A simulation server capable of transmitting a visual alarm representative of a simulation event discrepancy to a computing device. The simulation server stores lesson plans comprising at least one event; each event comprising at least one rule. The simulation server executes a simulation according to a particular lesson plan, and transmits a visual representation of the executed simulation to a computing device. The simulation server collects simulation data representative of the executed simulation, processes the simulation data, compares the simulation data with the at least one rule of the at least one event of the lesson plan, and determines each rule is met based on the comparison. When a rule is not met, the simulation server transmits information for displaying on a timeline in the visual representation of the executed simulation a visual alarm representative of the event corresponding to the rule not being met to the computing device.

A simulation server capable of transmitting a visual alarm representative of a simulation event discrepancy to a computing device. The simulation server stores lesson plans comprising at least one event; each event comprising at least one rule. The simulation server executes a simulation according to a particular lesson plan, and transmits a visual representation of the executed simulation to a computing device. The simulation server collects simulation data representative of the executed simulation, processes the simulation data, compares the simulation data with the at least one rule of the at least one event of the lesson plan, and determines each rule is met based on the comparison. When a rule is not met, the simulation server transmits information for displaying on a timeline in the visual representation of the executed simulation a visual alarm representative of the event corresponding to the rule not being met to the computing device.

This mechanism for driving motions of a surface of spherical, ellipsoidal, plane, or other shape comprises a pair of drive wheels mounted on a freely pivoting frame, each wheel being driven by its own bidirectional motor. The motors and the active electronics of an angle encoder are mounted in an associated fixed frame, so no slip rings or other rotating connections are needed for motor power and control, or for determining the rotation angle of the pivoting frame. Control of the motors provides differential rotation of the two wheels to effect controlled rotation of the pivoting frame, and therefore of wheel direction. This avoids the use of a separate motor for changing the direction of motion of the surface.

A simulation server capable of creating events of a lesson plan based on simulation data statistics. The simulation server comprises memory for storing simulation data, and a processing unit. The processing unit executes a plurality of simulations functionalities according to a lesson plan. The processing unit collects simulation data representative of the execution of the plurality of simulations functionalities according to the lesson plan. The processing unit stores the simulation data in the memory. The processing unit processes the simulation data to generate simulation data statistics. The processing unit creates at least one event having at least one rule based on the simulation data statistics. The at least one rule consists in at least one measurable value to be measured by at least one of the simulation functionalities.

A simulation server capable of creating events of a lesson plan based on simulation data statistics. The simulation server comprises memory for storing simulation data, and a processing unit. The processing unit executes a plurality of simulations functionalities according to a lesson plan. The processing unit collects simulation data representative of the execution of the plurality of simulations functionalities according to the lesson plan. The processing unit stores the simulation data in the memory. The processing unit processes the simulation data to generate simulation data statistics. The processing unit creates at least one event having at least one rule based on the simulation data statistics. The at least one rule consists in at least one measurable value to be measured by at least one of the simulation functionalities.

Method and systems for executing an interactive computer simulation of a simulated vehicle comprising a remote data management system, a central repository, a remote repository and an interactive computer simulation station. The central repository stores a synthetic natural environment database (SNEDB) that comprises data records for a plurality of geographically-located terrain skin representations of a computer generated environment. The remote data management system maintains the remote repository storing a subset of data records from the SNEDB. Each one of the subset of data records has a priority tag. The station sends a data request for geographical locations from the SNEDB and allows users to interact in the simulation for controlling the simulated vehicle. The remote data management system monitors remaining storage capacity of the remote repository and, upon reaching a high-level threshold value, removes the most extraneous data record considering priority tags until reaching a low-level threshold value.

Method and systems for executing an interactive computer simulation of a simulated vehicle comprising a remote data management system, a central repository, a remote repository and an interactive computer simulation station. The central repository stores a synthetic natural environment database (SNEDB) that comprises data records for a plurality of geographically-located terrain skin representations of a computer generated environment. The remote data management system maintains the remote repository storing a subset of data records from the SNEDB. Each one of the subset of data records has a priority tag. The station sends a data request for geographical locations from the SNEDB and allows users to interact in the simulation for controlling the simulated vehicle. The remote data management system monitors remaining storage capacity of the remote repository and, upon reaching a high-level threshold value, removes the most extraneous data record considering priority tags until reaching a low-level threshold value.

A flight simulator, motion simulator or orientation simulator for the spatial movement of at least one person, and in particular for the simulation of acceleration sequences, has a holding device for holding a person in a region of the center. The holding device is mounted on a carriage via a movement device. The carriage can be displaced, in particular linearly, along a horizontally oriented main carrier. The main carrier is rotationally driven about a vertically oriented major axis of rotation and the center is displaceable between a first outer maximum position and a second outer maximum position by moving the carriage along a trajectory on the main carrier. A normal distance between the first outer maximum position of the center and the major axis of rotation is greater than the normal distance between the second outer maximum position of the center and the major axis of rotation.

A flight simulator, motion simulator or orientation simulator for the spatial movement of at least one person, and in particular for the simulation of acceleration sequences, has a holding device for holding a person in a region of the center. The holding device is mounted on a carriage via a movement device. The carriage can be displaced, in particular linearly, along a horizontally oriented main carrier. The main carrier is rotationally driven about a vertically oriented major axis of rotation and the center is displaceable between a first outer maximum position and a second outer maximum position by moving the carriage along a trajectory on the main carrier. A normal distance between the first outer maximum position of the center and the major axis of rotation is greater than the normal distance between the second outer maximum position of the center and the major axis of rotation.

A motion assembly that produces pitch and roll motions includes lower and upper plates. A pivotable coupling having upper and lower shafts extending from its center is coupled between the upper and lower plates. At least two linear actuators are coupled between the plates. Extension and retraction of the actuators pivots the upper plate about the pivotable coupling relative to the lower plate. A vehicle includes two steerable propulsion wheels coupled to a chassis. A lower plate of a pitch and roll assembly, similar to that just described, couples to the chassis via a slew bearing. Seating is coupled to the upper plate. The seating rotates with respect to the chassis via controlled rotation of the slew bearing with reference to the chassis. The seating can be rotated to point in any direction with respect to the chassis regardless of the direction the steerable propulsion wheels move the chassis.