Deere / Elsevier B.V. / Navigation Ped-Air / The Boeing Company / Mei / /
Country
United States / / /
Facility
University of North Carolina / Chapel Hill / Computer Science University of North Carolina / / /
IndustryTerm
airline profitability / air travel experience / airline loading / federal law / symmetry breaking algorithm / pleasant and safer overall travel experience / transportation infrastructure / graph search algorithms / /
Movie
ORCA / Right of Way / /
NaturalFeature
Charles River / Chapel Hill / /
Organization
National Science Foundation / University of North Carolina / Simulating Crowd Movement / Department of Computer Science / /
Person
David Kasik / Christopher Senesac / Van den Berg / Narain / Tim Sikora / Dinesh Manocha / Sean Curtis / / /
Position
velocity-space based model / region forward / Corresponding author / Social force model for pedestrian dynamics / Generalized centrifugal-force model for pedestrian dynamics / coach / representative / local planner / /
Product
Boeing 737 / Boeing 777-300 / Ped-Air / a pedestrian simulation system to model the loading / Boeing 777 / Ped-Air / blended wing body / using Ped-Air / /
ProvinceOrState
South Carolina / North Carolina / Massachusetts / Washington / /
PublishedMedium
Social Forces / Complex Systems / /
Technology
symmetry breaking algorithm / simulation system / using graph search algorithms / Finite State Machine / 3D Graphics / Simulation / /