Virtual aircraft simulators are used to educate and train aircraft pilots flying solo or with another pilot, instructor, and air-traffic controller. The device contains a capsule installed on a computerized mechanical platform providing up to six degrees of freedom of real-time movement, and a pilot seat. To simulate real sensations of the pilot more closely, the capsule may also be equipped with a control stick, one or more thrust levers, and pedals. The stereo glasses are used to create virtual reality. The invention improves the functionality of the simulator by introducing a virtual avatar with artificial intelligence, which, when flying with a trainee, can replicate the actions of a captain, co-pilot, air-traffic controller, or instructor. The avatar also can maintain a verbal dialogue with the trainee within the scope of a standard pilot communication protocol thesaurus. The device is suitable for any aircraft type without changing the hardware.

The present invention relates to an experience apparatus including: an avatar configured to move in a first space; and a simulator configured to provide stimuli an experiencing person in a second space and enable the experiencing person to undergo experience as being aboard the avatar. Therefore, reality may be improved and the experiencing person may undergo various situations with relatively lesser time and costs.

A method and apparatus for managing a simulation. The method comprises detecting a user input manipulating a virtual control on a control panel displayed in a target output location on a display system in a simulator during the simulation of a platform. Further, the method comprises identifying a sound for the virtual control when the user input is detected. Still further, the method comprises controlling a speaker system to output the sound identified during the simulation in a manner that is perceived by a human operator to be from the target output location.

A method and apparatus for managing a simulation. The method comprises detecting a user input manipulating a virtual control on a control panel displayed in a target output location on a display system in a simulator during the simulation of a platform. Further, the method comprises identifying a sound for the virtual control when the user input is detected. Still further, the method comprises controlling a speaker system to output the sound identified during the simulation in a manner that is perceived by a human operator to be from the target output location.

A system for generating calibrated multi-channel non-coherent signals. The system comprises a plurality of synthesizers for generating a corresponding plurality of signals, and a plurality of filters for band-pass filtering the plurality of generated signals. Each filter filters the signal generated by one of the plurality of synthesizers, by performing the band-pass filtering in a dedicated frequency band. The system comprises a plurality of loudspeakers for playing the plurality of filtered signals respectively filtered by the plurality of filters. The system comprises a channel configurator for configuring at least one of the filters for performing the band-pass filtering according to a calibrated amplitude spectrum of the signal. The calibrated amplitude spectrum is determined based on a reference amplitude spectrum of the signal and at least one of the following parameters: a target global signal amplitude, a directionality of the signal when played by the corresponding loudspeaker, and a frequency response of the synthesizer.

A system for generating calibrated multi-channel non-coherent signals. The system comprises a plurality of synthesizers for generating a corresponding plurality of signals, and a plurality of filters for band-pass filtering the plurality of generated signals. Each filter filters the signal generated by one of the plurality of synthesizers, by performing the band-pass filtering in a dedicated frequency band. The system comprises a plurality of loudspeakers for playing the plurality of filtered signals respectively filtered by the plurality of filters. The system comprises a channel configurator for configuring at least one of the filters for performing the band-pass filtering according to a calibrated amplitude spectrum of the signal. The calibrated amplitude spectrum is determined based on a reference amplitude spectrum of the signal and at least one of the following parameters: a target global signal amplitude, a directionality of the signal when played by the corresponding loudspeaker, and a frequency response of the synthesizer.

A system for selecting a loudspeaker based on its low frequency rendering. The system comprises a plurality of synthesizers for generating a corresponding plurality of signals. The system comprises a plurality of filters for band-pass filtering the plurality of generated signals. Each filter filters the signal generated by one of the plurality of synthesizers. Each filter is configured for performing the band-pass filtering in a dedicated frequency band. The system comprises a plurality of loudspeakers for playing the plurality of filtered signals. Each loudspeaker plays the signal filtered by one of the plurality of filters. The system comprises a channel configurator for selecting one among the plurality of loudspeakers based on a reference amplitude spectrum of a model signal and a low frequency response of each one of the plurality of loudspeakers.

A system for selecting a loudspeaker based on its low frequency rendering. The system comprises a plurality of synthesizers for generating a corresponding plurality of signals. The system comprises a plurality of filters for band-pass filtering the plurality of generated signals. Each filter filters the signal generated by one of the plurality of synthesizers. Each filter is configured for performing the band-pass filtering in a dedicated frequency band. The system comprises a plurality of loudspeakers for playing the plurality of filtered signals. Each loudspeaker plays the signal filtered by one of the plurality of filters. The system comprises a channel configurator for selecting one among the plurality of loudspeakers based on a reference amplitude spectrum of a model signal and a low frequency response of each one of the plurality of loudspeakers.

A system for generating calibrated multi-channel non-coherent signals. The system comprises a plurality of synthesizers for generating a corresponding plurality of signals, and a plurality of filters for band-pass filtering the plurality of generated signals. Each filter filters the signal generated by one of the plurality of synthesizers, by performing the band-pass filtering in a dedicated frequency band. The system comprises a plurality of loudspeakers for playing the plurality of filtered signals respectively filtered by the plurality of filters. The system comprises a channel configurator for configuring at least one of the filters for performing the band-pass filtering according to a calibrated amplitude spectrum of the signal. The calibrated amplitude spectrum is determined based on a reference amplitude spectrum of the signal and at least one of the following parameters: a target global signal amplitude, a directionality of the signal when played by the corresponding loudspeaker, and a frequency response of the synthesizer.

A system for generating calibrated multi-channel non-coherent signals. The system comprises a plurality of synthesizers for generating a corresponding plurality of signals, and a plurality of filters for band-pass filtering the plurality of generated signals. Each filter filters the signal generated by one of the plurality of synthesizers, by performing the band-pass filtering in a dedicated frequency band. The system comprises a plurality of loudspeakers for playing the plurality of filtered signals respectively filtered by the plurality of filters. The system comprises a channel configurator for configuring at least one of the filters for performing the band-pass filtering according to a calibrated amplitude spectrum of the signal. The calibrated amplitude spectrum is determined based on a reference amplitude spectrum of the signal and at least one of the following parameters: a target global signal amplitude, a directionality of the signal when played by the corresponding loudspeaker, and a frequency response of the synthesizer.