Abstract: Systems and methods for electrocardiography monitoring use multiple capacitive sensors in order to determine reliable measurements of electrophysiological information of a patient. Relative coupling strength and/or reliability is used to select dynamically which sensors to use in order to determine, in particular, an electrocardiogram of the patient.

Abstract: Systems and methods for non-invasive thermal monitoring use multiple coupling sensors and temperature sensors in order to determine multiple temperatures of a patient. The sensors may be carried by support structure such as a wrap, blanket, mattress, and similar structures. Signals generated by the coupling sensors reflect coupling strength and/or reliability between sensors and the patient. Positional information/mapping of temperature information can be derived from the coupling sensors, image sensors, and/or the variation of the temperature profile itself over time. The measurements may be used to construct a thermal (full-body) profile of the patient and provide targeted thermal control (heating/cooling).

Abstract: A device and method for monitoring pain of a user (50) are presented. The device (10) comprises a receiving unit (12) for receiving an accelerometer signal (38) from an accelerometer sensor (30) worn by the user (50), wherein the accelerometer signal (38) comprises components of a pulse signal (20) and a respiration signal (22); and a processing unit (14) configured to: derive the pulse signal (20) and the respiration signal (22) from the accelerometer signal (38); adapt the pulse signal (20) based on the respiration signal (22) in order to obtain a corrected pulse signal (40); and derive a pain descriptor based on the corrected pulse signal (40).