JP3991816B2 - Monitoring system and method, program, and recording medium - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a monitoring system and method, a program, and a recording medium applied to a surveillance camera or the like.
[0002]
[Prior art]
Traditionally, monitoring systems are used to monitor a wide range of situations. For example, monitoring systems are used for maritime monitoring, river monitoring, monitoring of on-site monitoring areas, wildlife behavior observation, and the like. This monitoring system uses a video camera with a very large number of pixels in order to capture a wide range of images. For this reason, the price of the system is increased, and there is a problem in terms of cost.
[0003]
On the other hand, it has been proposed to capture a still image while sequentially shifting the shooting range of the camera, and generate a range of images to be monitored by connecting a number of still images. In this case, a connected image generated by connecting a large number of still images can be an extremely high resolution image. Therefore, when obtaining a magnified image of a part of the connected image, the resolution of the magnified image itself is high, and a clear image can be obtained even in the magnified image.
[0004]
Since it is necessary to widen the monitoring range, the movable range of the camera is set to an extremely wide range such as 180 °, 360 °, and the like. The shooting direction of the camera is switched over this wide range, a still image is acquired in each shooting direction, and a panoramic connection image is formed.
[0005]
When the shooting range is set wide, the number of still images constituting a wide range of connected images increases, which causes a problem that the time for acquiring images becomes longer and the cycle for acquiring connected images becomes longer. In many cases, the area to be actually monitored is a limited range.
[0006]
Therefore, in Japanese Patent Application No. 2002-130761, the applicant cuts out a wide area for each angle of view, captures the image of the angle of view that has been cut out with a normal image sensor, and combines the captured images to achieve high definition. A system capable of obtaining a wide range of images has been proposed.
[0007]
[Problems to be solved by the invention]
However, even with this system, the mechanism for actually determining the area to be monitored had to be moved by moving the camera, shooting live video, and checking the shot video. Also, there has been no method of notifying the user of the relationship between the image captureable range and the shooting range at a glance.
[0008]
SUMMARY OF THE INVENTION Therefore, an object of the present invention is to provide a monitoring system and method capable of confirming in advance the image in the shooting range, and further informing the user of the relationship between the image capturing range and the shooting range at a glance. It is to provide a program and a recording medium.
[0009]
[Means for Solving the Problems]
In order to solve the above-described problem, the present invention includes an imaging unit attached to an imaging direction variable unit that varies the imaging direction;
An accumulation unit for accumulating image data photographed by the imaging unit;
In the maximum movable range of the imaging direction variable unit, an original image composed of a plurality of still images captured in each imaging direction or a compressed image obtained by compressing the original image is stored in the storage unit, and the stored original image or compressed image is stored in the storage unit. Furthermore, a movable range image display for displaying an image composed of a movable range image generated by compression and a superimposed aim for recognizing the position of a panoramic overall image that is a partial area in the movable range image. And
The imaging direction variable unit is controlled so as to capture an image of the panoramic whole image range selected based on the aim in the movable range image display unit, and includes a plurality of still images captured in each imaging direction. An entire image display unit that accumulates an original image or a compressed image obtained by compressing the original image in a storage unit, and displays a panoramic overall image formed by further compressing the accumulated original image or the compressed image;
A selected image display unit that selects a part of the entire image and displays a selected image corresponding to the selected position;
A control unit that controls generation and display of the movable range image, the entire image, and the selected image;
The movable range image display unit, the entire image display unit and the selected image display unit are configured in different areas of the display means,
Accumulate the image data of the whole image selected based on the aim while selecting the whole image range based on the aim and until the whole image is selected by aiming and the whole image starts to be captured. The monitoring system is characterized in that it is read out from the display unit and displayed on the entire image display unit.
[0010]
The present invention stores, in the storage unit, an original image composed of a plurality of still images captured by the imaging unit in each imaging direction or a compressed image obtained by compressing the original image in the maximum movable range of the imaging direction variable unit;
From the movable range image generated by further compressing the accumulated original image or compressed image, and the aiming superimposed to recognize the position of the entire panoramic image that is a partial area in the movable range image A movable range image display step for displaying an image,
An imaging direction variable unit is controlled so as to capture an image of a panoramic whole image range selected based on the aim, and an original image or an original image composed of a plurality of still images captured in each imaging direction is obtained. Storing compressed compressed images in the storage unit;
A whole image display step for displaying a panoramic whole image consisting of an image generated by further compressing the accumulated original image or compressed image;
A selected image display step of selecting a partial area in the entire image and displaying a selected image corresponding to the selected position;
The movable range image, the entire image, and the selected image are configured in different areas of the display area,
Accumulate the image data of the whole image selected based on the aim while selecting the whole image range based on the aim and until the whole image is selected by aiming and the whole image starts to be captured. The monitoring method is characterized in that the data is read from the display unit and displayed on the entire image display unit.
[0011]
The present invention stores, in the storage unit, an original image composed of a plurality of still images captured by the imaging unit in each imaging direction or a compressed image obtained by compressing the original image in the maximum movable range of the imaging direction variable unit;
From the movable range image generated by further compressing the accumulated original image or compressed image, and the aiming superimposed to recognize the position of the entire panoramic image that is a partial area in the movable range image A movable range image display step for displaying an image,
An imaging direction variable unit is controlled so as to capture an image of a panoramic whole image range selected based on the aim, and an original image or an original image composed of a plurality of still images captured in each imaging direction is obtained. Storing compressed compressed images in the storage unit;
A whole image display step for displaying a panoramic whole image consisting of an image generated by further compressing the accumulated original image or compressed image;
A selected image display step of selecting a partial area in the entire image and displaying a selected image corresponding to the selected position;
The movable range image, the entire image, and the selected image are configured in different areas of the display area,
Accumulate the image data of the whole image selected based on the aim while selecting the whole image range based on the aim and until the whole image is selected by aiming and the whole image starts to be captured. This is a program for causing a computer to execute a monitoring method that is read from the unit and displayed on the entire image display unit.
[0012]
The present invention stores, in the storage unit, an original image composed of a plurality of still images captured by the imaging unit in each imaging direction or a compressed image obtained by compressing the original image in the maximum movable range of the imaging direction variable unit;
From the movable range image generated by further compressing the accumulated original image or compressed image, and the aiming superimposed to recognize the position of the entire panoramic image that is a partial area in the movable range image A movable range image display step for displaying an image,
An imaging direction variable unit is controlled so as to capture an image of a panoramic whole image range selected based on the aim, and an original image or an original image composed of a plurality of still images captured in each imaging direction is obtained. Storing compressed compressed images in the storage unit;
A whole image display step for displaying a panoramic whole image consisting of an image generated by further compressing the accumulated original image or compressed image;
A selected image display step of selecting a partial area in the entire image and displaying a selected image corresponding to the selected position;
The movable range image, the entire image, and the selected image are configured in different areas of the display area,
Accumulate the image data of the whole image selected based on the aim while selecting the whole image range based on the aim and until the whole image is selected by aiming and the whole image starts to be captured. A computer-readable recording medium having recorded thereon a program for causing a computer to execute a monitoring method of reading out from the unit and displaying it on the entire image display unit.
[0017]
Thus, since the movable range image when the imaging unit is moved over the maximum movable range is displayed, it is possible to easily set the shooting direction for obtaining an image in a desired range, and to improve operability. Can do.
[0018]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of the present invention will be described with reference to the drawings. FIG. 1 shows a schematic configuration of an embodiment of the present invention. The computer 1 to which the display 2 is connected controls the camera unit 3. The example of FIG. 1 is an example of a system in which one computer 1 controls two camera units 3 and another computer 1 ′ having a display 2 ′ controls other camera units 3 ′. One computer can control a plurality of camera units.
[0019]
The camera unit 3 has a pantilter unit 4 and a camera unit 5 integrally formed. The camera unit 3 is installed so that a far target area can be photographed. As an example, the camera unit 5 includes a telephoto lens having a magnification of 10 times, 70 times, or the like, and can photograph a place away from several tens of meters to several kilometers.
[0020]
The camera unit 5 is, for example, a digital still camera capable of turning on a shutter in synchronization with an external trigger, and its imaging element, for example, a CCD (Charge Coupled Device) has VGA (Video Graphics Array, 640 × 480 pixels), XGA (XGA). eXtended Graphics Array, 1024 × 768 pixels) and SXGA (Super eXtended Graphics Array, 1280 × 1024 pixels). In the case of a VGA image sensor, image data is output at a rate of 30 fps (frame / second). In the case of an XGA image sensor, image data is output at a rate of 15 fps (frame / second). In this case, image data is output at a rate of 7.5 fps (frame / second).
[0021]
Video data is transmitted from the camera unit 3 to the computer 1 via the bus 6. The bus 6 transmits a video data transmission path and a control signal of the camera unit 3. The configuration described above is the same for the computer 1 ′ and the camera unit 3 ′.
[0022]
In the computers 1 and 1 ′, video data from the camera units 3 and 3 ′ are stored in a memory, and as will be described later, an operation GUI (Graphical User Interface) is configured, and an image of a desired target area is displayed by the user. The camera unit 3, 3 ′ can be controlled so that the camera unit 3, 3 ′ can shoot. The captured image is compressed by compression encoding, for example, JPEG (Joint Photographic Experts Group).
[0023]
The computers 1 and 1 ′ are connected to each other by a LAN (Local Area Network) 7. Another computer 8 is connected to the LAN 7. Reference numeral 9 is a display of the computer 8. The computer 8 receives image data and the like from the computers 1 and 1 ′ via the LAN 7, accumulates video data in the archive 10, and further processes the image data. For example, processing such as face recognition, baggage recognition, environment recognition, car recognition, etc. is performed using video data. The archive 10 can store a large amount of data such as a tape streamer.
[0024]
FIG. 2 shows a more detailed configuration of the computer 1 and the camera unit 3 in the monitoring system described above. In the example of FIG. 2, camera unit and computer components are connected to a common controller bus 21 indicated by reference numeral 21.
[0025]
The pantilter unit includes a pan unit 4a and a tilt unit 4b. Each of the pan unit 4 a and the tilt unit 4 b has, for example, a stepping motor as a drive source, and pans or tilts the camera unit according to a control signal supplied from the controller CPU 33 via the controller bus 21. A camera unit is placed on the pantilta unit. Here, pan means to rotate the camera in the horizontal direction, and tilt means to rotate the camera in the vertical direction. As an example, the maximum value of the pan angle is 180 °, and the maximum value of the tilt angle is 90 °.
[0026]
As will be described later, the camera unit is moved within a range of tilt angle = ± 45 ° and pan angle = ± 90 ° within the maximum movement range of the camera unit. Each time the imaging center is moved by the angle of view, the shutter is turned on, and for example, a 1/60 second or 1/30 second still image (hereinafter referred to as “frame” as appropriate) is taken. That is, a moving image is shot by the camera unit, and the shot moving image is supplied to the subsequent stage as one still image of 1/60 second or 1/30 second.
[0027]
A total of (M × N = 8 × 16 = 128) frames of M (for example, 8) in the vertical direction and N (for example, 16) in the horizontal direction are sequentially photographed, and these frames are compressed and connected. To form one whole image. Each frame is, for example, an XGA (1024 × 768 pixels) image. Therefore, the 128 frames form an image of about 100 million pixels (horizontal direction is 1024 × 16 = 16,384 pixels and vertical direction is 768 × 8 = 6,144 pixels) when the overlapping portion is ignored. It takes about 5 seconds to shoot 128 frames. The overlapping portion is, for example, 16 pixels vertically and horizontally.
[0028]
The camera unit is configured as a digital still camera and includes a lens unit 22, a focus / zoom / iris control unit 23, and an imaging unit 24. The focus / zoom / iris control unit 23 is controlled by a control signal supplied from the controller CPU 33 via the controller bus 21. The imaging unit 24 includes a solid-state imaging device such as a CCD and a camera signal processing circuit. A digital video signal from the imaging unit 24 is written into the buffer memory 26 via an interface 25 of IEEE (Institute of Electrical and Electronics Engineers) 1394.
[0029]
The output data of the buffer memory 26 is supplied to the JPEG encoder / metadata adding unit 27, and the image data is converted into JPEG data. JPEG is one of the compression methods, and other compression methods may be used or not compressed.
[0030]
The camera unit 3 is provided with a GPS (Global Positioning System) 28 for detecting its position. By providing the GPS 28, it is possible to record the data of the installation location of the camera, detect the direction of the camera, and control the directions of the plurality of cameras in conjunction with each other. The GPS 28 is controlled by a control signal supplied from the controller CPU 33 via the controller bus 21.
[0031]
An output signal of the GPS 28 is supplied to the metadata generation unit 29, and position information (information such as latitude / longitude, azimuth, altitude, etc.) and metadata (time, camera unit parameters (magnification, focus value) based on the positioning result of the GPS 28 are supplied. , Information such as iris value). The position information and metadata are supplied to the JPEG encoder / metadata adding unit 27, and the position information and metadata are added to the JPEG data.
[0032]
JPEG data to which metadata and position information are added is stored in a main memory 30 such as a hard disk, and is supplied to the graphic controller 31 and the image compression unit 32. In this specification, accumulation in the main memory 30 is called recording, and reading data from the main memory 30 is called reproduction. In addition, displaying an image that is currently being captured without going through the main memory 30 is referred to as a live mode, and displaying data recorded in the past from the main memory 30 and displaying it is referred to as a view mode.
[0033]
The main memory 30 has a function as a server. For example, as a result of compressing an XGA image by JPEG, the data amount of one frame is 100 kbytes, and the data amount of 12.5 Mbytes is 128 images. If the main memory 30 has a capacity of about 80 Gbytes, JPEG data for one day can be stored. In the view mode, it is possible to reproduce older data stored not only in the main memory 30 but also in a storage device such as an archive.
[0034]
JPEG data read from the main memory 30 is supplied to the graphic controller 31. The image compression unit 32 generates a compressed image or a thumbnail (reduced image) from the JPEG data from the JPEG encoder / metadata adding unit 27 or the JPEG data read from the main memory 30. For example, a panoramic overall image is formed by thinning out the vertical direction and the horizontal direction. The image compression unit 32 also performs compression processing for forming a movable range image, which will be described later. As described above, in the case of XGA, a panoramic overall image such as (400 × 1000 pixels) is formed by processing the data of about 100 million pixels by JPEG compression and the image compression unit 32. The movable range image is also a thumbnail, but is a coarser image than the entire image.
[0035]
The graphic controller 31 converts JPEG data into bitmap data, and performs graphics processing so that a desired image is displayed on the screen of the display 2. In other words, movable range image display, whole image display, selected image display, GUI display such as buttons, etc. are made on the screen of the display 2. Details of the display will be described later.
[0036]
The graphic controller 31 performs image processing and detects image changes. An image change is a change that occurs with respect to a reference image. For example, in the view mode, a comparison with a previously stored reference image is made and an image change is detected. An image at a predetermined time on the previous day is set as a reference image, a pixel difference between an image accumulated thereafter and the reference image is detected, and a change occurs when the absolute value of the pixel difference is equal to or greater than a predetermined value. Detect with things. As the detection of the difference, a method of calculating a difference value between pixels at the same position for each frame at the same spatial position between the image to be compared and the reference image can be used. Instead of detecting the difference for all the pixels, the difference may be calculated for the representative pixel or the thinned pixel. Further, by limiting the predetermined color, it is also possible to perform change detection focusing on an object of a predetermined color.
[0037]
When a change is detected, an alarm, for example, a frame in which a change is detected is displayed on the display 2 so that it can be distinguished from other frames. Specifically, the alarm can be displayed by a method such as luminance change, color change, blinking or the like. As the reference image, a predetermined image can be arbitrarily selected from the stored images.
[0038]
As described above, the controller CPU 33 connected to the controller bus 21 performs lens control (for example, focus) of the camera unit, exposure control (for example, aperture, gain, electronic shutter speed, etc.), white balance control, image quality control, and the like. And the pan part 4a and the tilt part 4b are controlled.
[0039]
Reference numeral 34 is an I / O port. A keyboard 35 and a mouse 36 are connected to the I / O port 34, and a memory card 37 and a clock 38 are connected to the I / O port 34. JPEG data to which position information and metadata stored in the main memory 30 are added can be written to the memory card 37. Time data is obtained from the clock 38.
[0040]
In FIG. 2, each component is connected to the controller bus 21. However, the camera unit and the computer may be installed at a remote location, and both may be connected by IEEE 1394, USB, or the like. In this case, an optical fiber is used as the physical transmission line. If an optical fiber is used, the camera unit and the control computer can be arranged apart from each other by several hundred meters to several kilometers. Furthermore, you may connect both by wireless LAN.
[0041]
FIG. 3 shows an example of a GUI screen according to an embodiment of the present invention. The display unit, operation buttons, display area, and the like provided on the GUI screen according to an embodiment of the present invention will be described below with reference to FIG. A movable range image display unit 101, an entire image display unit 102, and a selected image display unit 103 are arranged on one screen.
[0042]
A movable range image is displayed on the movable range image display unit 101. The movable range image is an image indicating the maximum range that can be captured by the camera unit, and is composed of a plurality of frames. Therefore, in this embodiment, a panoramic image is obtained as shown in the figure. As described above, the maximum value of the pan angle is 180 ° and the maximum value of the tilt angle is 90 °, and a movable range image is generated from a plurality of frames shot in this maximum movable range. The movable range image display unit 101 incorporates position information added to a plurality of configured frames.
[0043]
Then, when an MRP (Movable Range Picture) display button 130, which will be described later, is clicked, or when a camera unit is installed and shooting starts, the camera unit is moved over the maximum movable range, and is composed of a plurality of frames obtained as a result. A thumbnail obtained by thinning pixels in the vertical direction and the horizontal direction with respect to the image to be displayed is used as the movable range image. Further, all the frames constituting the movable range image may be taken at a predetermined time interval, and stored and / or displayed.
[0044]
The movable range image display unit 101 shows an entire image display frame 101a (line of sight) for recognizing the range displayed on the entire image display unit 102. By moving the whole image display frame 101a with the mouse 36, a desired range in the movable range image can be instructed, and the camera unit can be controlled to image the instructed range. That is, (M × N) frames (still images) are captured, stored, and / or displayed within the designated range.
[0045]
The entire image display frame 101a is an example, and the range displayed on the entire image display unit 102 in various shapes may be displayed on the movable range image display unit 101. Specifically, as shown in FIG. 4A, the four sides of the range displayed on the whole image display unit 102 may be shown, or as shown in FIG. 4B, displayed on the whole image display unit 102. The four corners of the range may be shown, or as shown in FIG. 4C, the four corners and the center of the range displayed on the entire image display unit 102 may be shown.
[0046]
The size of the entire image display frame 101a is, for example, the size of (8 × 16) frames displayed on the movable range image display unit 101, and is selected by a REC MODE selection menu 118 described later. The size is in accordance with the image size of the recording mode. Accordingly, the size may be (4 × 8) frames as described later, or may be the size of (2 × 4) frames. The size of one frame depends on the magnification of the lens unit 22.
[0047]
When the entire image display frame 101a is moved, as an example, after selecting the frame that becomes the center of the entire image display frame 101a with the mouse 36, the entire image display frame 101a is displayed so that the selected frame becomes the center. In addition, the entire image display frame 101a may be moved in conjunction with the movement of the mouse 36, the upper left frame of the entire image display frame 101a, for example, or the two upper left and lower right frames. May be selected with the mouse 36. In this way, the camera unit is controlled to capture the range corresponding to the entire image display frame 101a whose position has been moved, and the optical axis of the camera unit is directed.
[0048]
The whole image display unit 102 displays a panoramic whole image. The whole image is an image obtained by compressing the JPEG data corresponding to the photographed original image by the image compression unit 32. Monitoring can be performed by viewing the displayed whole image. Furthermore, as described above, when an image change is detected, an alarm is generated in which the frame in which the change is detected in the entire image displayed on the entire image display unit 102 is displayed differently from the other frames.
[0049]
A selected image is displayed on the selected image display unit 103. The selected image is an image obtained by enlarging a part of the entire image. For example, a frame at a position indicated in the entire image is displayed as a selected image. It can be enlarged by displaying one frame of original image which is not compressed. Furthermore, the image can be enlarged by digital signal processing.
[0050]
The EXIT button 104 is a button for turning off the power of the monitoring system. The camera system OFF button 105 is a button for turning off the power of the camera unit.
[0051]
The VIEW MODE button 106 is a button for switching the mode of the monitoring system to the view mode. The view mode is a mode for displaying the whole image and the partial image based on the image data stored in the memory 30 or another server.
[0052]
The LIVE MODE button 107 is a button for switching the mode of the monitoring system to the live mode. The live mode is a mode in which an entire image and a partial image are displayed based on a frame that is currently captured by the camera unit.
[0053]
The Compas display area 108 is an area for displaying a compass indicating the direction in which the optical axis of the lens of the camera unit is directed. The GPS Data display area 109 is an area for displaying the latitude, lightness and altitude of the place where the camera unit is installed, and the shooting date and time. The data displayed in the areas 108 and 109 is data measured by the GPS 28 provided in the camera unit.
[0054]
The view offset button 110 is a button for adjusting the position of the selected frame. The view offset button 110 is used to move one frame selected by the pointer in the entire image displayed on the entire image display unit 102 in the upward, downward, leftward, and rightward directions. is there. A plurality of frames constituting the entire image are displayed overlapping with adjacent frames by a predetermined number of pixels, for example, 16 pixels vertically and horizontally. By moving the frame within the range of this overlapping portion, it is possible to achieve consistency with adjacent frames and to make the display state smooth.
[0055]
The mode display area 129 is an area for displaying mode information, alarm information, error information, and the like. The mode information is information for notifying the user of the mode of the monitoring system, and specifically, information such as a live mode and a view mode. The alarm information is information for prompting the user to give a warning, and is displayed, for example, when the above-described view offset button 110 reaches a limit at which a frame can be moved. The error information is information for notifying the user of an error occurring in the monitoring system.
[0056]
The Camera Control unit 111 includes a ZOOM button 112, a FOCUS button 113, an IRIS button 114, a Camera Configuration button 115, and a White Balance button 116. The ZOOM button 112 is a button for adjusting the zoom of the camera unit. The FOCUS button 113 is a button for adjusting the focus of the camera unit. The IRIS button 114 is a button for adjusting the iris of the camera unit. The Camera Configuration button 115 is a button for adjusting the γ characteristic, shutter speed, gain characteristic, and the like of the camera unit. The white balance button 116 is a button for adjusting the white balance of the camera unit. Note that when the camera system is in the view mode, the display of the Camera Control unit 111 may be omitted.
[0057]
The SELECT button 117 is a button for displaying a select screen in the view mode. The select screen is an image for specifying a region desired to be reproduced and recorded by a frame constituting the entire image.
[0058]
FIG. 5 shows an example of the select screen. As shown in FIG. 5, the select screen includes a close button 151, a screen display unit 152, and a close button 153. The close buttons 151 and 153 are clicked when the select screen is closed. In the screen display unit 152, a grid-like display indicating frame boundaries is superimposed on the entire image. In the screen display unit 152, for example, when a frame at a desired position is indicated by a pointer, the frame is selected and the brightness, resolution, contrast, etc. of the indicated frame are displayed in order to display the selection. Changes.
[0059]
The REC MODE selection menu 118 is a pull-down menu for selecting a recording mode. In this pull-down menu, a recording mode in which an image size to be recorded and a recording method (RUN or SINGLE) are combined is displayed. The image size is selected from among the whole image composed of (8 × 16) frames, the partial image composed of selected (4 × 8) frames of the whole image, and the whole image. Any of the partial images made up of (2 × 4) frames that have been made is possible. The partial image is the position selected from the select screen. RUN of the recording method is a method of recording a captured image generated at a predetermined cycle (for example, a cycle of 5 seconds), and SINGLE is a method of recording only once. A combination of these can be selected as the recording mode.
[0060]
The Stage Config (Stage Configuration) button 119 is a button for finely adjusting the accuracy of moving the stage. The message area 120 is an area for displaying the connection status between the control computer and the camera unit and the control status of the stage of the camera unit. When the control computer and the camera unit are connected, "IMAGE SERVER CONNECT" is displayed in the message area as shown in FIG. If the stage of the camera unit is in a controllable state, “STAGE CONTROL ACTIVE” is displayed in the message area.
[0061]
The REC button 121 is a button for starting image recording. When this button is pressed, recording corresponding to the recording mode selected in the REC mode menu is started. Specifically, RUN (8 × 16), RUN (4 × 8), RUN (2 × 4), SELECT SINGLE RUN (8 × 16), SELECTING SINGLE RUN (4 × 8), SELECT SINGLE RUN (2 × 4) ) And the like, the recording corresponding to the mode selected from the mode is started.
[0062]
The PLAY button 122 is a button for reproducing the image data stored in the server (main memory 30). Specifically, when the PLAY button 122 is pressed, an accumulated data display screen is displayed. On this accumulated data display screen, information for identifying the accumulated image data is displayed. This information is based on information described in a direction file described later.
[0063]
FIG. 6 shows an example of a recording data display screen. As shown in FIG. 6, the record data display screen includes a minimize button 161, a maximize button 162, a close button 163, a date designation field 164, a time designation field 165, an accumulated data display field 166, and a latest accumulated data display field. 167, an OK button 168, a cancel button 169, and a storage unit change check button 170 are displayed.
[0064]
The minimize button 161 is a button that is clicked when the accumulated data display screen is minimized, for example, when an icon is used. The maximize button 162 is a button that is clicked when the accumulated data display screen is maximized and displayed using the entire display range of the monitor. The close button 163 is a button that is clicked when the stored data display screen is closed.
[0065]
In the date designation field 164, the date of stored data to be displayed on the entire image display unit 102 is designated. For example, by clicking a button 164a provided at the right end of the date designation field 164, the date of the stored data that can be displayed may be displayed in a pull-down menu format and selected from the displayed dates.
[0066]
In the time designation field 165, the time of stored data to be displayed on the entire image display unit 102 is designated. For example, by clicking a button 165a provided at the right end of the time designation field 165, the time of the stored data that can be displayed may be displayed in a pull-down menu format, and it may be selected from the displayed times.
[0067]
The accumulated data display field 166 displays the accumulated data of the date and time designated in the date designation field 164 and the time designation field 165 from the accumulation unit. The latest accumulated data display field 167 displays the latest accumulated data from the accumulated data accumulated in the accumulation unit. Further, the latest accumulated data may be displayed from the accumulated data in the date and time designated in the date designation field 164 and the time designation field 165.
[0068]
The OK button 168 is a button that is clicked when desired accumulated data is designated. A cancel button 169 is a button that is clicked when the stored data display screen is closed. The storage unit change check button 170 is a check button for inputting a check when the storage data reading destination is changed from the storage unit to, for example, a detachable semiconductor memory.
[0069]
Returning to FIG. 3, the STOP button 123 is a button for stopping the recording or reproducing operation. The STOP button 123 may be displayed when the REC button 121 or the PLAY button 122 is pressed.
[0070]
The Set Camera Center POS (Set Camera Center POSITION) button 125 is a button for designating the direction in which the camera unit is currently facing as the center of an (8 × 16) image.
[0071]
The HOME button 124 is a button for controlling the camera unit and directing the optical axis of the lens of the camera unit to the home position. The home position is a position where the camera unit faces the leftmost position. The LIVE / VIEW POSITION button 126 is a button for panning or tilting the camera unit.
[0072]
The ZOOM buttons 127 a and 127 b are buttons for enlarging and reducing the selected image displayed on the selected image display unit 103. The MAX VIEW button 128 is a button for enlarging and displaying the selected image on another screen, for example, the entire image display unit 102.
[0073]
The MRP display button 130 is a button that is clicked when a plurality of frames displayed on the movable range image display unit 101 are captured, stored, and / or displayed. That is, when the MRP display button 130 is clicked, the entire range that can be captured by the camera unit is captured in units of frames, and all frames are assembled based on the position information of the camera unit that each captured frame has. And displayed on the movable range image display unit 101 as a movable range image.
[0074]
Here, the movable range image display unit 101 according to the embodiment of the present invention will be described with reference to FIG. The movable range image displayed on the movable range image display unit 101 moves the camera unit over the maximum movable range when the MRP display button 130 is clicked as described above, or when a camera unit is installed and shooting starts. Filmed in frame units. As shown in FIG. 7, thumbnails obtained by thinning out pixels in the vertical direction and the horizontal direction are gathered based on the position information of the camera unit with respect to an image composed of a plurality of frames obtained as a result of the shooting. Range image).
[0075]
At this time, since the position information of the camera unit added to each frame is associated with the coordinates in the movable range image display unit 101 in advance, all the frames in the movable range are based on the position information of the camera unit. The movable range image can be generated by arranging and assembling to the associated coordinates. In the example of FIG. 7, a movable range image having a wide range of 180 ° in the pan direction and 90 ° in the tilt direction is generated and displayed on the movable range image display unit 101.
[0076]
Each frame on the movable range image display unit 101 includes elevation angle data indicating a position on the movable range of the camera unit from the pan unit 4a and the tilt unit 4b, and positional information and metadata measured by the GPS 28. That is, when a movable range image having position information is used as a GUI and an arbitrary range is selected in the entire image display frame 101a using the mouse 36, the selected range image is selected based on the position information of the selected entire image display frame 101a. It is possible to obtain the position information of the camera unit within a certain range.
[0077]
Thus, a detailed position can be selected by using a movable range image obtained by collecting a plurality of frames displayed on the movable range image display unit 101 as a GUI.
[0078]
In this embodiment, the position information and metadata of the camera unit are added to each of a plurality of frames assembled in the movable range image. Since the coordinates are associated in advance, the position information of the camera unit may be obtained from the coordinates of the movable range image display unit 101.
[0079]
In this embodiment, it is assumed that the position information of the camera unit added to each captured frame is associated with the coordinates in the movable range image display unit 101 in advance. The same effect can be obtained even if the pixel position is associated with the display unit 101.
[0080]
In this embodiment, an arbitrary range is selected using the mouse 36 in the entire image display frame 101a, and the position information of the camera unit in the selected range is obtained. The position information of the entire image display frame 101a may be obtained from the position information on the GUI of the center of the frame 101a.
[0081]
The operation of the embodiment of the movable range image display unit 101 and the entire image display frame 101a according to the present invention will be described. The MRP display button 130 displayed on the display 2 is clicked with the mouse 36. When the MRP display button 130 is clicked, the controller CPU 33 controls the pan unit 4a and the tilt unit 4b to move the camera unit for each frame so as to capture the entire movable range.
[0082]
Then, the image capturing unit 24 is captured at each determined frame position, and the captured image is temporarily stored in the buffer memory 26, and the JPEG encoder / metadata adding unit 27 performs image compression in the JPEG format. At this time, position information and metadata from the GPS 28 and elevation angle data indicating the positions of the pan unit 4a and the tilt unit 4b are added to the respective frames. The frame to which these data are added is stored in the main memory 30.
[0083]
Further, the frame photographed at the same time is compressed by the image compression unit 32 to a size suitable for the movable range image. The compressed image is displayed at a predetermined position on the movable range image display unit 101 on the display 2 via the graphic controller 31.
[0084]
By moving the mouse 36 onto the movable range image display unit 101, the position of the entire image display frame 101a is moved. Then, position information, metadata, and elevation angle data added to the frame at the position clicked with the mouse 36 are read.
[0085]
A frame in the range of the entire image that matches the read position information and elevation angle data is read from the main memory 30. The read frame is compressed by the image compression unit 32 to a size suitable for the entire image. The compressed image is displayed at a predetermined position on the entire image display unit 102 on the display 2 via the graphic controller 31. At the same time, the pan unit 4a and the tilt unit 4b are driven based on the read frame position information and elevation angle data, and the direction of the camera unit is controlled and photographed.
[0086]
Next, an example of a method for creating an entire image according to an embodiment of the present invention will be described with reference to FIG. As shown in FIG. 8, in the camera unit 3, the camera unit 5 is installed on the pan head of the pantilter unit 4, and the imaging direction is changed from the home position. In FIG. 8, the (M × N) frames taken are viewed from the camera unit side, and numbers 1, 2,... Numbers 1, 2,..., N are assigned in order from the left. For example, the home position is a position where a frame having a coordinate of (1, 1) is photographed.
[0087]
When the frame at the coordinate position (1, 1) is photographed, the camera unit 3 is tilted downward, and the frame at the coordinate position (2, 1) is photographed. , The frame at the coordinate position (M, 1) is photographed, and then the frame at the top coordinate position (1, 2) in the second column is photographed. Hereinafter, each frame is photographed up to the frame at the coordinate position (M, N). As described above, each frame has an overlap portion of 16 pixels with other frames. Each photographed frame is subjected to processing such as compression by JPEG and storage in the main memory 30.
[0088]
As described above, when each frame is, for example, an XGA (1024 × 768 pixel) image, an image consisting of 128 frames is ignored if the overlapping portion is ignored (the horizontal direction is 1024 × 16 = 16,384 pixels and the vertical direction Is an image of about 100 million pixels of 768 × 8 = 6,144 pixels). The entire image display unit 102 described above displays a compressed image or a thumbnail image formed from this image, and the selected image display unit 103 displays, for example, one frame of an XGA image. Therefore, the selected image display unit 103 can display an image with extremely high resolution, and an unclear image can be displayed as a clear image in the selected image.
[0089]
FIG. 9 shows a range that can be captured in one frame when a 75 × telephoto lens is provided in the camera unit. When shooting a subject at a distance of 100 m from the camera unit, a range of 8.7 m in length and 1.17 m in width can be shot in one frame. For example, when XGA is used as the image sensor of the camera unit, a range of 0.87 cm x 1.17 cm can be represented by about one pixel.
[0090]
When shooting a subject at a distance of 200 m from the camera unit, a range of 1.74 m x 2.34 m can be shot in one frame. For example, when XGA is used as the image sensor of the camera unit, a range of 1.74 cm in length × 2.34 cm in width of the subject can be represented by one pixel.
[0091]
When shooting a subject at a distance of 500 m from the camera unit, a range of 4.36 m long by 5.84 m wide can be shot in one frame. For example, when XGA is used as the image sensor of the camera unit, a range of 4.36 cm long by 5.84 cm wide can be represented by one pixel.
[0092]
A data management method in the case where image data acquired with reference to FIG. 10 is stored in the archive 10, the main memory 30, etc. will be described. As described above, images of (M × N) frames are taken at a predetermined time interval, compressed, and stored. As shown in FIG. 10A, the position of each frame is defined by M rows and N columns. For example, the position address of (1, 1) specifies the uppermost frame at the right end. Each frame has this position address and time information at the time of recording as a file name. The time information is composed of year / month / day / hour / minute / second. Therefore, the file name of each frame is (year / month / day / hour / minute / second, position address).
[0093]
Furthermore, as shown in FIG. 10B, a direction file is defined corresponding to the formation of one overall image with (M × N) frames. The direction file has the same data as the file name of the frame having the position address of (1, 1) (that is, year / month / day / hour / minute / second, position address), so that a set of the (M × N) frames. Define Further, the direction file has position information and metadata for the set of frames. The position information and metadata are generated by the metadata generation unit 29. That is, the direction file has position information such as latitude / longitude, azimuth, altitude, and metadata information such as camera unit parameters (magnification, focus value, iris value, etc.).
[0094]
The present invention is not limited to the above-described embodiment of the present invention, and various modifications and applications can be made without departing from the gist of the present invention. For example, the above-described embodiment is an example in which one movable range image is used, but a plurality of movable range images may be provided.
[0095]
In this embodiment, when a desired range is selected by moving the entire image display frame 101a on the movable range image display unit 101, a plurality of frames in the selected range are captured, and the entire image display unit Although it is displayed on the display 102, it is also possible to read the already recorded frame from the main memory 30 and display it on the entire image display unit 102 even when the frame is moved.
[0096]
【The invention's effect】
According to the present invention, in a pan tilter device for a camera having a wide range of motion, it is possible to easily display as an information what kind of whole image can be captured within the range of motion. In addition, camera control can be easily performed using the display. Furthermore, a desired position can be selected from the captured whole image, and a detailed selected image at that position can be displayed. Such a three-stage graphical display makes it possible to easily recognize an image at a target position.
[0097]
According to the present invention, even when it is necessary to monitor a wide area, the direction of the camera can be easily adjusted, and a necessary image can be captured without failure.
[Brief description of the drawings]
FIG. 1 is a block diagram schematically showing a monitoring system according to an embodiment of the present invention.
FIG. 2 is a block diagram of an embodiment of the present invention.
FIG. 3 is a schematic diagram for explaining an example of a screen display according to the embodiment of the present invention.
FIG. 4 is a schematic diagram for explaining an example of an entire image display frame in one embodiment of the present invention.
FIG. 5 is a schematic diagram illustrating an example of a select screen according to an embodiment of the present invention.
FIG. 6 is a schematic diagram for explaining an example of a stored data display screen during reproduction according to an embodiment of the present invention.
FIG. 7 is a schematic diagram for explaining an example of a movable range image display unit in one embodiment of the present invention.
FIG. 8 is a schematic diagram for illustrating a photographing operation and an image obtaining operation in one embodiment of the present invention.
FIG. 9 is a schematic diagram for explaining a distance to a subject, a photographing range, and a resolution according to an embodiment of the present invention.
FIG. 10 is a schematic diagram for explaining a management method of captured images.
[Explanation of symbols]
DESCRIPTION OF SYMBOLS 1 ... Computer, 2 ... Display, 3 ... Camera unit, 4 ... Pantilter part, 5 ... Camera part, 21 ... Controller bus, 24 ... Shooting part, 27 ... JPEG encoder / metadata adding unit, 30 ... main memory, 31 ... graphic controller, 32 ... image compression unit, 33 ... controller CPU, 101 ... movable range image display unit, 102 ..Whole image display section, 103 ... Selected image display section

Claims (4)

An imaging unit attached to an imaging direction variable unit that varies the imaging direction;
An accumulator that accumulates image data captured by the imaging unit;
In the maximum movable range of the imaging direction variable unit, an original image composed of a plurality of still images captured in each imaging direction or a compressed image obtained by compressing the original image is accumulated in the accumulation unit, and the accumulated original image Alternatively, an image composed of a movable range image generated by further compressing the compressed image, and a sighting superimposed for recognizing the position of the entire panoramic image that is a partial area in the movable range image. A movable range image display section to display;
The imaging direction variable unit is controlled to capture an image of a panoramic overall image range selected based on the aim in the movable range image display unit, and a plurality of still images captured in each imaging direction are captured. An original image consisting of an image or a compressed image obtained by compressing the original image is stored in the storage unit, and a panoramic whole image including an image generated by further compressing the stored original image or the compressed image is displayed. A whole image display section to
A selected image display unit for selecting a part of the entire image and displaying a selected image corresponding to the selected position;
A control unit that controls generation and display of the movable range image, the entire image, and the selected image;
The movable range image display unit, the entire image display unit, and the selected image display unit are configured in different areas of the display means,
The range selected based on the aim is selected while the range of the entire image is selected based on the aim, and until the whole image is selected based on the aim and the photographing of the whole image is started. A monitoring system, wherein image data of a whole image is read from the storage unit and displayed on the whole image display unit. Storing in the storage unit an original image composed of a plurality of still images imaged by the imaging unit in each imaging direction or a compressed image obtained by compressing the original image in the maximum movable range of the imaging direction variable unit;
The movable range image generated by further compressing the stored original image or the compressed image and the panoramic overall image that is a partial area in the movable range image are superimposed to recognize the position. A movable range image display step for displaying an image consisting of an aim;
The imaging direction variable unit is controlled so as to capture an image of a panoramic overall image range selected based on the aiming, or an original image consisting of a plurality of still images captured in each imaging direction or the above Storing the compressed image obtained by compressing the original image in the storage unit;
A whole image display step for displaying a panoramic whole image consisting of an image generated by further compressing the stored original image or the compressed image;
A selected image display step of selecting a partial area in the entire image and displaying a selected image corresponding to the selected position;
The movable range image, the entire image, and the selected image are configured in different areas of the display area,
The range selected based on the aim is selected while the range of the entire image is selected based on the aim, and until the whole image is selected based on the aim and the photographing of the whole image is started. A monitoring method, wherein image data of a whole image is read from the storage unit and displayed on the whole image display unit. Storing in the storage unit an original image composed of a plurality of still images imaged by the imaging unit in each imaging direction or a compressed image obtained by compressing the original image in the maximum movable range of the imaging direction variable unit;
The movable range image generated by further compressing the stored original image or the compressed image and the panoramic overall image that is a partial area in the movable range image are superimposed to recognize the position. A movable range image display step for displaying an image consisting of an aim;
The imaging direction variable unit is controlled so as to capture an image of a panoramic overall image range selected based on the aiming, or an original image consisting of a plurality of still images captured in each imaging direction or the above Storing the compressed image obtained by compressing the original image in the storage unit;
A whole image display step for displaying a panoramic whole image consisting of an image generated by further compressing the stored original image or the compressed image;
A selected image display step of selecting a partial area in the entire image and displaying a selected image corresponding to the selected position;
The movable range image, the entire image, and the selected image are configured in different areas of the display area,
The range selected based on the aim is selected while the range of the entire image is selected based on the aim, and until the whole image is selected based on the aim and the photographing of the whole image is started. A program for causing a computer to execute a monitoring method of reading out image data of an entire image from the storage unit and displaying the image data on the entire image display unit. Storing in the storage unit an original image composed of a plurality of still images imaged by the imaging unit in each imaging direction or a compressed image obtained by compressing the original image in the maximum movable range of the imaging direction variable unit;
The movable range image generated by further compressing the stored original image or the compressed image and the panoramic overall image that is a partial area in the movable range image are superimposed to recognize the position. A movable range image display step for displaying an image consisting of an aim;
The imaging direction variable unit is controlled so as to capture an image of a panoramic overall image range selected based on the aiming, or an original image composed of a plurality of still images captured in each imaging direction or the above Storing the compressed image obtained by compressing the original image in the storage unit;
A whole image display step for displaying a panoramic whole image consisting of an image generated by further compressing the stored original image or the compressed image;
A selected image display step of selecting a partial area in the entire image and displaying a selected image corresponding to the selected position;
The movable range image, the entire image, and the selected image are configured in different areas of the display area,
The range selected based on the aim is selected while the range of the entire image is selected based on the aim, and until the whole image is selected based on the aim and the photographing of the whole image is started. A computer-readable recording medium storing a program for causing a computer to execute a monitoring method of reading out image data of an entire image from the storage unit and displaying the image data on the entire image display unit.

Images