DE4212515A1 - AUTOMATIC IRIS DISPLAY ADJUSTMENT - Google Patents

Abstract

In an automatic iris adjusting apparatus a picture is divided into a predetermined number of areas according to the size of an object and the brightness of the background, a video signal level corresponding to a divided area which is selected 24 according to a user's selective key input is averaged 15, and the iris is adjusted 32 by the difference 31 between the average value and a reference level. The automatic iris adjusting apparatus digitally processes luminance signals from a CCD pickup 1, divides it into a predetermined number of areas, selects 24 a specific area among the divided areas and generates horizontal and vertical window pulses. The apparatus comprises a signal switching section 13 for selectively switching a video signal corresponding to the selected divisional area among the picked-up video signals in response to the window pulses. Accordingly, the apparatus averages the selected video signal levels and generates an iris driving signal and compares it with a reference level, thereby controlling the drive of an iris adjustment motor. <IMAGE>

Description

The invention relates to an iris adjustment device to automatically adjust the exposure of an object in Response to the relative brightness between an object and the background and more in detail one Iris adjustment device for automatic adjustment the exposure of an object, in which a photographic Image is divided into several areas so as to be targeted To photograph object with optimized brightness, and at which for iris setting the brightness of the spec fish divided area compared with a reference value becomes.

Generally, in a video integrated into a camera tape recorder (camcorder) or in a film camera or the like an iris according to the brightness of the object automatically set. A conventional picture sensor device such as a video camera with the Function, the exposure in response to one of the image on receiving device automatically control video signal averages the brightness of the entire image, that is of the object plus background (the size of the signal level). When the mean is less than a specific level (that is, the picture is dark), the iris diaphragm opens. When the mean is greater than a specific level (that is, the picture is bright), the iris diaphragm closes.  

Accordingly, the iris is adjusted in response to the average illuminance of the entire image without Consideration of the brightness of the object. That is, the fro conventional image sensor device averages the brightness of the entire image and opens or closes the iris diaphragm the iris aperture value, which is determined by the mean is true. A conventional image sensor device of this Art has the disadvantage that if the background is too is bright compared to the brightness of the object or if the sun is in a picture, the iris is closes, making the object too dark to distinguish is recorded.

There are attempts to solve the above problem. For example to determine the iris setting value, the Hel validity of the section excluding the upper section of the picture averaged when a cloud of high luminance or the sky is photographed in the upper section of the picture which will solve the problem.

It is a method of obtaining an iris setting worth has been proposed in which a signal center value becomes smaller with respect to the upper section of the Image and larger with respect to the lower portion of the bil to calculate the mean.

However, such procedures reduce the brightness of the photographing object is not exactly determined, but is along with most of the background. Accordingly, the object is photographed too dark when the background is relatively too bright or the picture is in the ge light conditions. Even if the background is relative If it is too dark, the iris diaphragm opens; for a long time create light, with the result that the object too is photographed brightly.

One goal to solve the above problems is to create an iris adjustment device for automatic on set the exposure of an object where an entire Image, to which an object belongs, in several areas and is divided according to the size and brightness of the Ob project, among the several subdivided areas Area is selected according to the state of the object and the brightness of the selected specific area as a variable value is used for the iris setting.

Another object of the invention is to create an iris aperture setting device with backlight correction function.

To achieve the above objects of the invention, one Iris adjustment device for automatic adjustment the exposure of an iris in response to one by one Charge memory chip (CCD) video signal created fen which means for dividing an image of the Video signal in several areas, further a Einrich device for determining an area among the divided areas chen, means for optionally delivering a video gnals corresponding to that determined by the determination device matched area under that of the charge storage device received video signals, a device for comparison a brightness value of that supplied by the dispenser led video signal with a predetermined reference value and a device for automatically adjusting the exposure direction of the iris in response to that of the comparison device compared value supplied.

In the following the invention based on one in the drawing shown embodiment described in more detail. In the Show drawing:  

Fig. 1 is a block diagram of an automatic iris adjusting device according to the invention; and

Fig. 2A, 2B and 2C are explanatory diagrams of the types of Fen sterimpulsen of Fensterim shown in Fig. 1 and the pulse generator corresponding thereto image subdivisions.

The preferred embodiment of the automatic iris diaphragm setting device according to the invention shown in FIG. 1 comprises a generator 10 for an iris drive signal, a window pulse generator 20 and an iris setting device 30 .

In Fig. 1, the drive signal generating means 10 includes a sample and hold circuit (S / H) 11 for sampling a video signal which is recorded in a charge storage device (CCD) 1 as an image pickup device and for holding the sampled video signal, a gain control section (GC) 12 for controlling the gain of the sampled and held video signal, a signal circuit 13 for outputting a video signal of an image corresponding to a divided specific area under the gain-controlled signal corresponding to a window pulse, a signal shaping section 14 for shaping a waveform of the video signal of the image corresponding to the divided specific range in response to a clamp signal and a blanking signal and an integrator 15 for obtaining an average of the shaped waveform signal.

Meanwhile, the window pulse generator 20 includes a video processor 21 , which processes and outputs a luminance signal of a video signal which has passed through the sample-and-hold circuit 11 after being picked up by the charge storage device 1 , an analog-to-digital converter 22 , which converts the luminance signal of the video processor 21 into a digital signal, an image area divider 23 , which receives the digitally converted signal and divides a charge-coupled image into several areas, an image area selector 24 , which outputs a signal of a specific area, according to the choice of the user has been selected from the divided areas, and a window pulse generator 25 which generates horizontal and vertical analog window pulses in accordance with the signal of the selected specific area. Here, the Benut actuated button switch (not shown) zer an outer, so that the image region selector 24 outputs the signal corresponding to the image of the specific area among the divided areas from.

The iris setting device 30 includes a comparator 31 which compares an iris driving signal supplied from the driving signal generating device 10 with a reference level, thereby controlling the driving of an iris setting motor 32 in accordance with the output of the comparator 31 . Here, the drive signal generating device 10 and the iris diaphragm setting device 30 are known techniques, except that the signal switching area 13 for selecting a video signal of the divided image corresponding to the window pulse signal of the window pulse generator 25 is formed in the drive signal generating device 10 .

The operation of the iris adjustment device according to The invention is based on the above construction wrote.

In Fig. 1, which is supplied by the charge on memory chip 1 taken video signal via the sample and hold circuit 11 to the gain control section 12 and the video processor 21. The video processor 21 processes the video signal obtained and emits a luminance signal which represents a brightness. The luminance signal is converted into a digital signal in the analog-digital converter 22 and supplied to the image area divider 23 . The image area divider 23 divides the digital signal into a pre-set and predetermined number of areas. In this embodiment, the section from which the upper part of the whole picture is excluded is further divided into three sections. The upper portion of the image is excluded because the background, such as the sky or a cloud with a large difference in illuminance, is located opposite the object in the upper portion of the image, with the result that it is difficult to accurately measure the brightness of the object to be determined in the case where the background is included.

Furthermore, in this embodiment, for dividing one Image in three sections a method for counting Hori zontalsynchronimpulsen by a duration corresponding to the split area applied.

As shown in Figs. 2A, 2B and 2C, the image area divider 23 of this embodiment divides the entire image b, apart from the top portion a of the image in three areas of the image. From the divided image areas, only one area is selected by the image area selector 24 , which can be controlled by the user entering a key. That is, the user presses the key to select a desired image area after weighing the size of the object and comparing the brightness of the object with the brightness of the background. In this embodiment, according to the state of the object and the background, the key input is operated to select the entire image region apart from the upper portion of the image in the case of the normal state, as shown in Fig. 2A. If the background is too bright and the object is too large, the key input is also pressed; to select a sub-image area as shown in Fig. 2B. In addition, when the background is bright and the object is small in size, the key input is operated to select a field area shown in Fig. 2C.

In this embodiment, an image is divided into three areas only then divided if the background is related to the object is normal light and the background is lighter than the ob yes. However, if the background is relatively dark Lich of the object, the entire picture can be precisely in several other areas.

Meanwhile, a signal of the image related to the selected specific area among three image areas divided by the image area selector 23 is supplied to the window pulse generator 25 . This window pulse generator 25 generates horizontal and vertical window pulses in accordance with the image signal supplied from the image area selector 24 and supplies them to the signal switching area 13 . At this time, horizontal and vertical window pulses are applied to the signal switching area 13 as the respective differential pulses corresponding to the size of the selected field areas (the non-hatched areas), as shown in Figs. 2A, 2B and 2C.

The signal switching area 13 , which holds the window pulses, receives the gain-controlled video signal from the gain control section 12 and selects the video signal and outputs it in accordance with the selected specific image area according to the horizontal and vertical window pulses. That is, when the window pulse generator 25 supplies horizontal and vertical window pulses to the signal switching section 13 so that the large field is selected as shown in Fig. 2A, the video signal is selected in accordance with the selected large field and when the small field is selected As shown in Fig. 2C, the video signal is selected according to the selected small field.

The video signal selected by the signal switching section 13 is supplied to the signal shaping section 14 , formed into a video signal of a specific level in response to clamp and blanking signals, and supplied to the integrator 15 , which integrates it as an average. The integrated value of the integrator 15 thus varies according to the selected image area of the divided image area. The inte grated value is applied to the comparator 31 in the iris setting device 30 and compared with the reference level which is set by means of resistors R 1 and R 2. Thereafter, the compared in the comparator 31 is the difference value to the iris adjustment motor 32 supplied for controlling the driving of the motor 32, is opened or closed whereby the iris.

As described above, the automatic iris balls divide the adjusting device according to the invention the image to which the object belongs in several areas, and one area of divided areas is selected by the user speaking of the size of the object and the brightness of the back background, which automatically exposes the iris is set. Because of this, the object can always properly photographed. Furthermore, the automatic Ge backlight correction function executed.

Claims (6)

1. Automatic iris diaphragm setting device for automatically setting the aperture of an iris diaphragm in response to a video signal received from a charge storage module, characterized by :
a device for dividing an image of a video signal into several areas,
means for determining an area among the divided areas,
means for selectively outputting a video signal corresponding to the area determined by the determining means among the video signals received by the charge storage module ( 1 ),
means ( 31 ) for comparing a brightness value of the video signal supplied by the output device with a predetermined reference value
and means ( 32 ) for automatically adjusting the exposure of the iris in response to the compared value supplied by the comparing means ( 31 ). 2. Iris adjustment device according to claim 1, characterized; that the subdivision means comprises a video processor ( 21 ) which outputs a luminance signal representing a brightness from the video signal which is supplied from the charge storage module ( 1 ), further an analog-digital converter ( 22 ) for converting the luminance signals supplied from the video processor ( 21 ) into a digital signal and an image area divider ( 23 ) for dividing the digital signal into a plurality of predetermined areas. 3. Iris adjustment device according to claim 2, characterized in that the image area divider ( 23 ) divides an image into several areas by counting a horizontal synchronous signal in the video signal. 4. Iris adjustment device according to claim 1, characterized characterized in that the image area dividing means a portion of a captured image, exclusively a specific area in the image, into a plurality of Areas divided. 5. Iris adjustment device according to claim 4, characterized characterized in that the excluded section is an upper Section of the picture is. 6. Iris adjustment device according to claim 1, characterized in that the determining means comprises a Bildbe range selector ( 24 ) for selectively outputting a signal of a divided by an external input signal Be specific range, and a window pulse generator ( 25 ) which cher horizontal and vertical window pulses is generated in accordance with the image signal supplied by the image area selector ( 24 ) and supplies the horizontal and vertical window pulses to the device ( 13 ) for optional delivery.