Abstract: An electrocardiogram device configured to transmit at least one signal responsive to a wearer's cardiac electrical activity can include a disposable portion and a reusable portion configured to mechanically and electrically mate with each other. The disposable portion can include a base having at least one mechanical connector portion, a plurality of cables and corresponding external ECG electrodes, and a first plurality of electrical connectors associated with the plurality of cables. The reusable portion can include a cover having at least one mechanical connector portion, a second plurality of electrical connectors configured to electrically connect with the first plurality of electrical connectors of the disposable portion, and an output connector port configured to transmit at least one signal responsive to one or more signals outputted by the external ECG electrodes of the disposable portion.

Abstract: A monitoring hub can monitor a health status of a subject having a wireless wearable device. The monitoring hub can access wireless configuration data received from a remote server. The monitoring can establish wireless communication with the wearable device, based on the wireless configuration data, to wirelessly receive real-time physiological data from the wearable device. The monitoring hub can receive historical physiological data from the remote server. The historical physiological data comprising physiological data collected by the wearable device and/or communicated from the wearable device to another monitoring hub before establishing the wireless communication between the monitoring hub and the wearable device. The monitoring hub can generate user interface data for rendering a user interface including the real-time physiological data in combination with the historical physiological data to reduce a gap in monitoring between the historical physiological data and the real-time physiological data.

Abstract: A computing system can facilitate continuously monitoring a patient having a wireless wearable device. The computing system can receive, via an in-room display device, a request to transfer wireless monitoring of the patient from the in-room display device to a mobile monitoring hub. The request can comprise identification data associated with a user requesting to transfer the wireless monitoring. The computing system can determine whether the user has permission to transfer the wireless monitoring based on at least the identification data. Responsive to determining that user has permission to transfer the wireless monitoring, the computing system can access wireless configuration data associated with the wireless wearable and received from the in-room display device. The computing system can wirelessly transmit said wireless configuration data to the mobile monitoring hub to cause the mobile monitoring hub to establish a wireless communication with the wearable device.

Abstract: A wearable device configured to measure one or more physiological parameters of a user is described. In some embodiments, the wearable device includes: a top frame, a bottom frame connected to the top frame, and an interior between the top and bottom frames; a circuit board positioned within the interior; a first temperature sensor coupled to the circuit board and configured to generate one or more signals responsive to thermal energy of the user; and a second temperature sensor coupled to the circuit board and configured to generate one or more signals responsive to at least one of temperature within said interior and temperature outside said interior. In some embodiments, the circuit board is positioned between the first and second temperature sensors and no air gap is present between either of the first and second temperatures and the circuit board.