Disclosed herein are mobile battery powered medical carts, methods of operating these carts to increase efficiency of health-care operations, and methods of accurately calculating remaining battery runtime for these carts. A mobile battery powered medical cart may comprise a wheeled base portion having a sliding battery power bay, an upper workstation area having a monitor, a computer, and a printer, and at least one adjustable height column coupling the wheeled base portion to the upper workstation area. The carts may include a glass overlay display positioned on a top surface of the upper workstation area and having anti-bacterial and chemical resistant properties. The glass overlay display may be configured to provide medical employees with haptic feedback on remaining battery runtime, calculated via a custom algorithm for increased accuracy.

A device for obtaining physiological information of a medical patient and wirelessly transmitting the obtained physiological information to a wireless receiver. The device may include one or more optical sensors configured to obtain the physiological information. The device may include a wireless transceiver to wirelessly transmit data reflective of the obtained physiological information.

This liquid sample measurement device is provided with: a lancet mounting part to and from which a lancet device having a skin contact section for puncturing skin can be attached and detached; a sensor mounting part to which a biosensor, which is spotted with blood that comes out from the punctured skin, can be attached; and a measurement part that uses the biosensor attached to the sensor mounting part to measure the amounts of substances in the blood. The liquid sample measurement device includes a feature that makes it necessary to replace a lancet device that has been attached to the lance mounting part and has punctured skin, each time a lancet device is used to puncture skin.

A surgical instrument includes a handle assembly, a power source coupled with the handle assembly, and a control circuit coupled with the handle assembly and the power source. The handle assembly, the power source, and the control circuit are configured to drive an end effector of a shaft assembly coupled with the handle assembly to perform an operation on tissue. The control circuit is configured to receive life deduction event data. The control circuit is configured to determine an end of life for the power source based on the life deduction event data.

A method for a medical procedure is provided and includes obtaining data from sensors disposed in a medical instrument. The sensors include at least one first sensor configured to measure acceleration, at least one second sensor configured to measure rotation, and at least one third sensor configured to measure direction of movement. The method further includes correlating the data from the sensors with time and storing the correlated data and time. A medical system, a method for imaging a medical procedure, and a method of processing sensor measurements are also disclosed.

A method of operating a surgical tool includes mounting the surgical tool to a tool driver. The surgical tool includes one or more drive cables movable to actuate an end effector, and one or more segments are defined along a portion of at least one of the one or more drive cables and each segment exhibits a usage value. Usage of the drive cables is monitored with a computer system in communication with the tool driver, and the usage value of one or more of the segments is altered based on usage of the surgical tool.

A method is provided. The method includes identifying whether an amount of change in the pressure detected through an atmospheric pressure sensor is greater than or equal to a specified first threshold, in response to the amount of change in the pressure being greater than or equal to the first threshold, waking up a biometric sensor module including a plurality of electrodes in which some of the plurality of electrodes are disposed to come into contact with a body part of a user when the electronic device is worn, and others thereof are disposed to not come into contact with a body part of the user when the electronic device is worn, and identifying whether an interrupt signal, indicating that a state in which the plurality of electrodes are electrically connected is maintained for a specified first time or more, is received from the biometric sensor module.

An information generation device includes: a receiver configured to receive physiological information of a subject, from a terminal device configured to operate by power of a battery, and continuously acquire and transmit the physiological information; a determination unit configured to determine whether non-transmission time, during which the terminal device is not capable of transmitting the physiological information to the receiver since the power is not supplied to the terminal device, is equal to or longer than predetermined time; and a generator configured to generate first alert information indicating that the non-transmission time is equal to or longer than the predetermined time, when the determination unit determines that the non-transmission time is equal to or longer than the predetermined time.

Aspects of the present disclosure include a sensor configured to store in memory indications of sensor use information and formulas or indications of formulas for determining the useful life of a sensor from the indications of sensor use information. A monitor connected to the sensor monitors sensor use and stores indications of the use on sensor memory. The monitor and/or sensor compute the useful life of the sensor from the indications of use and the formulas. When the useful life of the sensor is reached, an indication is given to replace the sensor.

Systems, devices, and methods are provided that allow the authentication of devices within analyte monitoring systems. The analyte monitoring systems can be in vivo systems and can include a sensor control device with a sensor and accompanying circuitry, as well as a reader device for communicating with the sensor control device. The analyte monitoring systems can interface with a trusted computer system located at a remote site. Numerous techniques of authentication are disclosed that can enable the detection of counterfeit components, such as a counterfeit sensor control device.