A method and apparatus for managing data in a platform. A first permission level is identified for first data in the data generated by a source in the platform. A second permission level is identified for an intended recipient of the first data. The first data is modified to form second data in the data in which the second data has the second permission level. The second data is distributed to the intended recipient.

A method and apparatus for managing data in a platform. A first permission level is identified for first data in the data generated by a source in the platform. A second permission level is identified for an intended recipient of the first data. The first data is modified to form second data in the data in which the second data has the second permission level. The second data is distributed to the intended recipient.

A virtual motion-acceleration spherical simulator includes an outer gyroscopic sphere, an inner gyroscopic sphere concentrically disposed relative to the outer gyroscopic sphere, and a spherical cockpit having eight quadrants. The cockpit has a display device, a full HD 3D projector, a curved screen simulating a windshield, a controller device, and a real vehicle dashboard. A first seat is provided for an operator in a first quadrant of the spherical cockpit and a second seat is provided for a navigator in a second quadrant of the spherical cockpit. Drive assemblies connected to the gyroscopic spheres impart longitudinal and lateral movement in two orthogonal directions.

A system may include an inflatable assembly having a plurality of members. The system may also include a plurality of sensors disposed at a plurality of positions inside or around the inflatable assembly, such that the plurality of sensors may acquire data related to a shape of the inflatable assembly. The system also includes one or more valves, each configured to direct a fluid into a corresponding member of the plurality of members of the inflatable assembly. The system also includes a processor that adjusts positions of the one or more valves to cause the fluid to be directed into the corresponding member of the plurality of members of the inflatable assembly based on the data and a desired shape of the inflatable assembly.

A water rollover simulation system includes a simulation training device. The simulation training device is connected to a track, wherein one end of the track is submerged in water. The simulation training device begins a simulation on another portion of the track not submerged in water, moves toward the end of the track, and completes the simulation by allowing one or more trainees to escape the simulation training device while the simulation training device is submerged under water. The water rollover simulation system includes various safety features. The safety features can be activated automatically after a predetermined amount of time, or manually via a remote control system.

A water rollover simulation system includes a simulation training device. The simulation training device is connected to a track, wherein one end of the track is submerged in water. The simulation training device begins a simulation on another portion of the track not submerged in water, moves toward the end of the track, and completes the simulation by allowing one or more trainees to escape the simulation training device while the simulation training device is submerged under water. The water rollover simulation system includes various safety features. The safety features can be activated automatically after a predetermined amount of time, or manually via a remote control system.

A profile comparator for comparing between a human operator and a clone including a storage device, a simulation processor and a parameter comparator, the storage device including a recording of at least one parameter during an activity session of a platform, the platform including at least one control system, the parameter being at least one of a parameter of the platform and an action of an operator of the platform during the activity session, and a predetermined profile, the simulation processor configured to generate a virtual clone of the platform according to at least one of the recorded parameter, the simulation processor being further configured to manage the virtual clone according to the predetermined profile, the parameter comparator configured to compare at least one comparison parameter relative to the comparison parameter of the virtual clone and configured to determine at least one deviation wherein the comparison parameter deviates from the comparison parameter of the virtual clone.

A profile comparator for comparing between a human operator and a clone including a storage device, a simulation processor and a parameter comparator, the storage device including a recording of at least one parameter during an activity session of a platform, the platform including at least one control system, the parameter being at least one of a parameter of the platform and an action of an operator of the platform during the activity session, and a predetermined profile, the simulation processor configured to generate a virtual clone of the platform according to at least one of the recorded parameter, the simulation processor being further configured to manage the virtual clone according to the predetermined profile, the parameter comparator configured to compare at least one comparison parameter relative to the comparison parameter of the virtual clone and configured to determine at least one deviation wherein the comparison parameter deviates from the comparison parameter of the virtual clone.

The present invention discloses a push-swing combined wave generator, comprising a wave-generating fixing bracket, a servo motor, a driving wheel, a connecting rod, a first hydraulic cylinder, a second hydraulic cylinder, a first hydraulic cylinder push rod, a second hydraulic cylinder push rod, and a wave-generating plate. The sliding pins arranged in the wave-generating plate slide in the axial direction, and are switchable to connect either the first hydraulic cylinder push rod or the second hydraulic cylinder push rod with the wave-generating plate, and thus to render the push-swing combined wave generator to operate in respective locked state or unlocked state. The present invention integrates pushing and swinging, is capable of implementing horizontal pushing and swinging wave generating modes respectively, generating various wave types, and meeting requirements of various forms of wave generating.

The present invention discloses a push-swing combined wave generator, comprising a wave-generating fixing bracket, a servo motor, a driving wheel, a connecting rod, a first hydraulic cylinder, a second hydraulic cylinder, a first hydraulic cylinder push rod, a second hydraulic cylinder push rod, and a wave-generating plate. The sliding pins arranged in the wave-generating plate slide in the axial direction, and are switchable to connect either the first hydraulic cylinder push rod or the second hydraulic cylinder push rod with the wave-generating plate, and thus to render the push-swing combined wave generator to operate in respective locked state or unlocked state. The present invention integrates pushing and swinging, is capable of implementing horizontal pushing and swinging wave generating modes respectively, generating various wave types, and meeting requirements of various forms of wave generating.