Orion 10100C, 8300C, 8300M 5.4. Filter, 5.5. Color Balance

32 33

detail ﬁner than the pixel size of

the frames being combined. The

technique is described at http://

xxx.lanl.gov/abs/astro-ph/9808087.

5.4. Filter

Filtering an image is an operation that

emphasizes certain characteristics of

an image while suppressing others.

MaxIm DL supports several kinds of

Filters, such as: Unsharp Mask, Kernal

Filters, and Digital Development,

available from the Filter menu.

Please read MaxIm DL’s Help Topics

for the most detailed information about

the various image processing ﬁlters

available. The following are just some

of the many processing ﬁlters available

in MaxIm DL.

Unsharp Mask is a method of sharpening or high-pass ﬁltering an image. It

amounts to subtracting a low-pass ﬁltered version of an image from itself. The

low-pass ﬁltered version is called the mask.

Kernal, High-Pass Filter can be set to More or Less for different effect. The High-

Pass Filter can be useful for accentuating ﬁne details in an image.

Kernal, Gaussian Blur is a method of blurring an image. It can be used to sup-

press noise in an image at the expense of sharpness. The Radius setting controls

the amount of blurring applied to the image. Increasing the radius increases the

amount of blur applied.

For best results, turn on the Auto Full Screen preview button, and adjust the set-

tings. This allows you to rapidly adjust the settings until you are satisﬁed with the

results. Then, click OK to actually apply the ﬁlter settings to the image.

It is best to use a light touch with this command, to avoid over-processing the

image. Over-processing can create artifacts; i.e. features in the image that are not

real. It also ampliﬁes the noise in the image.

5.5. Color Balance

The sensitivity of most CCD cameras as a function of wavelength (color) is differ-

ent from the response of the human eye. The ﬁlters used for creating color com-

posites also have their own characteristics, as do the telescope optics. Although

“perfect” color rendition is an elusive if not impossible goal (all individuals see col-

ors slightly differently), it is straightforward to get “good” color balance with simple

weightings. This is where the Color Balance command (in the Process menu,

Figure 31) comes in handy to touch up the resultant colors in your images. Use

the Preview Image to see how altering these parameters will affect your image

(or click the Full Screen button to see the changes applied to your full image).

Note for the Parsec 8300M: Before any color balance adjustment can be made,

you must ﬁrst Combine Color to each individual LRGB or RGB images.

Color images from CCD cameras typically require a background level adjustment.

This is accomplished by bringing the background level (or bias) in each color plane

down to zero. Each of the Background Level values is subtracted from every

image pixel in its color plane. Any pixel values that become negative are forced to

zero. The Auto button automatically determines the settings necessary to equal-

ize the image background in all three color planes. The Reset button resets the

background level subtraction to zero on all planes.

Scaling adjustment (entered as a percentage) allows you to compensate for

transmittance differences between the ﬁlters used to acquire the three color

planes. Values of 100% result in no change. The scaling percentages can be typed

in or adjusted using the “spin” controls (small up and down click arrows to the right

of the scaling numbers). The Preview Image is particularly helpful in monitoring

the results when using the spin controls. The Reset Scaling button resets to 100%

on all three planes.

The Click On White Area to Set Scaling check box enables the operation of the

mouse to set the scaling. Set the Background Level ﬁrst (you can use Auto), then

click on a white object (e.g. a neutral-colored star) in the image (not the Preview

Image) with the mouse. The Scaling settings will automatically be adjusted to

make the selected point appear white. If an area of the image is known to be white

(or gray), this is an easier way to determine the scaling factors, and can be used

to instantly color balance the image.

note on File Format

When saving individual images that were not taking during a sequence (using

Save or Save As in the File menu), you have a choice of ﬁle formats. The default

produces .ﬁt ﬁles, but .tif, .jpg, .png, and .bmp ﬁle formats can also be selected.

Having a choice of output ﬁle formats is useful, especially if images will be

exported to other software programs for additional image processing (like Adobe

Photoshop, for instance).

If you save to a ﬁle format other than .ﬁt, you will need to check the Auto Stretch

box, or otherwise Stretch the image to change the Output Range (in the Stretch

command window) to match the Size Format (in the Save As window). Otherwise,

the Output Range will likely exceed the Size Format, and the saved image will

be ruined (will turn all white).

For example, say the Output Range is set to create image brightness values in

16-bit format, while the Size Format of a speciﬁc ﬁle format (.jpg, for example)

may only support 8-bits. Since the 16-bit format sees 65535 brightness levels,

and the 8-bit format can only support 255 levels, all of the levels above 255 in the

16-bit image (i.e. the vast majority of the 16-bit brightness levels) will be saved at

the maximum 8-bit value of 255. So the saved .jpg will have very little brightness

Figure 31. The Color Balance

Window.