1. photoplethysmography comprising an optoelectronic detector a pulse wave of blood flow in a finger of a patient with two LEDs, respectively operating in the red and infrared regions of the spectrum, a fixed housing adapted for attachment to the patients finger phalanx, connected to an electronic operation control unit LED and photodiode connected to the operational amplifier, an analog-digital converter (ADC) and electronic electric signal processing unit and control unit, equipped with a computer and power supply, wherein the control unit is supplemented radio transmitter operating at a frequency f, and in the housing of an optoelectronic a detector made of a dielectric in the form of a ring with slots for the LED and photodiode positioned miniature radio receiver tuned to the frequency fi and connected to an electronic operation control unit of LEDs, moreover, in case a miniature radio transmitter placed optoelectronic detector operating at a frequency f, the signal to which output from the ADC, and a control panel installed radio receiver tuned to the frequency fi and connected to an electronic unit processing the electrical signala.2. Photoplethysmography according to claim 1, characterized in that it is provided with a set of optoelectronic detectors, with an inner diameter of enclosure 16 to 22 mm.3. Photoplethysmography according to claim 1 or 2, characterized in that the photodiode is mounted in the cell located on the surface of the inner housing ring from its base, and si dy cells are removed from the center of photodiode to the angular distance ≈ ± 130 ° .4. Fotopletizmog1. Фотоплетизмограф, содержащий оптоэлектронный детектор пульсовой волны потока крови в пальце пациента с двумя светодиодами, работающими соответственно в красной и инфракрасной областях спектра, закрепленными в корпусе, выполненном с возможностью крепления на фаланге пальца пациента, подключенными к электронному блоку управления работой светодиодов, и фотодиодом, соединенным с операц
