JPH0916747A - Image processor - Google Patents

Abstract

PURPOSE: To perform A/D conversion by making the number of bits optimum corresponding to an input video signal and an image in an area on a required picture at the A/D converter of an image processor. CONSTITUTION: The video signal is converted to a mutilevel digital signal 6 of 16 bits, for example. A maximum value 7 and a minimum value 8 only in a specified area set by a detection range control circuit 5 are detected by maximum value and minimum value detection circuits 2 and 3. Only the values between the maximum value 7 and the minimum value 8 are converted to the digital signal of, for example, 8 bits less than 16 bits by a signal converter 4. Therefore, A/D conversion can be effectively performed only to the range of a luminance level existent in a camera image and gradations can effectively be utilized. Besides, since the detection range can be specified, the optimum A/D conversion can be performed only in the required area on the picture.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an image processing apparatus, and more particularly to an image processing apparatus for converting a captured image signal from a camera into a digital signal for processing.

[0002]

2. Description of the Related Art In a conventional image processing apparatus, an analog signal which is a picked-up image signal from a camera is converted into a digital signal by an A / D (analog / digital) converter and digitally processed. In this case, the A / D converter directly A / D-converts the input image, or
A by controlling the entire level of the input video signal
/ D conversion processing is performed.

[0003]

In the A / D converter in such an image processing apparatus, when a signal having a high video level is input, the gray scale at the originally required high brightness level is obtained. Cannot be obtained sufficiently, and therefore, there is a drawback in that the accuracy becomes poor when the subsequent processing such as edge extraction is performed.

Further, if there is a high-luminance portion or a low-precision portion in an unnecessary portion of the screen, there is a problem that the gradation of the required portion becomes small.

An object of the present invention is to provide an image processing apparatus in which the number of digital bits of A / D conversion output is optimized according to the state of an input video signal.

[0006]

An image processing apparatus according to the present invention comprises an analog / digital conversion means for converting an input image signal into an m-bit (m is an integer greater than 2) digital signal, and the analog / digital conversion means for one frame period. Detecting means for detecting the maximum value and the minimum value of the digital signal; and a bit number converting means for converting the digital signal between the detected maximum value and the minimum value into an n-bit digital signal smaller than the m. It is characterized by including.

[0007]

Operation: 1 of A / D converted multi-bit digital signal
It is possible to obtain the A / D conversion output according to the state of the input video signal by detecting the maximum value and the minimum value in the frame and converting the multi-bit digital signal between them into a digital signal with a smaller number of bits. Becomes

[0008]

Embodiments of the present invention will be described below with reference to the drawings.

FIG. 1 is a block diagram of an embodiment of the present invention. In FIG. 1, an image pickup signal from the camera is, for example, a 16-bit digital signal by the A / D converter 1,
That is, it is converted into a digital signal 6 of 2 ¹⁶ gradation display,
It is input to the signal converter 4.

The signal converter 4 converts a 16-bit digital signal into, for example, an 8-bit digital signal, that is, 2 bits.
^It has a function of converting into a digital signal 10 of ⁸ = 256 gradation display and outputting.

On the other hand, the maximum and minimum value detection circuits 2 and 3
Is provided, and the maximum value 7 and the minimum value 8 of the digital signal in one frame are respectively detected. Therefore, the signal converter 4 converts the 16-bit digital signal between the maximum value 7 and the minimum value 8 into an 8-bit digital signal.

Further, a detection range control circuit 5 is provided, and the detection range control circuit 5 can preset the detection ranges of the maximum and minimum detection circuits 2 and 3. ing.

When the camera image is input to the A / D converter 1, for example, a 16-bit digital image signal 6 is supplied to the maximum value and minimum value detection circuits 2 and 3, respectively. In these detection circuits 2 and 3, the detection range control circuit 5
The detection range control signal 9 which is set and output in step S6 allows detection only in a necessary specific area on the screen, and the maximum value signal 7 and the minimum value signal in the specific area are detected. And 8 will be output.

In the signal converter 4, the 16-bit digital video signal 6 is converted from the maximum value signal 7 and the minimum value signal 8 into a digital video signal 10 having a smaller number of bits, for example, and output. To do.

By limiting the detection areas of the maximum and minimum values in the detection range control circuit 5, it is possible to eliminate the influence of light or the like at a high brightness level at an unnecessary point, and it is necessary to have a true necessity within the screen. It is possible to detect the maximum and minimum values in different areas.

In this way, the gradation of the digital video signal can be effectively used by bit-converting only the section between the maximum value and the minimum value of the camera video signal, and also in the subsequent edge extraction processing and the like. Higher precision processing is possible. In addition, by detecting the maximum and minimum values only in a specific required area on the screen, it is possible to optimize the optimum value within the required area without being affected by the bright and dark areas due to lighting outside the required area. A / D conversion can be performed.

FIG. 2 is a diagram showing an example of the signal converter 4 of FIG. 1, and is provided with a table data calculation section 41 which inputs the maximum value signal 7 and the minimum value signal 8. The table data calculation unit 41 calculates the table data 11 that equally divides the maximum value and the minimum value one frame before into an 8-bit width.

The table data 11 thus obtained is written in the conversion table 42 within the blanking period,
The 16-bit digital signal 6 is converted into an 8-bit digital signal 10 according to the table data, and a known look-up table can be used.

[0019]

As described above, according to the present invention, since only the section between the maximum value and the minimum value is A / D converted, the gradation of the digital video signal can be effectively used. ,
Also, since the maximum and minimum values are detected in the specific area,
There is an effect that it is possible to prevent an adverse effect due to lighting or the like outside the required area.

[Brief description of the drawings]

FIG. 1 is a block diagram of an embodiment of the present invention.

2 is a diagram showing an example of a signal converter 4 in the block diagram of FIG. 1. FIG.

[Explanation of symbols]

 1 A / D converter 2 Maximum value detection circuit 3 Minimum value detection circuit 4 Signal converter 5 Detection range control circuit 41 Table data calculation unit 42 Conversion table (look-up table)

Claims (4)

[Claims] 1. An analog / digital converting means for converting an input image signal into an m-bit (m is an integer greater than 2) digital signal, and detection for detecting a maximum value and a minimum value of the digital signal in one frame period. An image processing apparatus comprising: means and a bit number conversion means for converting the digital signal between the detected maximum value and minimum value into an n-bit digital signal smaller than m. 2. The image processing apparatus according to claim 1, wherein the detection unit has a detection range setting unit capable of presetting a detection range of a maximum value and a minimum value in the one frame period. 3. The bit number converting means is means for equally dividing the maximum value and the minimum value into an n-bit width to generate conversion data, and the conversion data is used to generate the m-bit data. 2. A conversion means for converting a digital signal into the n-bit digital signal.
Or the image processing apparatus according to 2. 4. The conversion means has a bit number conversion table for storing the conversion data and converting the input m-bit digital signal into the n-bit digital signal. The image processing apparatus according to claim 3.