remove the selection in the absence of danger. The transition from one marked event to another, for viewing, can be made in hopes, for example, by pressing the button “I <” - the previous event or “> I” - the subsequent event. To save the watched or edited video clips, the button 8 can be used, made in the form of a stylized image of a disk.

Claims (10)

1. A video surveillance device comprising at least one video camera configured to convert a video signal into a digital video signal, a digital video signal storage unit, a digital video signal conversion unit into an image sequence on a video monitor screen, characterized in that the device further comprises a manipulator of the control unit conversion unit such that the movement of the manipulator corresponds to a change of images on the screen of the video monitor, and the direction and speed of movement corresponds to the sequence manipulator and the speed change of successive images,
the device comprises an event analyzer that extracts events that require the attention of an operator from a digital video signal and generates a marking signal when an event that requires attention of an operator is highlighted,
an event indicator is additionally introduced into the device such that its movement corresponds to the movement of the manipulator of the control unit, and the event indicator shows marks registered by the camera of events that require attention from the operator. 2. The device according to claim 1, characterized in that the manipulator and the video monitor are made on the same display, while the manipulator is made in the form of a wheel image, and at least on the image of the manipulator there is a screen area that responds to touch, and the reaction signal to touch is used to move the wheel. 3. The device according to claim 1, characterized in that the event analyzer compares sequential frames and generates a marking signal, at a predetermined level of differences of sequential frames. 4. The device according to claim 1, characterized in that the event analyzer is designed to analyze the images presented on the frames and generate a marking signal, when the images are in advance of areas corresponding to predefined criteria. 5. The device according to claim 2, characterized in that the event indicator is made in the form of an image on the display. 6. The device according to claim 5, characterized in that the indicator and the wheel are made in the form of a combined image. 7. The device according to claim 2, characterized in that it introduces an additional control unit, made in the form of a manipulator, the output signal of which is used to control the functions of the device, and the display is configured to display the functions of the device available for controlling the manipulator, and parameters of the specified functions. 8. The device according to claim 1, characterized in that the manipulator is made with the possibility of spontaneous uniform rotation, in the absence of exposure to the operator. 9. The device according to claim 1, further comprising a wheel-shaped manipulator of the control unit of the conversion unit such that the rotation of the manipulator corresponds to a change of images on the video monitor screen, and the direction and speed of rotation of the wheel corresponds to the sequence and speed of successive images. 10. The device according to claim 1, characterized in that it is additionally introduced, made in the form of a wheel, an event indicator such that its rotation corresponds to the rotation of the manipulator of the control unit.

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