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Spacecraft Stereo Imaging Systems Group S3. Variables Separation of the cameras Height of the cameras – relative to the bench Angle – The direction cameras.

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Presentation on theme: "Spacecraft Stereo Imaging Systems Group S3. Variables Separation of the cameras Height of the cameras – relative to the bench Angle – The direction cameras."— Presentation transcript:

1 Spacecraft Stereo Imaging Systems Group S3

2 Variables Separation of the cameras Height of the cameras – relative to the bench Angle – The direction cameras are facing relative to each other

3 Other Considerations Distance – Between the object and the cameras. Size of the object

4 Theory of stereo images O d (x, y, z) f – focal length of the cameras. and are the points in the two images, produced by the cameras.

5 Theory of stereo images By considering the geometry of the system we can obtain a set of 3 simultaneous equations These equations can be rearranged to find equations for the coordinates of the object - x, y and z.

6 Theory of stereo images

7 The quantity, which appears in all the equations is known as disparity.

8 Stereo Views Left CameraRight Camera The objects are displaced in one image relative to the other. These displacements are known as DISPARITIES.

9 Producing Stereograms The optimal ratio of object distance to camera separation is 30/1. Separation of the camera the same as average human eyes. Displacement of objects inversely proportional to the distance

10 Initial Attempts at a Stereogram

11

12 Calibration The demagnification of the camera was found at a range of distances. This was done using a single camera. s h s´ h´ ObjectImage

13 Calibration where h is the height of the object h´ is the image height, s is the object distance and s´ is the image distance. The image height h´ is given by where n is the number of pixels and w is the width of 1 pixel (a single sensor) inside the camera.

14 Calibration By plotting a graph of the height in pixels, n, versus the distance s, for an object of known height, the constant s´/w can be found from the gradient, m.

15 Calibration Graph

16 Determination of Object Height and Range Now the ratio h/s can be found by measuring the image height in pixels … but more information is needed to distinguish between a small object which is close and a large object which is far away.

17 Finally We took some measurements of position in each of the two images and used them to find the x position of the object. We will continue this in the next lab session.

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