Kalman filter based anti-transient-impact-vibration-interference signal processing method and system for vortex flowmeter

What is claimed is: 1. A Kalman filter based anti-transient-impact-vibration-interference signal processing system for a vortex flowmeter, comprising: a forward input conditioning circuit module, a digital signal processing module, a system output module, and a power conversion circuit module; a vortex flow sensor converts a vortex flow signal to electrical signal as output signal, wherein the electrical signal is amplified and filtered by a charge amplifier, a voltage amplifier, a low-pass filter, and a voltage follower inputting to an analog to digital converter (ADC) in a microcontroller, and the electrical signal is sampled by the ADC and converted as digital signal; the microcontroller processes the digital signal by a Kalman filter based anti-transient-impact-vibration-interference signal processing method to obtain a frequency of the vortex flow signal, and achieve a fluid flow rate; and the frequency of the vortex flow signal and the fluid flow rate are displayed on a liquid crystal display (LCD) in real-time by the system output module; wherein, the Kalman filter based anti-transient-impact-vibration-interference signal processing method comprises: (1) seeking for data segments containing transient impact vibration interferences; (2) configuring a Kalman filter; (3) implementing Kalman filtering in segments; and (4) analyzing frequency domain amplitude spectrum; wherein, the configuring the Kalman filter comprises: X k+1 =AX k +BU k +Gw k   (1) Y k+1 =HX k+1 +Dv k+1   (2) where the vortex flow signal is defined as a state variable, X k is the state variable of k-time, and X k+1 is the state variable of (k+1)-time; each data segment containing a transient impact vibration interference is defined as an observed variable, and Y k+1 is the observed variable of (k+1)-time; each transient impact vibration interference is defined as an observed noise, and v k+1 is the observed noise of (k+1)-time; wherein no control parameter is present, a control input variable of k-time U k =0, and a coefficient B=0; wherein the vortex flow signal is a stable sine signal in a normal working process, a present vortex flow signal is predicted by the vortex flow signal of a last moment and an interference noise, and a process noise represents the interference noise, w k is the process noise of k-time, a coefficient A=1, and a coefficient G=1; wherein the data segment to be filtered consists of the transient impact vibration interference by the vortex flow signal, and a coefficient H=1; and wherein a computational formula of D is set to be D = max ⁡ ( PPV ) min ⁡ ( PPV ) ( 3 ) where max (PPV) is a maximum value of 20 peak-to-peak values, min (PPV) is a minimum value of 20 peak-to-peak values; a computational formula of the variance of the observed noise is S 2 = ∑ i = 1 T ⁢ ( Y i - Y _ ) 2 T - 1 ( 4 ) where S 2 is the variance, T is the number of points in each data segment to be filtered, Y i is a present observed variable value, Y is a mean value of T observed variable values. 2. The Kalman filter based anti-transient-impact-vibration-interference signal processing system for the vortex flowmeter according to claim 1 , wherein the digital signal is processed by the Kalman filter based anti-transient-impact-vibration-interference signal processing method to reduce powers and proportions of transient impact vibration interferences; wherein the electrical signal output by the vortex flow sensor is monitored, a mutation threshold is set up by comparing peak values in segments, the data segments containing the transient impact vibration interferences are sought out based on a characteristic that amplitudes of the transient impact vibration interferences increasing and attenuating gradually to a steady state; subsequently, variables and parameters of Kalman filters are configured to predict and estimate the vortex flow signal, the Kalman filters are implemented to filter the data segments containing the transient impact vibration interferences individually to reduce powers and the proportions of the transient impact vibration interferences in the data segments, making a power of the vortex flow signal dominant; and the frequency of the vortex flow signal is extracted by analyzing frequency domain amplitude spectrum. 3. The Kalman filter based anti-transient-impact-vibration-interference signal processing system according to claim 1 , wherein the seeking for data segments containing transient impact vibration interferences comprises: collecting signals output by the vortex flow sensor, dividing 2060-point sampling data equally, calculating a mutation threshold Vth according to maximum peak-to-peak values of each of the data segments; comparing amplitudes of the signals and the mutation threshold, searching for initial data segments containing the transient impact vibration interferences, and counting the number of continued segments N for each transient impact; searching for initial points of the transient impacts, and storing the data segments containing the transient impact vibration interferences. 4. The Kalman filter based anti-transient-impact-vibration-interference signal processing system according to claim 1 , wherein the implementing Kalman filtering in segments comprises: dividing each of the data segments containing the transient imp