SU717534A1 - Method of photogrammetric calibration of optical scanning systems - Google Patents

Description

(54) PHOTOGRAMMETRIC CALIBRATION METHOD FOR OPTICAL SCANNING SYSTEMS

717534

 COME OMBFT & I GSC SCRIPTURE DEVICE xGYOM UDTAN: aishi1shk "riiMyts flat mirror. With their corner. rotation relative to parallel axes of rotation at different speeds for a known period of time; from-: plane; the mirrors are reflected by the successive coupling of the rays that are intersected at some point in space. The density of these rays and the magnitude of the angle between the boundary directions depends on the period of time over which it is restored after the signals, the coupling of the rays, and the difference in the angular velocities of rotation of the collimator and the plane of the mirror.

IF the axis of rotation of the collimator and the mirror a is located under a small angle to the scan profile and the intersection point of the intersection 13

complete reconstruction of the reflected ray of the collimator

: О свмеЩ cкенаенаена с with the vanishing point of the scrolling and shooting device, then when the flat mirrors rotate at a speed -, (Ilj gts

-,

where si is the scanning speed of the imaging device; oC-magnitude ".IJ-ZH modern field sreyy g scanning system, and the collimator with

 ekrOstyu. - -

l

where fi is the viewing angle of the scanning imaging device, a sequential reversal and spatial displacement of the collimator beam is ensured until it is rotated in one of the following directions: scanning of the imaging device. Orientation reference tool axes

The length of the corresponding axes of the system: we are a child, the measurement is taken

kbrdynat collimator beam & torus 5 and norg

close to the mirror plane b and the results of these measurements are used to calculate the coordinates of the scanning direction in the basic coordinate system C

a c cos 2 A -. , in with coiV - a- (1x5) o V.

  And Thrby to combine reflected rt

plane mirror collimator beam with

 the other ya sky skyline rule, perform the rotation of these tools trv rt; hc5titelnr the second axis of rotation, which is located perpendicular to the first, respectively with the short

U) 3 hours to the l Ymere HHfe iBajr Bpemeni T between Md effTaN etSlK t e r of the beam Ш ib1 Shat0p1 from the capacitive Hanf) Scanning fields, calculate

scanning device scanning speed in this section of the line

L .-- ((1) (-JT

where X is the angle between the axis of rotation

tangent to the Scan profile at the measurement point.

The photogrammetric parameters of the optical scanning system are calculated on the basis of the determination of the coordinates of the scanning viewing directions of the shooting device and their speed.

The drawing is a diagram, according to pH. the proposed method.

Before optical scanning 1, a collimator 2 and a flat mirror 3 are installed. When angularly rotated, respectively, in the HOU and ZOX, HOA and 2OX planes, the beam of autocollimator 4 after reflection from the mirror 3 is converted into a link of rays 5. Some of them have a common point intersection coinciding with the vanishing point of the scanning beams 1. The magnitude of the rotation angles. 3 and 2 is selected so that the beam 6 of the sighting directions of the scanning device is in the beam region. 5. Forward by measuring the direction of the collimator's beam and the normal to the plane of the mirror at the time of combining the beam 2 reflected from mirror 3 with an arbitrary scanning direction of the counting axis. These axes of these tools are oriented relative to the ores of the base coordinate system. Consistently combining the collimator beam reflected from the mirror 3 with the sighting directions of the imaging device along the scan profile, and measure the interval. of time

between moments of beam alignment

a collimator with adjacent scanning directions corresponding to the burden burden, coordinates normal to mirror 3 and beam 2 in the base coordinate system, and based on the results of these measurements, scan direction coordinates and their velocities and Urs x base coordinate system are calculated. Based on the results obtained, the photometric parameters of an optical scanning system are calculated.

Claims (1)

1. Copyright, the certificate of the USSR 363065, cl. G 03 B 43/00, 1971.