starting to some sort of image

[speach (Simon)]

Well after a few tries I'm starting to get an image, not very good but at least there's a picture. 13x30sec, master dark 30sec, master flat, no bias, processed in Pixinsight. The only processing is combining into 1 frame then dynamic crop and histogram correction.

[rcheshire (Rowland)]

Simon. A good start. You will need a bias to calibrate the flat. No need to calibrate the dark with a bias if your camera is a DSLR.

[LightningNZ (Cam)]

Bias frames are very worthwhile and quite to produce. That said, really you look like you just need a bunch more frames to get a great looking image.

[raymo]

I have a question regarding bias frames which is not a criticism or a
disagreement with anyone[I know far too little to presume to do either.]
I have a number of books on various types of astrophotography; all
written or updated fairly recently. All written by acknowledged experts
in the field. All state categorically that bias frames are totally unnecessary unless using unmatched darks, especially as darks contain bias information. If this is true, why do some members push us novices to use them? I thought that this topic related to this thread, so was not really hijacking it.
raymo

[rcheshire (Rowland)]

Ray. You are correct. The short explanation is that if you are using dslr you are better off not using bias frames on the darks and lights, BUT, you will need a bias frame for your flats.


Long answer

A DSLR set of frames will be;

Lights (of course)

Darks (to match the lights)

Flats

Bias (to subtract from the flats)


Preprocessing as follows;

Average stack your darks with no pixel rejection to make a master dark

Average stack your bias with no pixel rejection to make a master bias

Calibrate your flats with your master bias to make master flat

Calibrate your lights with your master dark and master flat

Debayer, align and stack.

Why? Because, DSLR data is modified in the camera and is therefore, not linear - unlike dedicated CCD camera data, with wich you can do magical things such as dark scaling.

I have tried this method using PixInsight, AstroArt and Nebulosity with consistent and superior results to those methods typically reserved for 16bit linear data - CCDs.

I hope that helps.

Disclaimer: there may some points of fine tuning that others may suggest. Dont be led astray by folklore. There are good reasons to deal with DSLR data as above. Otherwise you will almost certainly truncate your data. Bottom line, dont touch your lights or darks with a bias frame.

Try it!

[LightningNZ (Cam)]

At high iso, you *will* see noise in bias images from non-zero pixel values. It's well worth removing. That said, you'll want a *lot* of bias frames to remove any random noise component you are seeing. I use 100 bias frames and they produce a noticeable improvement in my images.

[raymo]

Thank you both for your replies; I would like to add more, but don't want to hijack this thread.
raymo