Three-layer architecture

The Three-Layer Architecture is a hybrid reactive/deliberative robot architecture developed by R. James Firby[1] that consists of three layers: a reactive feedback control mechanism, a reactive plan execution mechanism, and a mechanism for performing time-consuming deliberative computations.[2]

See also

  • ATLANTIS architecture
  • Servo, subsumption, and symbolic (SSS) architecture
  • Distributed architecture for mobile navigation (DAMN)
  • Autonomous robot architecture (AuRA)

References

  1. Firby, R.J. (1990). Adaptive Execution in Complex Dynamic Worlds.
  2. Gat, E.; Others (1998). "On three-layer architectures" (PDF). Artificial Intelligence and Mobile Robots: 195–210. Retrieved 2008-04-06.
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