Abstract: A noise reduction headset including a negative feedback active noise reduction signal processing path for providing active noise reduction, an electronic communication signal processing path, a talk-through signal processing path for providing talk-through capability, comprising at least one talk-through microphone separate from the electronic communication signal processing path, and a switching element for disabling one or both of the noise reduction signal path and the talk-through signal path.

Abstract: A speaker cabinet includes at least one speaker contained in the speaker cabinet, and a speaker covering shrouding the at least one speaker, wherein the speaker covering is movable to expose the at least one speaker. The speaker covering motion may be automatic and provided by an electromechanical motion control system including at least one electric actuator and at least one electric actuator drive circuit. The automatic speaker covering motion may be activated by the electromechanical motion control system in response to an audio signal received by the speaker cabinet.

Abstract: The invention describes an apparatus for software or hardware emulation of electronic audio equipment, which characterizes a non-linear behavior. The invention comprises an analog to digital interface (504) for the input audio signal (502), whose output (506) is communicatively coupled to a dynamic non-linearity (508). The output (514) of this dynamic non-linearity is finally communicatively coupled to an interface (516) producing the output audio signal (518). The dynamic non-linearity consists of a mode switching static non-linear function, where the mode parameter (512) is estimated in a function (510) based on the previous values on the input (506) and output (514) of the dynamic non-linearity.

Abstract: An active vibratory noise control apparatus has a speaker for canceling vibratory noise in the passenger compartment of a vehicle, the speaker being used as a speaker of one of different audio devices that can be installed on the vehicle. Each of the audio devices has a command key switch assembly. When the command key switch assembly is operated to turn off the transistor, a control signal is applied to a switching control circuit in an active vibratory noise control unit, which identifies the audio device installed on the vehicle. The active vibratory noise control unit generates a canceling signal matching characteristics of the speaker of the identified audio device for canceling vibratory noise in the passenger compartment.

Abstract: In accordance with a traveling state of a vehicle, a tone indicating, for example, that the vehicle is traveling is generated as a tone of a first performance part. Also, a variation in any of various states of the vehicle, such as an operating condition of a winker or flasher, is detected, and a tone corresponding to the detected state is generated as a tone of a second performance part. For example, ensemble data including the first and second performance parts may be employed.

Abstract: A sound signal generator includes a sound signal output function for outputting a sound signal to a command-driven amplifier that drives a speaker by using the sound signal being converted according to a control command, a first counter control function for changing a content of a first counter in a storage medium in a predetermined manner, a control command sending function for sending a control command to the command-driven amplifier upon having change in the content of the first counter in the predetermined manner, and a second counter control function for changing a content of a second counter in the storage medium in the predetermined manner upon having the control command sent to the command-driven amplifier by the control command sending function.

Abstract: Disclosed are a sound card and a method for limiting inputs to and outputs from that computer sound card. Specifically, the voltage of a feedback connection between the input and output of a sound card amplifier is increased from minimum voltage until an over-saturation condition occurs. This finds the “output voltage limit.” Thereafter, the output voltage of the amplifier is restricted to the output voltage limit. The feedback connection is then terminated and the voltage of the signal being supplied to the amplifier is increased from minimum voltage until the over-saturation condition again occurs. This finds the “input voltage limit.” Thereafter, the input supplied to the amplifier is restricted to the input voltage limit.

Abstract: Electrical signals corresponding to sound are received at a wire, and sound is generated at a speaker connected to the wire. The sound is resonated in a cavity of a shell housing the speaker, and then passed along a transmission tube toward a pinna of a user's ear without directing the sound directly toward the user's ear canal.

Abstract: A combined multirate-based Finite Impulse Response (FIR) filter equalization technique combines a low-order FIR equalization filter operating at a lower rate for equalization of a loudspeaker-room response at low frequencies, and a complementary low-order minimum-phase FIR equalization filter operating at a higher rate for equalization of the loudspeaker-room response at higher frequencies. The design of two complementary band filters for separately performing low and high frequency equalization, keeps the system delay at a minimum while maintaining excellent equalization performance. Splicing between the two equalization filters, for maintaining a flat magnitude response in the transition region of the two complementary filters, is done automatically through level adjustment of one equalization filter relative to the other. The present invention achieves excellent equalization at low filter orders and hence reduced computational complexity.

Abstract: An impulsive communication activated device for connection to a computer input port for controlling a computer, is disclosed. The disclosed device includes an output connector for communicating with the computer input port, and includes a sensor for detecting an impulsive communication such as a hand clap or other predetermined input, to generate an impulsive signal. The disclosed device includes a comparator for responding to both a reference signal and to the impulsive signal, and to determine if the impulsive signal differs substantially from the reference signal to generate a start signal. The disclosed device includes a logic circuit responsive to the start signal for generating a predetermined computer command signal to control the computer.

Abstract: An impulse response synthesis method is carried out by a dispersion calculation process for calculating a dispersion of phase characteristics in association with a given room based on a volume of the room, a degree of sound absorption of the room, and a distance between a sound source and a receiving point arranged in the room, a noise creation process for creating a noise having the dispersion of the phase characteristics calculated in the dispersion calculation process, a trend addition process for adding a phase trend to the noise created by the noise creation process in accordance with the distance between the sound source and the receiving point and obtaining a phase characteristic of a minimum-phase component from the noise added with the phase trend, and a synthesis process for synthesizing an impulse response based on the phase characteristic of the minimum-phase component, the impulse response being used to create reverberation for the room.

Abstract: A method, an apparatus, and a software product to process a plurality of input audio signals. The apparatus accepts a plurality of input signals and includes a multi-input, multi-output reverberator arranged to generate a set of output signals including delayed reverberation components simulating the reverberations a listener is likely to hear in a listening environment. The apparatus further includes a multi-input, two-output filter accepting the outputs of the reverberator and the plurality of input terminals, providing outputs for the left and right ears, and configured to implement a set of head related transfer functions corresponding to a listening environment and a set of directions of a listener in the listening environment.

Abstract: A method for deploying hearing instrument fitting software wherein the fitting software comprises executable fitting program code (13) configured to process fitting program data (12,14) on a programmable data processor (11), comprises the steps of reading fitting program definition data (3) from data storage means provided in the hearing instrument (1), determining, from the fitting program definition data (3), at least part of least one of the fitting program data (12,14) and the fitting program code (13). The hearing instrument itself comprises the information defining the fitting software —be it the complete fitting software or an update or change to a fitting software residing in an external device.

Abstract: An array of microphones is provided wherein the microphones are positioned at the ends of cavities within a diffracting structure. The cavity depth, width, and shape are optimised to provide high directivity without grating lobes, at frequencies for which the distance between microphones is greater than half the acoustic wavelength.

Abstract: A sound control system includes a digital mixing system, a control system, and a private control system. The professional operator who is experienced in handling of the digital mixing system executes detailed settings of respective parameters associated with the mixing process of the digital mixing system by using the control system. The amateur operator who is inexperienced in the handling of the digital mixing system executes settings of a part of parameters out of the parameters that are authorized by the professional operator, etc. by using the private control system.

Abstract: This system has a plurality of microphones oriented in several directions and mounted in a support so that each one is flush with or disposed on a rigid surface, the various microphones being connected to a signal processing device that processes the signals coming from the microphones to provide a noise source hologram, namely a distribution of the acoustic pressures or intensities at various points on a given surface.

Abstract: The invention relates to a method and a device for reproducing a binaural output signal generated from a monaural input signal and comprising a first output signal and a second output signal via at least a first and a second speaker of a binaural headset particularly for VoIP applications.

Abstract: In accordance with the invention is disclosed a portable speaker of exceptionally low bulk yet very good performance which incorporates a non-homogeneous enclosure shape consisting of two main parts, one shallow box-shaped housing section and one cylindrical housing section, and incorporating retractable legs for support of the housing on the ground or table on which it is placed during its operation. A much larger loudspeaker than would be otherwise possible can then be used in an enclosure of very small bulk. The box-shaped housing section is dedicated to housing only the frame/basket and concentric diaphragm of the speaker, which, together generally comprises only half the speakers total length where the other half of the speakers length, the magnet assembly, is enclosed by the cylindrical section.

Abstract: Resonant frequencies f2 and f3 detected in a resonant space are determined as center frequencies of a dip. Based on measurement values at a speaker and a microphone in the resonant space, a basic amplitude frequency characteristic Ca and a target amplitude frequency characteristic Cd are found. A smoothness degree on a frequency axis is larger in the target amplitude frequency characteristic Cd than the basic amplitude frequency characteristic Ca. A damping level and quality factor of the dip are determined based on a difference between the basic amplitude frequency characteristic Ca and the target amplitude frequency characteristic Cd in the center frequencies f2 and f3 of the dip and frequencies near the center frequencies.

Abstract: A level meter displaying method which is capable of changing the rate of change in the angle or position of an indicator in at least one particular input signal level range. A scale image obtained according to a function which nonlinearly varies with a signal level of the sound signal is displayed on a display. The signal level of the sound signal is converted into an indicator angle or indicator position of the level meter according to the function. A level image corresponding to the resulting indicator angle or indicator position is displayed on the display. A curve having at least two inflection points each of which is a boundary between a region where a rate of change of the indicator angle or the indicator position to be converted according to the function is larger, and a region where the indicator angle or the indicator position is smaller is generated by the function.