My imaging setup.

Modern astro imaging involves a lot of moving parts, and controlling those parts can be a daunting task for new imagers. For example, imaging a deep sky object involves taking multiple long exposures of the object with a camera that is being made to very precisely track the object while it is being imaged. Generally, the camera uses a telescope as its lens, and the telescope is mounted on an equatorial mount that is motorized and/or computerized so that it tracks the motion of the object very precisely as it moves across the sky from east to west. Thankfully, there are software packages available that will manage much of this complexity for you.

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UPDATE: The firmware appears to have been updated to fix this bug. See the note at the end of this post.

The other evening I was doing some imaging using my refractor on my iOptron GEM45 mount, and ran into a bit of a snag. I use N.I.N.A to manage my imaging runs, and I set up N.I.N.A and the iOptron ASCOM driver (iOptron Commander) together to handle the meridian flip needed during the imaging run. But while the meridian flip had worked just fine in previous imaging sessions, this time the meridian flip failed, and I had to manually intervene. But why?

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Post-processing astro images is probably one of the most challenging parts of the astro imaging process. So I’m always on the lookout for tools that can help me improve my images. One tool I recently added to the toolbox is Denoise AI from Topaz Labs.

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The Standard Desk Calcumeter, H. N. Morse circa 1910

A few months ago in a little consignment shop in our locality, I stumbled across something I’d never seen before. Stamped as “The Standard Desk Calcumeter,” it appeared to be some sort of calculating device. Since I have an odd fascination for such things, and since the price tag on it was only $12, I snatched it up. A little research confirmed that it was a cleverly-designed mechanical adding machine, where the digits were entered using the tip of a stylus on the rotating disks visible through the front plate. The Reset wheel on the far right side provided a quick and easy way to reset all the wheels to zero.

When I first obtained it, this machine was a bit on the grubby side, and the reset wheel was very difficult to turn. It was apparent that it had not been used in many years (unsurprisingly). It would be a bit of a restoration project.

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At the request of a user, I updated my ASCOM Driver for Digital Setting Circles to include a couple of the northern constellations–Ursa Minor and Draco. These constellations were added because the user had a limited view of the sky and needed more northerly stars on which to align. However, in general it is better to choose alignment stars that are not so far north (or south).

The download link for the driver installation file has been updated on the ASCOM Driver page.

A year or so ago we bought a Subaru Outback, and then an Aluma trailer on which to haul it behind our class C RV. The Outback fits perfectly on the Aluma trailer, but figuring out the best way to tie the Outback down on the trailer was a bit of a puzzle.

A friend of ours (with the same trailer and Outback) suggested these lasso tie-down straps, which we tried. However, our trailer didn’t have attachment points in the best places for using those straps, and we improvised. Long story short, the straps didn’t work very well for us and frayed and broke–not very good when you’re towing down the highway. A better solution was needed.

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Finally. I’d been waiting for weeks for an evening that would provide decent enough conditions for me to attempt my first imaging session with my new telescope, camera, and mount. Between clouds and smoke from forest fires, I’d been stymied for quite some time, but last Thursday evening finally presented clear skies and a little dark time before the moon rose so I could set everything up and try some long-exposure imaging of deep sky objects.

My first attempt at imaging M31, the Andromeda Galaxy.
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