An engine sound color control method based on an engine dynamic characteristic with artificial intelligence is provided. The method maximizes audio-visual control through the audio-visual synergy effect by performing both of the visual control of the dash board by the artificial intelligence using the virtual engine revolution per minute based on the shifting event and driving pattern of a vehicle. In particular, the auditory control of the speaker is operated by the signal processing controller based on the virtual engine RPM in response to an engine vibration signal of the engine. Further, a driver is provided with rapid response with vehicle power performance control through a real-time audio-visual change regulated by the artificial intelligence.

The present disclosure is directed to a system and a method for spectral shaping of vehicle noise cancellation. In an example implementation, the method includes determining a center frequency of an expected tonal peak within a selected noise band based upon vehicle data, generating a noise cancellation signal using a weighted shaping filter to shape the noise band, and outputting the noise cancellation signal to smooth the expected tonal peak.

A vehicle includes: a cooling module including a first radiator and a second radiator arranged to be spaced apart from a rear of the first radiator; and a speaker module provided on one side of the cooling module to output a sound to a space between the first radiator and the second radiator.

A sound generating assembly for an exhaust system of an internal combustion engine of a motor vehicle includes a sound generator arranged within a sound generator housing. Furthermore, an outer contour of the sound generator housing has a connecting surface configured to be attached to a motor vehicle structure. The connecting surface is set off from a remaining surface of the outer contour.

A system (70) for actively controlling sound propagating through exhaust systems (40) includes a controller (90), a sound generator (30), in fluid communication with an exhaust system (40), and an actuator (20), inside the sound generator and receiving a controller control signal for generating sound inside the sound generator to reduce sound inside the exhaust system. The controller identifies an increased exhaust pressure inside the exhaust system based on signals output by an error microphone (50), a temperature sensor (51), an impedance measuring bridge (52), a bus system (53), or a water sensor (54). The controller interrupts a generation of the control signal and/or interrupts an output of the control signal to the at least one actuator and/or reduces a level of the control signal output to the at least one actuator by at least 30% or at least 60% upon determining a presence of an excessive exhaust gas pressure.

A sound control device includes a sound collector for collecting a first sound signal generated from a noise source and deformed along a primary path between the noise source and a sound input unit, and a second sound signal generated through a speaker and deformed along a secondary path between the speaker and the sound input unit; and a sound controller for updating an adaptive filter in a designed adaptive control logic with at least one of the collected first and second sound signals and a preset target sound, and generating a sound effect that reflects the secondary path based on the updated adaptive filter.

Embodiments are disclosed for generating masking sounds in a vehicle, such as an at least partially electric vehicle. An example sound generation system in a vehicle includes a speaker, a processor, and a storage device holding instructions executable by the processor to modulate a sound characteristic of a first frequency range of a synthetic sound to generate a modulated synthetic sound portion while maintaining the sound characteristic of a second frequency range of the synthetic sound that is lower than the first frequency range to generate an unmodulated synthetic sound portion. The instructions are further executable to output a combined synthetic sound including both the modulated synthetic sound portion and the unmodulated synthetic sound portion. The sound characteristic of the first frequency range may be modulated as a function of a vehicle operating parameter.

A sound control device and a method for controlling the sound control device in a vehicle. The method comprises obtaining an error signal indicating residual noise in the vehicle, and an audio signal; calculating magnitudes of low frequency components of the error signal; adjusting magnitudes of low frequency components of the audio signal according to the magnitudes of the low frequency components of the error signal; and outputting the adjusted audio signal through a speaker.

A sound control device includes a sound collector for collecting a first sound signal generated from a noise source and deformed along a primary path between the noise source and a sound input unit, and a second sound signal generated through a speaker and deformed along a secondary path between the speaker and the sound input unit; and a sound controller for updating an adaptive filter in a designed adaptive control logic with at least one of the collected first and second sound signals and a preset target sound, and generating a sound effect that reflects the secondary path based on the updated adaptive filter.