Zeta* and Zeta*-SIPP use elliptical expansion and improved visibility to deliver optimal any-angle paths on grids, with Zeta*-SIPP over 20x faster than prior dynamic planners.
International Journal of Human-Computer Studies 203, 103573
3 Pith papers cite this work. Polarity classification is still indexing.
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The study introduces SSPPV and SSPPE variants of solution-space path planning for en-route ATC, integrating distance-, time-, and zone-based conflict detection, with SSPPV plus zone detection achieving 3.69 ms average computation in MUAC Delta sector simulations on a 5 nmi grid.
TRUST-TAEA extends two-archive evolutionary algorithms with trustworthiness-guided coordination and variable-grouping for improved convergence, diversity, and stability on LSMOPs with 500-5000 variables.
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Optimal any-angle path planning in static and dynamic environments
Zeta* and Zeta*-SIPP use elliptical expansion and improved visibility to deliver optimal any-angle paths on grids, with Zeta*-SIPP over 20x faster than prior dynamic planners.