Multi-sensor composite right ventricular electrode and fused cardiac rate adaptive pacing method

What is claimed is: 1. A multi-sensor composite right ventricular electrode, comprising: a silicone catheter ( 2 ); a positioning anchor ( 1 ) disposed outside one end of the silicone catheter ( 2 ); a sensor compartment ( 3 ) disposed in the silicone catheter ( 2 ); and a connecting wire ( 4 ) connected to the sensor compartment ( 3 ), wherein the sensor compartment ( 3 ) comprises a printed circuit board (PCB), as well as a blood oxygen saturation sensor, a temperature sensor and an impedance sensor that are provided on the PCB, and wherein the PCB is connected to one end of the connecting wire ( 4 ) via an interface, wherein the blood oxygen saturation sensor is a dual-wavelength photoplethysmography (PPG) sensor comprising a red LED configured to emit red light, an infrared LED configured to emit infrared light and a photodiode configured to detect reflected red light and/or infrared light, wherein the red LED, the infrared LED and the photodiode are located on a PCB; wherein the temperature sensor is composed of a thermistor provided on the PCB; wherein the impedance sensor comprises a pair of titanium metal electrodes arranged on the PCB and configured to form an impedance measurement loop with a biological tissue to be measured, and the titanium metal electrodes are ring-shaped and are embedded on the silicone catheter ( 2 ); and wherein the thermistor is configured to: sense a temperature of blood outside the silicone catheter ( 2 ) when neither the red LED nor the infrared LED emits light sense operating temperatures of the red LED and the infrared LED when both the red LED and the infrared LED emit light in a time division manner; and prevent the light emitted from LEDs entering the photodiode directly without being reflected by the blood. 2. The multi-sensor composite right ventricular electrode according to claim 1 , wherein the red LED and the infrared LED are connected in parallel or in series to form a unit, and the unit, the thermistor and the photodiode are sequentially arranged between the pair of titanium metal electrodes. 3. The multi-sensor composite right ventricular electrode according to claim 1 , wherein venous blood oxygen saturation is detected by a dual-wavelength PPG sensor with 660 nm red light and 940 nm infrared light, and is described with an equation (1) or (2): S p O 2 =α−βR   (1) S p O 2 =α−βR−γR 2   (2) where I AC 660 and I AC 940 respectively represent alternating-current components of intensities of the red light and infrared light that are reflected by the blood and are measured by the photodiode; I AC 660 and I AC 940 respectively represent direct-current components of the intensities of the red light and infrared light that are reflected by the blood; R = I AC 660 ⁢ / ⁢ I DC 660 I AC 940 ⁢ / ⁢ I DC 940 ; and α, β and γ are all empirical values determined by calibration; and the equation (1) is a first-order linear relationship between the blood oxygen saturation and R. While the venous blood oxygen saturation does not satisfying the first-order linear relationship, it can be described with a second-order equation (2).