Abstract: A motion feedback device includes a housing, a speaker and a control module carried by said housing. The control module includes a controller and a motion sensor. The controller is configured to include a mapping adapted for the creation of sound in response to any user-produced movement of the housing as detected by the motion sensor. This allows for continuous original sound generation or composition based upon the user produced movements of the housing.

Abstract: Detecting and classifying rodent movement and/or motion includes sensing a first signal from a first sensor indicative of motion of a first rodent, wherein the first signal includes a first noise component and sensing a noise reference signal from a second sensor indicative of ambient noise. Next, modifying the first signal based on the noise reference signal to produce a first output signal, wherein said first output signal includes a second noise component less than the first noise component; and then outputting the first output signal.

Abstract: A system and method for rendering a virtual sound source using a plurality of speakers in an arbitrary arrangement includes expanding a wave field of the virtual sound source and a composite wave field generated by the plurality of speakers into multi-pole expansions, and equating the multi-pole expansions to each other to form a continuous equation. A set of constraints is applied to the continuous equation that minimize an error in a sweet spot region resulting in a linear system of equations. The linear system of equations is solved using singular-value decomposition to arrive at a pseudo-inverse representing a multi-dimensional transfer function between the virtual sound source and the plurality of speakers. The multi-dimensional transfer function is then applied to a signal of the virtual sound source to render the virtual sound source in the sweet spot region using the plurality of speakers in the arbitrary arrangement.

Abstract: A diagnostic system for detecting a right-to-left cardiopulmonary shunt in a patient. The system includes at least one Doppler ultrasound transducer, a transducer housing, a transducer housing placement device to affix the Doppler ultrasound transducer housing over a peripheral blood vessel, and a control system configured to receive and process the echoes and transform the echoes into data indicative of the presence or absence of a bubbles within the peripheral blood vessel, thereby determining whether or not the patient has a right-to-left cardiopulmonary shunt. A method of detecting a right-to-left cardiopulmonary shunt in a patient is also provided.

Abstract: A system and method for rendering a virtual sound source using a plurality of speakers in an arbitrary arrangement includes expanding a wave field of the virtual sound source and a composite wave field generated by the plurality of speakers into multi-pole expansions, and equating the multi-pole expansions to each other to form a continuous equation. A set of constraints is applied to the continuous equation that minimize an error in a sweet spot region resulting in a linear system of equations. The linear system of equations is solved using singular-value decomposition to arrive at a pseudo-inverse representing a multi-dimensional transfer function between the virtual sound source and the plurality of speakers. The multi-dimensional transfer function is then applied to a signal of the virtual sound source to render the virtual sound source in the sweet spot region using the plurality of speakers in the arbitrary arrangement.