SU78521A1 - Method for transforming aerial photographs - Google Patents

Description

Methods are known for transforming aerial photographs on a plane parallel to the lines of bases.

Transforming aerial photographs on a plane parallel to the basis lines greatly simplifies the definition of aerial photographs, but the known methods for transforming aerial photographs require their preliminary field preparation.

The present invention aims to provide such a method for transforming aerial photographs that does not require preliminary field preparation of the photographs.

The method consists in determining the longitudinal angles of even pictures with respect to base lines and the lateral angles of inclination of odd pictures with respect to the main even planes of even numbers, then marking out standard transformation points to eliminate longitudinal angles of even shots and standard transformation points to eliminate long transverse tilt angles for odd images. After that, even pictures are transformed and longitudinal angles of inclination are corrected for them. At the same time, plates have been manufactured for transforming odd snapshots according to the method of relative orientation. According to these planners, made from even-sized images transformed in angle of inclination, odd-numbered images are transformed.

The method for transforming aerial photographs is carried out as follows. One of the known methods is used to determine the longitudinal angles of inclination of even pictures relative to base lines, and transverse angles of inclination of odd pictures relative to the main basis planes of even photographs. According to the Transverse angles of inclination of odd snapshots, the coordinates are found at the points of the nadir and lay on the negatives of odd images in the required direction (the points of the transverse nadir). These

No. 78521-2 -

dots along contours or stereoscopic transfer to negatives of even pictures.

Next, mark on the negatives of even pictures standard transformation points by means of a device - a transformation ruler (f, ig. 1).

This device consists of a Dzu rectangular framework of PI and Ra, nested inside one another. The inner frame P2 can be moved within the outer frame PI. The lower surface of the outer frame Pj is made rough, so that this frame does not slide over the surface of the material on which it is laid.

Five carriages K, each of which has a micrometrical displacement in directions that exactly coincide with the direction of movement of the internal frame, are inserted into the inner frame window Pa.

Transparent I plates with M marks are inserted into the carriages, I have mui FORH crosses with circles assigned to their centers and to the points of intersection of the straight lines forming the crosses.

At some distances from the centers of the circles, in directions that coincide exactly with the directions of movement of the inner frame, I have tattoos in the carriages with springs that lift the needles of tattoos upwards when they are not pressed.

When pressing on the needle pricks, the needles of the latter enter the holes made in the body of the carriages, and the ends of the needles make punctures on the surface on which the device is laid.

To transform odd-numbered snapshots, trasformation points are labeled as recommended when transformed using the relative orientation method.

To transform even pictures on the screen, through the intersection point of the transformer structural axis with the screen plane, a straight line is drawn, coinciding with the screen inclination direction. The cassette or negative embedded in the cassette is set so that the standard points pinned onto the negative and projected onto the screen all end up lying on the screen tilt line drawn on it. The angles of inclination of the screen and the longitudinal decentration of the cassette are determined by the distance between the standard points projecting onto the screen. The magnitude of these distances is set on the transformation ruler by means of another device, the ray plate (Fig. 2).

The ruler with the stamps installed to transform this even snapshot is placed on the screen (Fig. 3), combined with the longitudinal crosses with the tilt line of the screen and after that the screen is given such a slope, a cassette is decentralized, and the ruler has a position on the screen where all standard negative points will be projected precisely at the centers of the ruler brand circles. With this position of the screen and the cassette, the projected image of the picture is exposed to photo paper.

The beam plate, by means of which the marks required to transform the image to a given angle of inclination, make up the composition of the OS, a thin transparent Pl plate, which can rotate on the tablet around the S axis embedded in the tablet.

A horizontal line LL is drawn on the tablet, spaced from the center of axis 5 by the value of the / focal distance of the camera, and on it is marked the base O of the perpendicular that is lowered from the center of the axis S to this straight line. To the right and left of the base perpendicular to the line, two more points O are plotted. About in every direction, with the distant

points O are spaced from the base perpendicular by values equal to half of the side of the image, n, and the nearest O is divided into segments exactly in half.

Through the center of the axis 5 and all five points marked on the drawing LL are drawn straight.

The transparent plate also has a straight line spaced from the center of the S axis by the magnitude of the focal length; In addition, a nonius N is attached to the plate, which is inserted into an arc groove embedded in the tablet. On the edge of the groove, a gradual division is made on its outer side.

When combining the zero of the vernier with the zero degree scale of CK, the axis of the transparent plate must be aligned with the axis of the plate. When installing and a vernier at the angle of inclination of the image, the axis of the transparent plate does not cut radial directions in other places than the axis of the plate. The distance between these intersections should be set on the transformational dyne. For this, the transformation ruler is superimposed on the device, with its longitudinal slits combined with the intersection points of the axis of the transparent plate with the beam directions MJ1 of the plate, after which, using micrometer screws, the circles of the marks are placed over these intersections. After this installation of the marks, the ruler is transferred to the screen to give it the necessary inclination.

Subject invention

Claims (3)

1. A method of transforming aerial photographs on a plane parallel to the baseline lines, characterized in that, in order to eliminate the null preparation for the transformation, the longitudinal tilt angles of even pictures relative to baseline lines and the transverse tilt angles of odd pictures relative to the main reference planes of even pictures are marked out In the pictures, transformation points, after which they transform even-numbered pictures, make up even-numbered corrections of the planchette at the angles of inclination, and then transform the odd-numbered e pictures. 2. An apparatus for carrying out the method according to claim 1, characterized in that, in order to mark the transformation points on the even-numbered pictures, it is made in the form of two nested one inside the other with the possibility of relative movement of the rectangular frames, internally of which is provided with carriages, adjustable along the Frames from micro screw and bearing transparent plates with marks and tattoos. 3. Apparatus for carrying out the method according to claim 1, characterized in that, in order to set the distance between the transformation points required to transform the image at a given angle of inclination of the image, it is made in the form of a tablet and rotatable relative to its transparent plate, of which the tablet it is provided with radial lines and a secant deposited on it, and a plate deposited on it is straight, located just like the secant from the axis of the rotation of the plate at a distance equal to the focal length of the aerial camera. № 78521