A sound attenuating apparatus may include a replaceable sound attenuating device and an electronic receiver configured to mate with the replaceable sound attenuating device. The replaceable sound attenuating device may include a sound attenuating material having an embedded sensor element. The sensor element may have a property that corresponds to a type of replaceable sound attenuating device. The electronic receiver may detect the property of the sensor element. A computing device may determine the type of the replaceable sound attenuating device from the property of the sensor element and perform one or more operations based on the type of replaceable sound attenuating device, including audio control, safety warnings, personal attenuation rating determinations, and the like.

A combination is provided including lighting apparatus and a baffle assembly. The lighting apparatus comprises a frame and a light source. The baffle assembly comprises a plurality of sound dampening baffles that can be attached to the frame and help dampen sound near the lighting apparatus.

A combination is provided including lighting apparatus and a baffle assembly. The lighting apparatus comprises a frame and a light source. The baffle assembly comprises a plurality of sound dampening baffles that can be attached to the frame and help dampen sound near the lighting apparatus.

A sound management enclosure, production, and recapture device may include a generally symmetrical design and may be constructed and arranged to optionally internally mount components therein. The sound management device may be constructed and arranged to alter, focus, or dissipate sound waves within a predictable environment in order to enhance the associated effects. Sound capturing devices, such as microphones, may be placed within the sound management enclosure for transmission to an external system for recording or projection.

A sound management enclosure, production, and recapture device may include a generally symmetrical design and may be constructed and arranged to optionally internally mount components therein. The sound management device may be constructed and arranged to alter, focus, or dissipate sound waves within a predictable environment in order to enhance the associated effects. Sound capturing devices, such as microphones, may be placed within the sound management enclosure for transmission to an external system for recording or projection.

Provided is an information processing apparatus including a control unit configured to control a gain of a drive signal for an actuator that is used for vibration control of an object to be controlled, according to a processing result of adaptive processing using an output signal from a sensor and the drive signal for the actuator that have been decimated, the sensor being configured to detect vibration of the object to be controlled, the drive signal being generated according to the output signal from the sensor.

A housing, a vibration assembly, and a vehicle including the vibration assembly is provided, wherein the housing includes a polymer layer and a metal layer. The metal layer is located at an innermost layer of the housing. A material used for the metal layer includes a metal material. The polymer layer is located on an outer side of the metal layer. A material used for the polymer layer includes a polymer material. The housing can convert mechanical vibration energy into heat energy for dissipation, thereby achieving a noise reduction effect.

Methods and systems for actively and adaptively cancelling the noise and vibration generated by medical devices. A method includes receiving data from one or more sensors of a medical device. The method includes determining a signature signal for the medical device based at least on the data. The signature signal is a representation of one or more physical byproducts of the medical device, and one or more environmental conditions of a physical environment proximate to the medical device. The method incudes determining an inverted signal based on the signature signal, the inverted signal configured to mask the signature signal. The method includes generating a physical representation of the inverted signal by one or more electrical or electromechanical components of the medical device, and masking the signature signal with the inverted signal.

Methods and systems for actively and adaptively cancelling the noise and vibration generated by medical devices. A method includes receiving data from one or more sensors of a medical device. The method includes determining a signature signal for the medical device based at least on the data. The signature signal is a representation of one or more physical byproducts of the medical device, and one or more environmental conditions of a physical environment proximate to the medical device. The method incudes determining an inverted signal based on the signature signal, the inverted signal configured to mask the signature signal. The method includes generating a physical representation of the inverted signal by one or more electrical or electromechanical components of the medical device, and masking the signature signal with the inverted signal.

An apparatus may include a passive vibration member and an active vibration member connected to the passive vibration member and including first and second vibration portions arranged in parallel with each other. The apparatus may further include a driving apparatus configured to apply a first driving signal to the first vibration portion and a second driving signal to the second vibration portion, based on an input signal, to vibrate the first vibration portion and the second vibration portion.