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Generative Art: The Story, It's Uses, and Future
  • Preface
  • Table of Contents
  • Introduction
  • What is Generative Art?
  • Part 1: History
    • 1890s
    • 1900s
    • 1910s
    • 1920s
    • 1930s
    • 1940s
    • 1950s
      • Herbert Franke
      • Ben Laposki
    • 1960s
      • Eduardo Paolozzi
      • Frederick Hammersley
      • Hiroshi Kawano
      • Bela Julesz
      • Charles Csuri
      • Frieder Nake
      • Manfred Mohr
      • Michael Noll
      • Vera Molnar
      • Nam June Jaik
    • 1970s
      • Jacques Palumbo
      • Roger Vilder
      • Larry Elin
      • Vicky Chaet
      • Kurt Lauckner
      • Ruth Leavitt
      • Karen E Huff
      • Joseph Scala
      • Ken Knowlton
      • Ed Manning
      • William J Kolomyjec
      • Patsy Scala
      • Manuel Barbadillo
      • Laurence Press
      • Edward Ihnatowicz
      • Peter Struycken
      • Tony Longson
      • Leslie Mezei
      • Colette & Charles Bangert
      • Aaron Marcus
      • The Algorists
      • Georg Nees
      • Harold Cohen
      • Edward Zajec
      • Aldo Giorgini
      • Miljenenko Horvat
      • John Whitney
      • Christopher William Tyler
      • Lillian Schwartz
      • Hiroshi Kawano
      • Duane Palyka
    • 1980s
      • Jean-Piere Hébert
      • Roman Verostko
      • Mark Wilson
      • Desmond Paul Henry
    • 1990s
      • John Maeda
      • Perry Hoberman
      • Rafael Lozano-Hemmer
      • Casey Reas
      • Golan Levin
      • Camille Utterback
    • 2000s
      • Ryoji Ikeda
      • Cory Arcangel
      • Olia Lialina
      • Aaron Koblin
      • Zach Liebermann
    • 2010s
      • N.E.R.V.O.U.S. Systems
      • Refik Anadol
      • Memo Akten
      • Sougwen Chung
      • Quayola
      • Jared Tarbell
      • Matt Delaurier
      • Dimitri Cherniak
      • Tyler Hobbs
    • 2020s
  • Part 2: Techniques
    • Recursion
      • Fractals
    • Collatz Conjecture
    • Cellular Automata (CA)
    • Cymatics
      • Chladni Plate
    • Delaunay Triangulation / Voronoi Diagrams
    • Fibonacci Sequence
    • Fourier Series
    • Geodesic Dome
    • Golden Angle
    • Golden Ratio
    • Implicit Surface
    • Inverse / Forward Kinematics
    • Laplace Transform
    • Lissajous Curves
    • Medial Axis
    • Minimal Surface
    • Packing Problems
    • Platonic Solids
    • Saffman-Taylor Instability
    • Spherical Harmonics
    • Strange Attractors
      • Rössler Attractor
      • Multiscroll Attractor
      • Lorenz Attractor
      • Hénon Attractor
      • Duffing Attractor
      • Clifford Attractor
    • Superellipse
    • Superformula
    • Travelling Salesman Problem (TSP)
    • Schlieren Imaging
    • Agent-based Modelling
      • Boids
    • Constructive Solid Geometry (CSG)
    • Collision Detection
    • Dithering
    • Flow Field
    • Lloyd's relaxation
    • Ray Tracing
    • Data Structures
      • Spacial Index
    • Signed Distance Functions (SDFs)
    • Wave Function Collapse
    • Natural Processes
      • Growth Algorithms
        • Space Colonization
        • Reaction Diffusion
        • Premordial Particle System
        • Diffusion-limited Aggregation (DLA)
        • Physarum
        • Eden Growth Model
        • Differential Growth
      • Fluid Simulation
      • Hele-Shaw Cell
      • Belousov-Zhabotinsky (BZ) Reaction
      • Phyllotaxis
    • Randomness
    • Noise
      • Worley Noise
      • Wavelet Noise
      • Value Noise
      • Sinulation Noise
      • Simplex Noise
      • Perlin Noise
      • Gradient Noise
    • Shaders
    • Polygon Clipping
    • Physics Engines
    • Particle Systems
    • Marching Squares
    • Marching Cubes
    • Metaballs
  • Part 3: Tools
    • Hardware
      • Plotters
    • Software
      • 2D/3D/AR/VR
      • Live Coding
      • Sound
      • 3D
      • Data Visualization
      • 2D/3D
      • Machine Learning
      • Shaders
  • Part 4: The Future
    • Eco-Materialism
    • Emergence
    • Augmented Reality
    • Virtual Reality
    • Digital Archival
  • References
  • Index
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  1. Part 1: History
  2. 1970s

Roger Vilder

PreviousJacques PalumboNextLarry Elin

Last updated 1 year ago

Roger Vilder is a notable figure in the domain of generative and digital art. Born in 1938 in France, Vilder's journey into the art world began with traditional mediums, but he quickly became captivated by the potential of computers as tools for artistic creation. From the late 1960s onwards, he began experimenting with computer graphics, producing algorithm-driven artworks that showcased a harmonious blend of mathematics and aesthetics. Vilder's pieces often play with patterns, motion, and transformation, offering viewers a dynamic and ever-evolving visual experience. His pioneering work in the field has solidified his reputation as one of the early innovators of digital art, and his contributions continue to inspire contemporary artists navigating the intersection of technology and creativity.

Artist and Computer - ROGER VILDER
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