Methods and devices and systems including a communication module operatively coupled to a data collection module for communicating the stored analyte related data after the analyte related data is stored in the data collection module over a predetermined time period, and a user interface unit configured to communicate with the communication module to receive from the communication module the stored analyte related data in the data collection module over the predetermined time period, and to output information associated with the monitored analyte level, where the user interface unit is configured to operate in a prospective analysis mode including substantially real time output of information associated with the monitored analyte level, or a retrospective analysis mode including limited output of information during the predetermined time period wherein no information related to the monitored analyte level is output during the predetermined time period, are provided.

A health management device includes: an acquisition unit configured to acquire a weight of an occupant detected by a detector provided in a seat of a vehicle that transports the occupant or a value detectable using the weight as a characteristic value associated with a physical body of the occupant; and a display information generating unit configured to generate display information which is displayed on a display device which is visible to an occupant when the occupant sits on the seat based on the characteristic value, the display information varying according to a difference between the characteristic value detected at the timing at which the occupant sits on the seat and the characteristic value of the occupant detected in the past.

A method of managing insulin includes receiving blood glucose measurements on a computing device from a glucometer. The blood glucose measurements are separated by a time interval. The method includes determining, by the computing device, an insulin dose rate based on the blood glucose measurements and determining a blood glucose drop rate based on the blood glucose measurements and the time interval. The method also includes determining a blood glucose percentage drop based on the blood glucose measurements. The method includes decreasing the time interval between blood glucose measurements by the glucometer when the blood glucose drop rate is greater than a threshold drop rate, and decreasing the time interval between blood glucose measurements by the glucometer when the blood glucose percentage drop is greater than a threshold percentage drop.

A method of managing insulin includes receiving blood glucose measurements on a computing device from a glucometer. The blood glucose measurements are separated by a time interval. The method includes determining, by the computing device, an insulin dose rate based on the blood glucose measurements and determining a blood glucose drop rate based on the blood glucose measurements and the time interval. The method also includes determining a blood glucose percentage drop based on the blood glucose measurements. The method includes decreasing the time interval between blood glucose measurements by the glucometer when the blood glucose drop rate is greater than a threshold drop rate, and decreasing the time interval between blood glucose measurements by the glucometer when the blood glucose percentage drop is greater than a threshold percentage drop.

A cable manager includes a backbone assembly and at least one side wall extending from the backbone assembly. The at least one side wall optionally includes one or more cable finger units. The backbone assembly includes a spine member having an extruded construction. The spine member includes one or more channels extending substantially an entire length thereof to facilitate easy attachment, removal and/or repositioning of a structure relative to the spine member. The cable manager optionally includes an accessory rod, a half-spool assembly, a cable finger accessory, a strap/buckle accessory, and/or a door assembly having an interference-free hinge set.

A cable manager includes a backbone assembly and at least one side wall extending from the backbone assembly. The at least one side wall optionally includes one or more cable finger units. The backbone assembly includes a spine member having an extruded construction. The spine member includes one or more channels extending substantially an entire length thereof to facilitate easy attachment, removal and/or repositioning of a structure relative to the spine member. The cable manager optionally includes an accessory rod, a half-spool assembly, a cable finger accessory, a strap/buckle accessory, and/or a door assembly having an interference-free hinge set.

The present invention contemplates a method of activating a wearable device, the method comprising the step of detecting an electromagnetic field generated by a Near Field Communication (“NFC”) transmitter within a detection range of an electromagnetic field detection circuit of the wearable device. In response to detecting the electromagnetic signal, the method further contemplates emitting a trigger signal to trigger a flip-flop, wherein triggering the flip-flop causes a switching transistor to switch between at least one of an activated state and a deactivated state, and wherein causing the switching transistor to switch between at least one of the activated state and the deactivated state, switches a connection between an electronic circuit and a power supply between at least one of a on state and an off state.

The present invention contemplates a method of activating a wearable device, the method comprising the step of detecting an electromagnetic field generated by a Near Field Communication (“NFC”) transmitter within a detection range of an electromagnetic field detection circuit of the wearable device. In response to detecting the electromagnetic signal, the method further contemplates emitting a trigger signal to trigger a flip-flop, wherein triggering the flip-flop causes a switching transistor to switch between at least one of an activated state and a deactivated state, and wherein causing the switching transistor to switch between at least one of the activated state and the deactivated state, switches a connection between an electronic circuit and a power supply between at least one of a on state and an off state.

In an approach for monitoring a user's in-flight activity and/or a pattern of movement of a user and warning the user of an in-flight activity or a pattern of movement that could lead to a potential short-term or long-term injury, a processor monitors a body movement and a posture of a user through an application of micro-location analysis enabled by a mesh network of 5G sensors over a period of time. A processor determines whether the body movement and the posture detected can lead to an activity or a series of activities that can result in a potential injury. Responsive to determining a pre-set threshold of risk has been reached, a processor issues a real time alert to the user to warn of the potential injury.

A resource pooling system and method for multi-pillar triggered risk transfer associated with prolonged independent living under elderly illness occurrence by providing dynamic self-sufficient risk protection for a variable number of risk exposure components by the resource pooling system. The risk exposure components are connected to the resource pooling system by a plurality of payment receiving devices configured to receive and store payments from the risk exposure components for the pooling of their risks and resources. The resource pooling system includes a filter device configured to capture age-related parameters of risk exposure components and filter risk exposure components associated with an age-related parameter greater than a predefined age-threshold value by the predefined age-threshold value.