Distance-measuring apparatus, distance-measuring method, and recording medium
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G02B-007/28
G03B-013/20
G03B-013/18
G01C-003/08
출원번호
UP-0521191
(2006-09-14)
등록번호
US-7623779
(2009-12-02)
우선권정보
JP-2005-279455(2005-09-27)
발명자
/ 주소
Inoue, Hideaki
Arai, Toshiharu
출원인 / 주소
Casio Computer Co., Ltd.
대리인 / 주소
Frishauf, Holtz, Goodman & Chick, P.C.
인용정보
피인용 횟수 :
2인용 특허 :
4
초록▼
A phase difference sensor is arranged toward a target object such that the sensor can rotate at least 180° on its sensor optical axis. As the phase difference sensor rotates, the angle of a sensor viewing field is changed, and the distance to the target object is correctly computed using results me
A phase difference sensor is arranged toward a target object such that the sensor can rotate at least 180° on its sensor optical axis. As the phase difference sensor rotates, the angle of a sensor viewing field is changed, and the distance to the target object is correctly computed using results measured before and after the change in the angle.
대표청구항▼
What is claimed is: 1. A distance-measuring apparatus comprising: a phase-difference sensor which includes at least two photodetectors arranged in line, and which measures a distance to a target object using a phase difference system; a rotation unit which rotates the phase difference sensor on a s
What is claimed is: 1. A distance-measuring apparatus comprising: a phase-difference sensor which includes at least two photodetectors arranged in line, and which measures a distance to a target object using a phase difference system; a rotation unit which rotates the phase difference sensor on a sensor optical axis as a rotational axis, the sensor optical axis being a straight line which extends in a measurement direction from a center of the phase difference sensor and which is perpendicular to a line direction in which the photodetectors are arranged; and a computation unit which computes, as distance data, an average value of measurement results obtained by the phase difference sensor, the measurement results including at least a measurement result obtained when the phase difference sensor is in a first measurement position and a measurement result obtained when the phase difference sensor is in a second measurement position defined by rotating the phase difference sensor 180° from the first measurement position. 2. The distance-measuring apparatus according to claim 1, wherein the computation unit computes, as distance data, an average value of measurement results obtained by the phase difference sensor, the measurement results including a measurement result obtained when the phase difference sensor is in a third measurement position defined by rotating the phase difference sensor 90° from the first measurement position and a measurement result obtained when the phase difference sensor is in a fourth measurement position defined by rotating the phase difference sensor 270° from the first measurement position. 3. The distance-measuring apparatus according to claim 1, further comprising an optical member provided in front of the phase difference sensor, wherein the rotation unit defines the measurement positions of the phase difference sensor by rotating the optical member around the sensor optical axis as a rotational axis with the phase difference sensor facing the target object. 4. The distance-measuring apparatus according to claim 3, wherein the optical member is a Dove prism. 5. The distance-measuring apparatus according to claim 1, further comprising: a half mirror provided at an intersection between the sensor optical axis and a central axis of a sensor viewing field for the target object and inclined at a given angle, a direction that crosses the sensor optical axis at right angles being equal to a direction of the central axis; and a pair of right-angle mirrors arranged toward the target object with the half mirror therebetween, wherein the rotation unit defines the measurement positions of the phase difference sensor by rotating the pair of right-angle mirrors around the central axis of the sensor viewing field. 6. The distance-measuring apparatus according to claim 5, wherein the phase difference sensor is rotated on the sensor optical axis by a given angle. 7. The distance-measuring apparatus according to claim 1, further comprising: a half mirror provided at an intersection between the sensor optical axis and a central axis of a sensor viewing field for the target object and inclined at a given angle, a direction that crosses the sensor optical axis at right angles being equal to a direction of the central axis; and a pair of right-angle mirrors arranged toward the phase difference sensor with the half mirror therebetween, wherein the rotation unit defines measurement positions of the phase difference sensor by rotating the pair of right-angle mirrors around the sensor optical axis. 8. The distance-measuring apparatus according to claim 7, wherein the phase difference sensor is rotated on the sensor optical axis by a given angle. 9. The distance-measuring apparatus according to claim 1, further comprising: a half mirror provided at an intersection between the sensor optical axis and a central axis of a sensor viewing field for the target object and inclined at a given angle, a direction that crosses the sensor optical axis at right angles being equal to a direction of the central axis; and a right-angle prism mirror arranged toward the target object with the half mirror therebetween, wherein the rotation unit defines the measurement positions of the phase difference sensor by rotating the right-angle prism mirror around the central axis of the sensor viewing field. 10. The distance-measuring apparatus according to claim 9, wherein the phase difference sensor is rotated on the sensor optical axis by a given angle. 11. The distance-measuring apparatus according to claim 1, further comprising: a cubic beam splitter provided at an intersection between the sensor optical axis and a central axis of a sensor viewing field for the target object, a direction that crosses the sensor optical axis at right angles being equal to a direction of the central axis; and a right-angle prism mirror arranged toward the target object with the cubic beam splitter therebetween, wherein the rotation unit defines the measurement positions of the phase difference sensor by rotating the right-angle prism mirror around the central axis of the sensor viewing field. 12. The distance-measuring apparatus according to claim 11, wherein the phase difference sensor is rotated on the sensor optical axis by a given angle. 13. A projecting apparatus using the distance-measuring apparatus claimed in claim 1. 14. An imaging apparatus using the distance-measuring apparatus claimed in claim 1. 15. A distance-measuring method comprising: performing a first measurement process of measuring a distance to a target object in a first measurement position using a phase difference sensor by a phase difference system, the phase difference sensor including at least two photodetectors arranged in line; rotating the phase difference sensor on a sensor optical axis as a rotational axis, the sensor optical axis being a straight line which extends in a measurement direction from a center of the phase difference sensor and which is perpendicular to a line direction in which the photodetectors are arranged; performing a second measurement process of measuring a distance to the target object in a second measurement position using the phase difference sensor, the second measurement position being defined by rotating the phase difference sensor 180° from the first measurement position; and computing, as distance data, an average value of at least a measurement result obtained in the first measurement process and a measurement result obtained in the second measurement process. 16. A computer-readable recording medium having a program recorded thereon for controlling a computer to perform functions comprising: performing a first measurement function of measuring a distance to a target object in a first measurement position using a phase difference sensor by a phase difference system, the phase difference sensor including at least two photodetectors arranged in line; rotating the phase difference sensor on a sensor optical axis as a rotational axis, the sensor optical axis being a straight line which extends in a measurement direction from a center of the phase difference sensor and which is perpendicular to a line direction in which the photodetectors are arranged; performing a second measurement process of measuring a distance to the target object in a second measurement position using the phase difference sensor, the second measurement position being defined by rotating the phase difference sensor 180° from the first measurement position; and computing, as distance data, an average value of at least a measurement result obtained in the first measurement process and a measurement result obtained in the second measurement process.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (4)
Victor Yertoprakhov RU, Distance measurement apparatus.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.