An illustrative calibration member made from a material that scatters light may be used to perform a calibration operation with respect to an optical measurement device having a plurality of light sources and a plurality of detectors distributed among a plurality of modules. The calibration member may form an exterior surface configured to support the optical measurement device and scatter photons of light emitted by the optical measurement device. The calibration operation may be performed based on arrival times of the scattered photons detected by the optical measurement device.

This document discusses, among other things, systems and methods to compensate for the effects of temperature on sensors, such as analyte sensor. An example method may include determining a temperature-compensated glucose concentration level by receiving a temperature signal indicative of a temperature parameter of an external component, receiving a glucose signal indicative of an in vivo glucose concentration level, and determining a compensated glucose concentration level based on the glucose signal, the temperature signal, and a delay parameter.

Systems and methods based on thermal imaging for rapid detection of fever conditions in humans that provide for extremely inexpensive, mass producible, field deployable devices accurate in specific, relatively low temperature ranges, and in particular temperatures near nominal human body temperature. The system may include a thermal imager tailored for the application and a corresponding mass producible controlled temperature calibration source configured to provide real time calibration near the human body temperature of interest. The imager and source are deployed in a way such that target people and the calibration source will be within the imager FOV for fever detection. The combination of real time near measurement temperature calibration, with suitable thermography approaches, yield fast, accurate measurements in the fever range using low cost, easy-to-produce components. In combination with a visible imager and pattern/facial recognition techniques, detection of a human target's facial regions of interest suitable for fever detection can be accurately accomplished.

A medical device communication system with a modular design to communicate with different types of medical devices, such as physiological sensors. The modular design is implemented using an extensible software library that provides a uniform framework for various applications or third party applications access to medical device data. The modular design also allows for regulated and unregulated portions of the system to be integrated into the system while allowing each portion to be updated separately. The regulated portion of the system may include components, such as sensors and the software library, that are subject to regulatory approval while the unregulated portion may include applications that are not subject to regulatory approval. Thus, the system enables a third party application developer to avoid having to submit the application to a regulatory agency for an application making use of the sensor data.

The invention provides a method for obtaining a filtered capnography signal by suppressing a spectral background signal within an optical absorption signal. An optical absorption signal is obtained from a subject across a range of wavelengths, wherein the optical absorption signal represents a proportion of a light signal that is absorbed as the light signal passes through a respiratory air sample undergoing investigation, and wherein the optical absorption signal comprises a spectral background signal. A second harmonic signal is isolated from the optical absorption signal and the period of the spectral background signal is identified. The second harmonic signal is sampled at a central wavelength of the second harmonic signal, wherein the central wavelength represents a maximum Carbon Dioxide absorption, an at an off-center wavelength of the second harmonic signal, wherein the off-center wavelength and the central wavelength are separated by a multiple of the period of the spectral background signal. A filtered capnography signal is then generated based on the sampled second harmonic signal.

Provided are systems and methods for tracking one or more electrode positions.

An example method of calibrating a blood flow monitoring device includes positioning a remote device and a blood flow monitor within physical proximity of one another, placing the remote device in a calibration mode such that a microphone of the remote device is active and can receive Doppler sounds emitted by a speaker of the blood flow monitor; emitting Doppler sounds through the speaker of the blood flow monitor; receiving the Doppler sounds as received Doppler sounds using the microphone of the remote device; emitting the received Doppler sounds through a speaker of the remote device as remote device sounds; receiving the remote device sounds using the microphone of the remote device; identifying any differences between the received Doppler sounds and the received remote device sounds; and calibrating the remote device based on the identified differences between the received Doppler sounds and the received remote device sounds.

The present invention relates to a system and a method for calibration between coordinate systems of a 3D camera and a medical imaging apparatus and an application thereof. The calibration system comprises: a calibration tool arranged on a scanning table, wherein the calibration tool is provided with markers and a reference point, the reference point is aligned with a center of the medical imaging apparatus to serve as an origin of the coordinate system of the medical imaging apparatus, and positions of the markers in the coordinate system of the medical imaging apparatus are calculated according to relative positions of the markers with respect to the reference point; a 3D camera for capturing images of the markers and determining positions of the markers in the coordinate system of the 3D camera based on the captured images; and a calculation device for calculating a calibration matrix using the positions of the markers in the coordinate system of the 3D camera and the positions of the markers in the coordinate system of the medical imaging apparatus, and performing calibration between the coordinate system of the 3D camera and the coordinate system of the medical imaging apparatus using the calibration matrix. The method corresponds to the aforementioned system. The present invention further relates to an application of the calibration and a computer-readable storage medium capable of implementing the method and the application.

The invention relates to an infrared thermometer and a forehead temperature correction and measurement method. The infrared thermometer comprises a temperature sensor, a corrector, a processor, and a display device. The temperature sensor is configured for measuring an actual temperature. In a correction mode, the corrector records actual temperature of an ear and a forehead of a user as an ear temperature and a forehead temperature respectively. In a forehead temperature measurement mode, the processor generates a body temperature according to a measured forehead temperature and the forehead temperature correction value, and the display device displays the body temperature. The infrared thermometer and the forehead temperature correction and measurement method can realize accurate measurement of the forehead temperature.

A system for using an oximeter to provide blood pressure readings relies on a comparative interface between readings of a patient's blood flow waveform (oximeter) and blood pressure (sphygmomanometer) in his/her vasculature. For this purpose, a steady state condition is identified by calibrating a blood flow measurement A from the oximeter with a simultaneously obtained blood pressure measurement P from the sphygmomanometer. Further, using these simultaneous measurements, a blood pressure model is created that is based on the steady state. Thereafter, blood flow waveform readings from the oximeter are correlated with the steady state model to provide continuous blood pressure readings.