Astronomical imaging with the sxv-m5 – Starlight Xpress SXV-M5 User Manual

Handbook for SXV-M5 Issue 1 June 2004

7

seconds. Restart the camera software and see if it can link now. If not, check in
Windows device manager (via ‘System’ in ‘Control Panel’) and see if the BlockIO
device is installed properly.
3) If you cannot find any way of making the camera work, please try using it with
another computer. This will confirm that the camera is OK, or otherwise, and you can
then decide how to proceed. Also check on our web site to see if there are any updates
or information about your camera software that might help. The message board might
prove useful to ask for help with getting your camera operating properly.

Our guarantee ensures that any electrical faults are corrected quickly and at no cost
to the customer.

Enhancing your image:

Your first image may now be reasonably good, but it is unlikely to be as clear and
sharp as it could be. Improved focusing and exposure selection may correct these
shortcomings, and you may like to try them before applying any image enhancement
with the software. However, there will come a point when you say, “That’s the best
that I can get” and you will want to experiment with various filters and contrast
operations. In the case of daylight images, the processing options are many, but there
are few that will improve the picture in a useful way.

The most useful of these are the ‘Normal Contrast Stretch’ and the ‘High Pass Low
Power’ filter. The high pass filter gives a moderate improvement in the image
sharpness, and the effects of image processing. This can be very effective on daylight
images. Too much high pass filtering results in dark borders around well-defined
features and will increase the ‘noise’ in an image to unacceptable levels, but the ‘Low
Power’ filter is close to optimum and gives a nicely sharpened picture, as above.

The ‘Contrast’ routines are used to brighten (or dull) the image highlights and
shadows. A ‘Normal’ stretch is a simple linear operation, where two pointers (the
‘black’ and ‘white’ limits) can be set at either side of the image histogram and used to
define new start and end points. The image data is then mathematically modified so
that any pixels that are to the left of the ‘black’ pointer are set to black and any pixels
to the right of the ‘white’ pointer are set to white. The pixels with values between the
pointers are modified to fit the new brightness distribution. Try experimenting with
the pointer positions until the image has a pleasing brightness and ‘crispness’.

At this point, you will have a working knowledge of how to take and process an SXV-
M5 image. It is time to move on to astronomical imaging, which has its own, unique,
set of problems!


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Astronomical Imaging with the SXV-M5

1)

Getting the image onto the CCD:

It is fairly easy to find the correct focus setting for the camera when using a standard
SLR lens, but quite a different matter when the M7 is attached to a telescope! The