Abstract: An ultrasonic diagnostic apparatus includes: a plurality of receiving elements that receive an ultrasonic wave, convert the ultrasonic wave into an electric signal, and output a receiving signal; a first detecting amplifier that detects noise and outputs a noise signal; a second detecting amplifier that amplifies the noise signal and outputs an amplified noise signal; a subtraction amplifier that receives the receiving signal and the amplified noise signal and subtracts the amplified noise signal from the receiving signal; and a plurality of circuit substrates that each include the second detecting amplifier and subtraction amplifier.

Abstract: A biological analysis device includes a blood vessel calculation unit that calculates a blood vessel index related to a blood vessel of a biological body in accordance with a blood mass integration value obtained by integrating blood mass indexes relate to a blood mass of the biological body during an integration period and a blood flow integration value obtained by integrating blood flow indexes related to a blood flow of the biological body during the integration period.

Abstract: Provided are an ultrasonic device and a device for generating mechanical vibration. The ultrasonic device includes an ultrasonic probe and the device for generating mechanical vibration, where the device for generating mechanical vibration includes a vibration generator (1), a damping component (2), and a pressure component (3); the damping component (2) is fixed between the vibration generator (1) and the pressure component (3); the ultrasonic probe is connected to the pressure component (3); and the vibration generator (1) is configured to generate a vibration when a pressure value detected by the pressure component (3) falls into a preset range.

Abstract: A wearable device according to an embodiment comprises: a substrate; a light-emitting unit disposed on the substrate; a light-receiving unit disposed on the substrate and spaced apart at a predetermined distance from the light-emitting unit; and a first reflection part disposed on the substrate adjacent to the light-emitting unit so as to reflect light emitted from the light-emitting unit.

Abstract: Provided is a heartbeat detection signal processing method of an ultrasonic Doppler fetus monitoring device that transmits an ultrasonic wave to the abdomen of a pregnant woman and detects a fetal heartbeat rate by receiving a Doppler variation signal generated according to the fetal heartbeat.