This paper presents a novel approach to generative art integrating quantum computing principles with artificial life paradigms. We propose a self-organizing computational ecosystem where autonomous digital entities evolve, interact, and co-create through quantum-enhanced behaviors. By leveraging quantum phenomena such as superposition and entanglement, our framework generates emergent artistic expressions with enhanced complexity and natural unpredictability. We introduce the Quantum Particulate Automata as an implementation framework, demonstrating how quantum principles reshape generative art methodologies beyond classical computational limitations. Through comparative analysis and explicit visual demonstrations, we show that quantum-enhanced behaviors produce distinctive aesthetic outcomes impossible with purely classical systems.

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Life Beings: Living Quantum Art

  • Alain Lioret,
  • Kamal Hennou,
  • Florentin Eraud

摘要

This paper presents a novel approach to generative art integrating quantum computing principles with artificial life paradigms. We propose a self-organizing computational ecosystem where autonomous digital entities evolve, interact, and co-create through quantum-enhanced behaviors. By leveraging quantum phenomena such as superposition and entanglement, our framework generates emergent artistic expressions with enhanced complexity and natural unpredictability. We introduce the Quantum Particulate Automata as an implementation framework, demonstrating how quantum principles reshape generative art methodologies beyond classical computational limitations. Through comparative analysis and explicit visual demonstrations, we show that quantum-enhanced behaviors produce distinctive aesthetic outcomes impossible with purely classical systems.