View allAll Photos Tagged AlgorithmicArt
Visioni potenziate: creando immagini con l’AI.
Continuo a sperimentare per il mio piacere.
-
Enhanced vision: creating images with AI.
I continue to experiment for my own pleasure.
In this digital portrait, we see Henrietta Swan Leavitt (1868–1921), a woman whose intellectual rigour fundamentally altered our perception of the cosmos. Working at the Harvard College Observatory at a time when women were often excluded from positions of formal scientific leadership, Leavitt served as one of the institution’s “human computers,” tasked with cataloguing and measuring the brightness of thousands of stars on photographic plates.
It was through this painstaking, meticulous labour that Leavitt achieved her breakthrough. By studying Cepheid variable stars - stars that pulsate with a rhythmic brightness - she discovered a precise, quantifiable relationship between their pulse period and their absolute luminosity.
Before her discovery, the universe was a mystery of unknown scale. Her findings provided astronomers with a "standard candle" - a reliable cosmic yardstick. By measuring how quickly a star pulses, astronomers could determine its true brightness and, by comparing that to how dim it appears from Earth, calculate its distance. This revelation was the key that unlocked the scale of the universe, eventually allowing astronomers like Edwin Hubble to prove that galaxies exist far beyond our own Milky Way.
This image creation pays homage not just to the scientific achievement, but to the quiet, persistent intellect that defined her life and work, forever changing our understanding of our place in the vastness of space.
Note: This image was created using an AI tool, Google Gemini, as part of my creative process and refined in Lightroom / Luminar Neo. While I strive for realism, this is a digital generation and not a photograph.
2026 Keith Jones All Rights Reserved.
A Julia fractal created using the Fractal Science Kit fractal generator - www.fractalsciencekit.com/
Visioni potenziate: creando immagini con l’AI.
Continuo a sperimentare per il mio piacere.
-
Enhanced vision: creating images with AI.
I continue to experiment for my own pleasure.
This image was created with the Fractal Science Kit fractal generator. See www.fractalsciencekit.com/tutorial/examples/examples.htm for details.
Created using the Fractal Science Kit fractal generator. See www.fractalsciencekit.com/ for details.
Visioni potenziate: creando immagini con l’AI.
Continuo a sperimentare per il mio piacere.
-
Enhanced vision: creating images with AI.
I continue to experiment for my own pleasure.
This fractal is based on an IFS formed from a set of Mobius transformations, and was created using the Fractal Science Kit fractal generator. See www.fractalsciencekit.com/ for details.
The method used to produce this image is based on information in the book "Indra's Pearls - The Vision of Felix Klein" by David Mumford, Caroline Series, and David Wright. For additional details, see David Wright's "Indra's Pearls" site klein.math.okstate.edu/IndrasPearls/.
This image was created with the Fractal Science Kit fractal generator. See www.fractalsciencekit.com/tutorial/examples/examples.htm for details.
A hyperbolic tiling created using the Fractal Science Kit fractal generator. See www.fractalsciencekit.com/ for details.
A Hyperbolic Tiling replicates a polygon over the hyperbolic plane represented by the Poincare disk in such a way as to form a hyperbolic tiling pattern. The Poincare disk is a model for hyperbolic geometry that maps the hyperbolic plane onto the unit disk.
A Mandelbrot fractal based on a Sierpinski Square L-System orbit trap.
Created with the Fractal Science Kit fractal generator. See www.fractalsciencekit.com/ for details.
The Sierpinski Square is named after the Polish mathematician Waclaw Sierpinski.
A Julia fractal created using the Fractal Science Kit fractal generator - www.fractalsciencekit.com/
A Julia fractal created with the Fractal Science Kit fractal generator. See www.fractalsciencekit.com/ for details.
Julia fractals are named after the French mathematicians Gaston Julia whose work began the study of complex dynamics during the early 20th century.
A Newton fractal created using the Fractal Science Kit fractal generator. See www.fractalsciencekit.com/ for details.
Created using the Fractal Science Kit fractal generator. See www.fractalsciencekit.com/ for details.
Newton fractals are a visual representation of a process called the Newton–Raphson method or simply Newton's method, named after Isaac Newton and Joseph Raphson, used to find the roots of an equation.
Created using the Fractal Science Kit fractal generator. See www.fractalsciencekit.com/ for details.
A hyperbolic tiling created using the Fractal Science Kit fractal generator. See www.fractalsciencekit.com/ for details.
A Hyperbolic Tiling replicates a polygon over the hyperbolic plane represented by the Poincare disk in such a way as to form a hyperbolic tiling pattern. The Poincare disk is a model for hyperbolic geometry that maps the hyperbolic plane onto the unit disk.
A [6,4] Hyperbolic Tiling created with the Fractal Science Kit fractal generator. See www.fractalsciencekit.com for details.
A Hyperbolic Tiling replicates a polygon over the hyperbolic plane represented by the Poincare disk in such a way as to form a hyperbolic tiling pattern. The Poincare disk is a model for hyperbolic geometry that maps the hyperbolic plane onto the unit disk. A [p,q] regular tiling of the hyperbolic plane maps a hyperbolic polygon with p sides over the hyperbolic plane such that q polygons meet at each polygon vertex.
A Kleinian Group fractal created using the Fractal Science Kit fractal generator - www.fractalsciencekit.com/
Happy Valentine's Day
A Julia fractal created using the Fractal Science Kit fractal generator - www.fractalsciencekit.com/
Visioni potenziate: creando immagini con l’AI.
Continuo a sperimentare per il mio piacere.
-
Enhanced vision: creating images with AI.
I continue to experiment for my own pleasure.
Created using the Fractal Science Kit fractal generator. See www.fractalsciencekit.com/tutorial/examples/examples.htm for details.
Created using the Fractal Science Kit fractal generator. See www.fractalsciencekit.com/ for details.
An IFS fractal created using the Fractal Science Kit fractal generator. See www.fractalsciencekit.com/ for details.
Visioni potenziate: creando immagini con l’AI.
Continuo a sperimentare per il mio piacere.
-
Enhanced vision: creating images with AI.
I continue to experiment for my own pleasure.
My redition of a fractal discovered by Dennis C. De Mars, the developer of the Fractal Domains fractal generator.
Created using the Fractal Science Kit fractal generator. See www.fractalsciencekit.com/ for details.
Visioni potenziate: creando immagini con l’AI.
Continuo a sperimentare per il mio piacere.
-
Enhanced vision: creating images with AI.
I continue to experiment for my own pleasure.
Visioni potenziate: creando immagini con l’AI.
Love is love.
L’amore visto in tante forme, anche non convenzionali, anche irriverenti, ma si parla sempre di amore. Questo è quello che vedo io.
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Enhanced vision: creating images with AI.
Love is love.
Love seen in many forms, even unconventional, even irreverent, but it is always about love. This is what I see.
A Newton fractal created using the Fractal Science Kit fractal generator - www.fractalsciencekit.com/
A hyperbolic transformation applied to a pattern viewed in the context of a complex transformation.
Created using the Fractal Science Kit fractal generator. See www.fractalsciencekit.com/ for details.
A [4,6] Hyperbolic Tiling created with the Fractal Science Kit fractal generator. See www.fractalsciencekit.com for details.
A Hyperbolic Tiling replicates a polygon over the hyperbolic plane represented by the Poincare disk in such a way as to form a hyperbolic tiling pattern. The Poincare disk is a model for hyperbolic geometry that maps the hyperbolic plane onto the unit disk. A [p,q] regular tiling of the hyperbolic plane maps a hyperbolic polygon with p sides over the hyperbolic plane such that q polygons meet at each polygon vertex.
Visioni potenziate: creando immagini con l’AI.
Continuo a sperimentare per il mio piacere.
-
Enhanced vision: creating images with AI.
I continue to experiment for my own pleasure.
Visioni potenziate: creando immagini con l’AI.
Continuo a sperimentare per il mio piacere.
-
Enhanced vision: creating images with AI.
I continue to experiment for my own pleasure.
A hyperbolic tiling created using the Fractal Science Kit fractal generator - www.fractalsciencekit.com/
This fractal is based on an IFS formed from a set of Mobius transformations, and was created using the Fractal Science Kit fractal generator. See www.fractalsciencekit.com/ for details.
The method used to produce this image is based on information in the book "Indra's Pearls - The Vision of Felix Klein" by David Mumford, Caroline Series, and David Wright. For additional details, see David Wright's "Indra's Pearls" site klein.math.okstate.edu/IndrasPearls/.
Visioni potenziate: creando immagini con l’AI.
Continuo a sperimentare per il mio piacere.
-
Enhanced vision: creating images with AI.
I continue to experiment for my own pleasure.
A Julia fractal based on a Sierpinski Square L-System orbit trap.
Created with the Fractal Science Kit fractal generator. See www.fractalsciencekit.com/ for details.
A Julia fractal based on a Sierpinski Square L-System orbit trap.
Created with the Fractal Science Kit fractal generator. See www.fractalsciencekit.com/ for details.
The Sierpinski Square is named after the Polish mathematician Waclaw Sierpinski.