A wireless monitoring method is implemented through a plurality of wireless monitor devices. Each of the plurality of wireless monitor devices includes a state detection unit to produce a state data, a micro control unit and a communication module. To implement the wireless monitoring method, the wireless monitoring device gets a device identification code of another wireless monitoring device in a connection range thereof, and judges whether the device identification code is stored therein and belongs to a monitor group. If the judging outcome is positive, the wireless monitoring device gets another state data of the another wireless monitoring device. After judging the state data and the another state data meet a state control condition, at least one control signal is output to trigger at least one electronic device.

A wireless monitoring method is implemented through a plurality of wireless monitor devices. Each of the plurality of wireless monitor devices includes a state detection unit to produce a state data, a micro control unit and a communication module. To implement the wireless monitoring method, the wireless monitoring device gets a device identification code of another wireless monitoring device in a connection range thereof, and judges whether the device identification code is stored therein and belongs to a monitor group. If the judging outcome is positive, the wireless monitoring device gets another state data of the another wireless monitoring device. After judging the state data and the another state data meet a state control condition, at least one control signal is output to trigger at least one electronic device.

A circuit includes a guard trigger circuit that includes a first input node adapted to be coupled to a first state signal, a second input node adapted to be coupled to a second state signal and an output node. The circuit also includes a reset synchronizer circuit that includes an input node coupled to the output node of the guard trigger circuit, a clock node adapted to be coupled to a clock signal and an output node. The circuit further includes a timeout circuit including an input node coupled to the output node of the reset synchronizer circuit, a clock node adapted to be coupled to the clock signal and an output node. The circuit still further includes a reset requestor circuit that includes a first input node coupled to the output node of the guard trigger circuit, a second node coupled to the output node of the timeout circuit.

A personal digital ID device provides a digital identifier to a service for a predetermined duration in response to user interaction. The user interaction may include a button press. The personal digital ID device may be in the form of a bracelet, a key fob, or other form factor. The service may be provided by a mobile device, in the cloud, or elsewhere.

A personal digital ID device provides a digital identifier to a service for a predetermined duration in response to user interaction. The user interaction may include a button press. The personal digital ID device may be in the form of a bracelet, a key fob, or other form factor. The service may be provided by a mobile device, in the cloud, or elsewhere.

A personal digital ID device provides a digital identifier to a service for a predetermined duration in response to user interaction. The user interaction may include a button press. The personal digital ID device may be in the form of a bracelet, a key fob, or other form factor. The service may be provided by a mobile device, in the cloud, or elsewhere.

Techniques for generating a personalized reference sequence construct for an individual to align sequence reads obtained for the individual. The techniques include: obtaining a plurality of sequence reads for an individual; obtaining information identifying a plurality of locations; genotyping the plurality of sequence reads for the plurality of locations to obtain a first set of variants for the individual for at least some of the plurality of locations; identifying a second set of variants associated with the first set of variants; generating a personalized reference sequence construct using the second set of variants; and aligning the plurality of sequence reads to the personalized reference sequence construct.