Virtual simulation of intelligent toy robot driven by the action sequence files

Simulation approaches generally fall into two categories: discrete time or discrete event. For military modeling and simulation needs, the two approaches typically align with virtual simulation, which implies human interaction with the simulation program, and constructive simulation, which implies no human interaction. The Air Force Research Laboratory develops and distributes AFSIM (Advanced Framework for Simulation, Integration, and Modeling) to a user community that uses both virtual and constructive simulation. This paper documents the software design and primary algorithms that provide AFSIM’s support for both modes, which is termed a hybrid simulation.

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Construction of virtual simulation teaching platform for elevator control

Journal of Physics Conference Series ◽

10.1088/1742-6596/1848/1/012120 ◽

2021 ◽

Vol 1848 (1) ◽

pp. 012120

Author(s):

Wanfeng Chang ◽

Qingyong Zhang ◽

Huiwen Xia ◽

Yang Yang

Keyword(s):

Virtual Simulation ◽

Teaching Platform

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The role of action effects in motor sequence planning and execution: exploring the influence of temporal and spatial effect anticipation

Psychological Research ◽

10.1007/s00426-021-01525-2 ◽

2021 ◽

Author(s):

Rachel M. Brown ◽

Erik Friedgen ◽

Iring Koch

Keyword(s):

Action Planning ◽

Spatial Effects ◽

Motor Sequence ◽

Action Sequence ◽

Sequential Action ◽

Spatial Features ◽

Temporal Features ◽

Action Sequences ◽

Temporal And Spatial ◽

Anticipation Effect

AbstractActions we perform every day generate perceivable outcomes with both spatial and temporal features. According to the ideomotor principle, we plan our actions by anticipating the outcomes, but this principle does not directly address how sequential movements are influenced by different outcomes. We examined how sequential action planning is influenced by the anticipation of temporal and spatial features of action outcomes. We further explored the influence of action sequence switching. Participants performed cued sequences of button presses that generated visual effects which were either spatially compatible or incompatible with the sequences, and the spatial effects appeared after a short or long delay. The sequence cues switched or repeated across trials, and the predictability of action sequence switches was varied across groups. The results showed a delay-anticipation effect for sequential action, whereby a shorter anticipated delay between action sequences and their outcomes speeded initiation and execution of the cued action sequences. Delay anticipation was increased by predictable action switching, but it was not strongly modified by the spatial compatibility of the action outcomes. The results extend previous demonstrations of delay anticipation to the context of sequential action. The temporal delay between actions and their outcomes appears to be retrieved for sequential planning and influences both the initiation and the execution of actions.

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