Photography – With exposure objective focusing means – focusing aid – or... – Plural focusing or rangefinding areas
Reexamination Certificate
2000-11-15
2004-08-31
Epps, Georgia (Department: 2873)
Photography
With exposure objective focusing means, focusing aid, or...
Plural focusing or rangefinding areas
C396S123000, C348S208140, C250S201200
Reexamination Certificate
active
06785469
ABSTRACT:
CROSS-REFERENCE TO RELATED APPLICATIONS
This application is based upon and claims the benefit of priority from the prior Japanese Patent Applications No. 11-325972, filed Nov. 16, 1999; and No. 11-340753, filed Nov. 30, 1999.
BACKGROUND OF THE INVENTION
This invention relates to a distance-measuring device installed in a camera, and more particularly to a distance-measuring device for measuring, at high speed, a subject in a to-be-photographed scene.
In general, a camera incorporates a distance-measuring device for measuring a distance to a subject when picking up the subject so as to focus the photography lens of the camera on the subject.
An active-autofocusing system for applying infrared light to a subject to measure a distance thereto from light reflected therefrom (to execute distance measurement), and a passive-autofocusing system for integrating outside light from a subject to measure a distance thereto, are known as distance-measuring devices. These devices generally employ a line sensor or an area sensor as a photoelectric conversion element for receiving image from the outside and converting it into an electric signal.
An artificial retinal LSI device is known as an image processing device using such an area sensor. In this device, an area sensor having two light receiving areas that are positioned to provide a parallax therebetween, and an image processing circuit for executing various types of data processing on an image signal from the area sensor are mounted in a signal IC chip. The image processing circuit executes edge emphasizing (detection), smoothing, one-dimensional projection, etc.
Japanese Patent Application KOKAI Publication No. 8-178637, for example, discloses an image processing device using an artificial retinal LSI, as the artificial retinal LSI device.
This image processing device extracts the outlines of input images, using an artificial retinal element, calculates, at high speed, correlation between outline data on those portions of the outline images, which are located at the same scanning lines, using a correlation computing device incorporating a synapse connection computing circuit, and obtains information such as a distance to an object or movement of the object, on the basis of the computing result.
However, when the image processing device having the artificial retinal LSI disclosed in Japanese Patent Application KOKAI Publication No. 8-178637 is used in a camera, a CPU, which operates at high speed to execute complicated processing, and/or a correlation calculation unit must be mounted in the camera. These units are expensive, and the number of component parts of the distance-measuring device, and hence the size of the distance-measuring device, inevitably increase because of these units.
Moreover, in the above distance-measuring device, two images are input using two cameras having respective artificial retinal LSIs, and the distance to a subject is measured. That is, distance measurement is executed, on the basis of the correlation of the two images using the principle of stereo. Accordingly, the device is large in size and expensive.
This large distance-measuring device can be installed in, for example, a single lens reflex camera, but not in a small and inexpensive machine such as a compact camera.
In different to-be-photographed scenes, if the camera is to photograph different subjects, it should have the ability to focus on different portions of the subjects. For example, if the main subject is a person, the camera should focus on an upper portion, such as the face, of the person. If, on the other hand, the main subject is scenery or a building, the camera should focus on its center.
Usually, however, a distance-measuring point for a shortest distance to an area in which the main subject seems to exist is selected for focusing.
In light of this, there is a technique for detecting a distinctive portion of a main subject in a to-be-photographed scene, and executing appropriate focusing for the main subject.
Japanese Patent Application KOKAI Publication No. 11-25263, for example, discloses a technique for detecting a distinctive point of a subject (area) existing in a to-be-photographed scene, on the basis of the outline of the subject, the distance distribution of the subject, or the actual size of the subject calculated from the distance distribution and the outline of the subject. On the basis of the detection result, exposure time during photography, for example, is controlled.
In the technique for detecting a distinctive point of a subject, disclosed in Japanese Patent Application KOKAI Publication No. 11-25263, determination of a distance-measuring point is especially important.
More specifically, a sensor section for executing distance measurement often has a structure in which pixels consisting of, for example, photoelectric conversion elements are arranged in a matrix or in a plurality of rows. If this so-called sensor array is also used as an image sensor for detecting a distinctive point of a subject, another sensor and its space dedicated to the detection of the distinctive point are not necessary.
Pattern detection for detecting such a distinctive point does not require such accurate detection of a distribution of reflected light as does distance measurement. More easy detection provides a sufficient result. Therefore, it the pattern detection is executed at the same speed as distance measurement, it is a waste of time.
BRIEF SUMMARY OF THE INVENTION
It is the object of the invention to provide a highly-accurate, short-time-lag, compact and cost-effective distance-measuring device, which incorporates an AF area sensor that includes-an image pick up element formed on a semiconductor substrate for receiving two input images having a parallax therebetween, and a photo reception signal processing circuit formed on the semiconductor substrate for creating outline data on a subject on the basis of a photo reception signal from the image pick up element, and which has a wide distance-measuring-area and executes distance measurement and pattern detection for detecting a distinctive point of a subject using different computations, to thereby minimize the time required for computations and operations.
According to an aspect of the invention, there is provided a distance-measuring device comprising: two optical systems having a parallax therebetween; an image pick up element formed on a semiconductor substrate for picking up two images formed by the optical systems; image processing means formed on the semiconductor substrate for processing an image output from the image pick up element; main subject detecting means for detecting a main subject on the basis of an output from the image processing means; and distance-measuring means for executing a distance measurement operation, based on the output of the image processing means, on the main subject detected by the main subject detecting means.
According to another aspect of the invention, there is provided a distance-measuring device capable of executing distance measurement at a plurality of points in a photography screen, comprising: a sensor array formed of a plurality of photoelectric elements; an A/D converter for converting outputs of the photoelectric elements into digital data, the A/D converter having a first A/D conversion mode in which conversion is executed at high speed and with low accuracy, and a second A/D conversion mode in which conversion is executed at low speed and with high accuracy; outline judging means for subjecting outputs of the sensor array to A/D conversion executed in the first A/D conversion mode, thereby judging those portions of an outline of a subject, which exist at a plurality of points; determination means for determining that one of the points, at which distance measurement is to be executed, on the basis of the judging result of the outline judging means; and computing means for subjecting that one of the outputs of the sensor array, which corresponds to the point determined by the determination means, to A/D conversion executed in the second A
Ide Masataka
Nonaka Osamu
Epps Georgia
Harrington Alicia
Olympus Corporation
Pokotylo John C.
Straub & Pokotylo
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