Abstract: A vibration sensing device includes a piezoelectric element, a static force meter, a vibration conduction element and a casing. The piezoelectric element is provided for converting vibration into an electronic signal. The static force meter is provided for converting static force into an electronic signal. The vibration conduction element is provided for vibration to the piezoelectric element. The piezoelectric element, the static force meter, and the vibration conduction element are covered by the casing.
Abstract: A wearable physiological measuring device has a torso-worn module and a limb-worn module configured to communicate in a wireless way with each other. The torso-worn module is configured to be coupled with a torso of a user to obtain an R-peak from an electrocardiac signal. The limb-worn module is configured to be coupled with at least one limb of four limbs of the user to obtain a pulse wave peak from a plethysmograph signal. There are no physical connections (neither wire nor cable) between the torso-worn module and the limb-worn module. The wearable physiological measuring device is configured to use the R-peak time and the pulse wave peak time to generate a pulse transit time data.
Abstract: An electrode device has a conductive body, a silver layer situated above the conductive body, a silver compound layer situated above the silver layer, a liquid absorbing and releasing element situated above the silver compound layer, a shielding element configured to cover an upper surface and a portion of a side surface of the liquid absorbing and releasing element, and a moving mechanism configured to move the shielding element reciprocally between at least two positions.