EMAIL: brannins@hotmail.com
NAME: Ed Brannin
TOPIC: Robots
COPYRIGHT: I SUBMIT TO THE STANDARD RAYTRACING COMPETITION COPYRIGHT.
TITLE: Perpetual Robo-regulator
COUNTRY: Rochester, New York (State, NOT City), USA
WEBPAGE: http://www.idrive.com/brannins/Web/Ray.html
RENDERER USED: POV-Ray v3.1
TOOLS USED: CMPEG for MPG, Adobe PhotoDeluxe (came with my Scanner) for the Poster.
CREATION TIME: about an hour to render + 2.5 minutes to MPG-encode.
HARDWARE USED: AMD K6-2 300, 128MB RAM
& AMD K6-2 233, 96 MB RAM
& a Zip Drive ;)
VIEWING RECOMMENDATIONS:
Best viewed at your system's Highest color depth. (TrueColor / 32-bit)
I look at this with the default Windows Media Player.
This is a cyclic animation, so I suggest setting loops
(times played) to infinite, or at least anything above 1.
ANIMATION DESCRIPTION:
In the year 2361, the Philsopher's Stone of Physics is finally created:
the Perpetual Motion Machine.
One of the problems that prevented the accomplishment in preceeding
centuries was the lack of technology capable of monitoring and controlling
a near-infinite number of reactions and respond to correct minute variances
much faster than a human could even detect them.
The robot of our scene, a floating chrome sphere, flies around the critical
point of the apparatus as it scans and manipulates with its purple beam-thing.
The plasmaball is the perpetually accelerated - and generated - object. While
it isn't big enough for much practical use, it's firmly in place as a prototype.
This is my first entry into the IRTC, and my second distinct animation. I like
rendering objects that move on mathematical paths, such as the trig functions.
DESCRIPTION OF HOW THIS ANIMATION WAS CREATED:
I used POV-Ray to make all of the frames, with the spheres' X & Z coords
being in "Trig form" notation (cos q, sin q), and the ball's Y is an
Absolute Cosine curve [Y = abs(cos(radians(Angle))) ].
The main platform is a cylinder, and the thing sticking up in the middle is a CSG
Merged Cylinder + Sphere - I never could figure out just why the cylinder part
stands out so much against the spherical part.
There are two spheres, one with a cylinder going to the middle thing, and the other
being at one end of a cone, also going into the middle.