DD272127A1 - METHOD FOR DIFFERENTIAL EXPOSURE MEASUREMENT IN AIR PICTURE CHAMBERS - Google Patents

Abstract

In order to optimally image the dark object surfaces even from large flying areas and to avoid loss of information in these figures, the object brightness is measured by a sensor, the object area detected by the sensor being kept substantially constant, resulting in change of the sensor surface, alteration of a diaphragm upstream of the sensor or by changing the focal length of a sensor upstream lens is realized. figure

Description

For this 1 page drawing

Field of application of the invention

The invention is used in aerial photography by photogrammetric imaging systems application.

Characteristic of the known technical solutions'

It is already known (recording system .LMK ', VEB Carl Zeiss JENA) to measure the object brightness by means of a narrow-angle sensor accommodated in the objective socket. Using the measured minimum field brightnesses, the determination of the exposure parameters that are transferred by hand or automatically to the shutter and the shutter takes place so that, in contrast to the integral exposure measurement, the underexposure of the shadow areas of the ground is prevented.

Furthermore, the terrain contrast is determined using the measured minimum and maximum terrain brightnesses and, depending on the desired density range of the negative, a grading recommendation is determined and displayed.

Due to the constancy of the image angle of the sensor system, the detected terrain area depends on the image scale and thus on the altitude. With increasing altitude, there is an increasing integration effect over the stochastically distributed terrain brightnesses in the receiver spot. This results in an increasing distortion of the determined exposure parameters and gradation recommendations.

Object of the invention

The aim of the invention is to optimally image the dark objective surfaces even at high altitudes and to avoid information losses in these images.

Explanation of the essence of the invention

The invention is based on the task of realizing a correct display of the object contrast while avoiding distortions in the case of dark object surfaces. The object is achieved by a method for differential exposure measurement in aerial chambers, wherein the object brightness is measured by a sensor, according to the invention solved in that the detected by the sensor object surface is kept substantially constant. Embodiments of the invention are that the object surface is kept constant by changing the sensor surface, or that the object surface is kept constant by changing a diaphragm upstream of the sensor, or that the object surface is kept constant by changing the focal length of a lens upstream of the sensor.

The invention improves the image quality, which has a direct influence on the economy of subsequent work steps (photogrammetric and interpretative evaluation). The automatic consideration of the altitude also relieves the operator of subjective decisions regarding deliberate corrections of the displayed or introduced exposure parameters.

embodiment

The invention will be explained in more detail with reference to the schematic drawing.

In an objective housing, not shown, an exposure measuring device, consisting of sensor 1, aperture 2 and lens 3, whose optical axis is parallel to that of the main lens of the camera, arranged.

The determined altitude hg is a control computer 6, which is part of the recording system supplied. This determines from the altitude of the necessary focal length of the lens 3. To adjust the determined focal length (line a)) are optionally pivoted from lenses 4 and gray filter 5 existing optical assemblies. Dio imaged object surface thus always remains within certain preselected limits.

This effect can also be achieved by changing the diaphragm 2 (line b)) or by changing the active sensor surface 1, for example by selectively switching off or switching on parts of the receiver surface (via line ")) .

Claims (4)

1. A method for diffarential exposure measurement in aerial chambers, wherein the object brightness is measured by a sensor, characterized in that the detected by the sensor object surface is kept substantially constant. 2. The method according to claim 1, characterized in that the object surface is kept constant by changing the sensor surface. 3. The method according to claim 1, characterized in that the object surface is kept constant by changing a sensor upstream aperture. 4. The method according to claim 1, characterized in that the object surface is kept constant by changing the focal length of the sensor upstream lens.