Abstract: The invention describes a system and method how tissue compression can be measured continuously in a non-contact way to provide a low cost, patient/user specific measurement system. The method may be used to inform existing and future pressure relief mattress systems. The invention may also be used for any application either in conjunction with another system or on its own to measure tissue compression. In another embodiment the invention can be used for measuring any type of compression of a compressible material, for example compression of viscoelastic foam or other materials. The invention may also be used to make inferences about the changes of blood flow at site of measurement.

Abstract: A system and method suitable for monitoring user technique of an inhaler device configured for delivery of a medicament is provided. The system may include a microphone adapted for sensing sound made during operation of the inhaler device and processing circuitry operable to process a data signal obtained from the microphone, wherein the data signal includes acoustic information sensed. The processing circuitry is adapted to determine inhalation and exhalation breath characteristics that occur during use, by analyzing the temporal and spectral components of the acoustic information sensed and processed to differentiate between an inhalation and an exhalation, based on both the temporal and spectral components. This information can be processed to determine user technique adherence to inhaler or respiratory device protocol. The analysis of temporal and spectral components can determine the impact of user technique errors on the quantity and the deposition of medicament delivered into the user's airways.

Abstract: Disclosed herein are embodiments of methods and systems for attenuating artifacts in single channel cochlear implants. Both high and low frequency artifacts can be attenuating using embodiments of the disclosed methods and systems. In some embodiments, low-pass filters, impedance balancing, and DC artifact estimation can be used, alone or in combination, to attenuate or completely remove artifacts in single channel cochlear implants.

Abstract: Disclosed herein are embodiments of methods and systems for attenuating artifacts in single channel cochlear implants. Both high and low frequency artifacts can be attenuating using embodiments of the disclosed methods and systems. In some embodiments, low-pass filters, impedance balancing, and DC artifact estimation can be used, alone or in combination, to attenuate or completely remove artifacts in single channel cochlear implants.

Abstract: A system and method suitable for monitoring user technique of an inhaler device configured for delivery of a medicament is provided. The system may include a microphone adapted for sensing sound made during operation of the inhaler device and processing circuitry operable to process a data signal obtained from the microphone, wherein the data signal includes acoustic information sensed. The processing circuitry is adapted to determine inhalation and exhalation breath characteristics that occur during use, by analysing the temporal and spectral components of the acoustic information sensed and processed to differentiate between an inhalation and an exhalation, based on both the temporal and spectral components. This information can be processed to determine user technique adherence to inhaler or respiratory device protocol. The analysis of temporal and spectral components can determine the impact of user technique errors on the quantity and the deposition of medicament delivered into the user's airways.

Abstract: The invention describes a system and method how tissue compression can be measured continuously in a non-contact way to provide a low cost, patient/user specific measurement system. The method may be used to inform existing and future pressure relief mattress systems. The invention may also be used for any application either in conjunction with another system or on its own to measure tissue compression. In another embodiment the invention can be used for measuring any type of compression of a compressible material, for example compression of viscoelastic foam or other materials. The invention may also be used to make inferences about the changes of blood flow at site of measurement.

Abstract: A system for remote assessment of a user is disclosed. The system comprises application software resident on a server and arranged to interact across a network with a user operating a client device to obtain one or more sample signals of the user's speech. A datastore is arranged to store the user speech samples in association with details of the user. A feature extraction engine is arranged to extract one or more first features from respective speech samples. A comparator is arranged to compare the first features extracted from a speech sample with second features extracted from one or more reference samples and to provide a measure of any differences between the first and second features for assessment of the user.

Abstract: A system for remote assessment of a user is disclosed. The system comprises application software resident on a server and arranged to interact across a network with a user operating a client device to obtain one or more sample signals of the user's speech. A datastore is arranged to store the user speech samples in association with details of the user. A feature extraction engine is arranged to extract one or more first features from respective speech samples. A comparator is arranged to compare the first features extracted from a speech sample with second features extracted from one or more reference samples and to provide a measure of any differences between the first and second features for assessment of the user.

Abstract: A method of calibrating bias drift with operating temperature over an operating temperature range for a vibrating structure gyroscope having a substantially planar, substantially ring shaped silicon vibrating structure (1), primary drive means (7) for putting and maintaining the vibrating structure (1) in carrier mode resonance, and secondary drive means (9) for nulling response mode motion of the vibrating structure is described. The secondary drive means (9) includes means to separate a detected response mode motion signal into a real component induced by applied rotation of the vibrating structure gyroscope and a quadrature component which is an error term indicative of error mismatch between carrier mode resonance frequency and response mode resonance frequency.