Hi all!
I have no experience in model kit building so I'm likely to have little to contribute in the realm of painting and construction techniques. I have been a maker of sorts for most of my life with some expertise in computers and electronics and creating BattleBots, etc. So hopefully I have enough passionate geekiness to make this work!

I'm only just beginning this project and have been learning quite a lot from the other builder's here, especially Colson. I'm navigating a path thru these splendid examples in a way that optimizes my skills and interests. I'll likely only post when I feel I have something of value to add to the existing knowledge base. So I'll start with a couple of ideas I've not seen here yet. But then I haven't looked at all the build diaries.

I may eventually wind up building a display case, but rather than running wires out of the model to switches I plan to build control electronics into the model with just a power plug required and controlled via WiFi to make it portable. (Heftable at least!) I've chosen the Particle Photon controller and have been testing my additional lighting elements with it as I go. The Photon is trivial to setup and use, though I'll likely do some more sophisticated programming along the way, like more complex lighting control, random flashing, etc. (Imagine sounds from the movies sync'd with effects on the Falcon!) The end result we be controllable from phone, tablet or computer.

I'm also using some surface mount (SMD) electronic components like LEDs and resistors for lighting because they are oh so tiny compared to the big old cylinder LEDs. Here's a photo of one I used for the cockpit front instrumental panel:



This is an SMD LED and resistor glued back-to-back and soldered together and to wire-wrap wire that's not much thicker than the optical fibers. The whole package fits in the hole cut into the panel behind the monitor. Making these tiny lights is not easy; I use my electronics microscope and it took a couple of tries to get the process right.

One actual fabrication tip I do have to offer, which you see here, is the use of Bondic. It's a clear plastic 'welding' process that sets instantly with a UV LED. I used it to fix the optical fibers in place as well as the monitor LED. WAY more forgiving than CA and WAY more convenient and quicker to set than putty. VERY cool stuff!

Enough for now. Happy building to all!

wow....that's some painstaking work....looks like this is going to be one to watch....good luck on the journey !!!

Nothing overly original here, but I thought I'd demonstrate my temporary hack to extend and retract the ramp. On the breadboard you can see the Particle Photon controller I'm still experimenting with. It's about the size of a rectangular postage stamp. So far so good! The larger board is an Ardumoto motor controller board I happen to have lying around. The final version will use a smaller breadboard about the size of the chip itself. I may also just interface with DeAgo's controller board, but I have no idea yet what that looks like or what all of its functions are.



Video of the ramp going up and down: here. For now I have the ramp lights going on when the ramp is extended.

I'll see what I can do. (FYI: It should be very similar to Colson's shots.)

Just completed work on a mandible front headlight mod.

A 3D-printed plate holds the Neopixel in place on the small hull plate as well as a couple of magnets for securing the plate to the metal side frame. (The frame is not magnetic, but the screws are!)



A short piece of 5 mm solid core side glow plastic rod conducts light through the side hull plating.



Neopixel color and brightness are controlled by cell phone via Bluetooth to an Adafruit Feather controller. This short term test interface will eventually be replaced by a custom app interface, of course.



More pics and videos on my website gallery.

Really nice job Scott.

I looked at arduino myself a while ago but just couldn't get my head around

More lighting work, substituting Neopixels for both the surface mount LEDs I had illuminating the fiber optics and the kit-supplied bulkhead lighting. I prefer the Neopixels because they can be super bright when needed, but I can also easily dim them down or even change colors when desired. For lighting fiber optics color control is especially valuable since I discovered that cutting an end of a colored fiber dilutes the color and cutting both ends removes it.

Cockpit lighting with 4 Neopixels illuminating the bulkhead from the rear and 4 focusing light into fiber optics to the instrument panels. For mounting the Neopixels I 3D-printed a plastic panel that replaces the kit-supplied LED circuit board:



View of the lit cockpit rear bulkhead and forward instrument panels:



View of the forward instrument panels lit with fiber optics and the central monitor lit with an embedded LED.

Looking excellent Scott.

I found that taking a sharpie pen of the same color as the fiber you can add color back by coloring both ends of the fiber. So I have Red, Blue, Green and Yellow sharpie pens that I use for this.