RU2003105498A - METHOD FOR IDENTIFICATION OF INFORMATIVE PARAMETERS OF ST-SEGMENT OF ELECTROCARDIO SIGNAL AND DEVICE FOR ITS IMPLEMENTATION - Google Patents

Claims (3)

1. A method for identifying informative parameters of the ST segment of an electrocardiogram, which consists in filtering the electrocardiogram, correcting the contour drift, excluding atypical cardiocycles from analysis, determining the position of the start and end points of the ST segment on the time axis, characterized in that the ST segment, form on the time interval of the existence of the ST-segment between the points of its beginning and end signals of zero, first and second Walsh functions, from discrete samples of the signal of the ST-segment for each of these functions are formed by the corresponding spectral coefficients, the values of which are compared with the zero level, and the corresponding sign of the spectral coefficient is used to judge the presence of the corresponding informative parameter of the ST segment. 2. A device for implementing a method for identifying informative parameters of an ST-segment of an electrocardiosignal, comprising an electrocardiosignal forming unit, a QRS complex allocation unit, an ST-segment allocation unit and an indication unit, wherein the output of the ECS generation unit is connected to the input of the QRS complex allocation unit and to the first the input of the ST-segment selection block, the second input of which is connected to the output of the QRS-complex selection block, characterized in that it additionally introduces a discretization block, a Walsh function generation block, a pho block spectral coefficients, a block for identifying informative parameters of the ST segment, wherein the input of the sampling unit is connected to the first output of the ST-segment allocation unit, the second output of the ST-segment allocation unit is connected to the input of the Walsh function generation unit, the output of the sampling unit is connected to the first input of the formation unit spectral coefficients, forming the first group of inputs of this block, the inputs of the second group of which are connected to the corresponding outputs of the unit for generating Walsh functions, the outputs of the unit for The spectral coefficients are connected to the corresponding inputs of the ST-segment informative parameters detection unit, the outputs of which are connected to the corresponding inputs of the display unit. 3. The device according to claim 2, characterized in that the unit for generating spectral coefficients contains N-1 (N = 2, 3, ...), blocks for multiplying discrete samples of the ST-segment of the cardiac signal by the corresponding Walsh function from a number of these functions, and N adders, the first (informational) inputs of all the multiplication units and the input of the first adder are interconnected, forming the first group of inputs of the spectral coefficient generating unit, the output of each multiplication unit is connected to the input of one of the remaining N-1 adders, the outputs of the adders are outputs and a unit for generating spectral coefficients, wherein the multiplication unit is based on a differential amplifier consisting of an operational amplifier and first, second, third and fourth resistors, and a key circuit consisting of first and second keys and an inverter, in each multiplication unit the first output of the first resistor and the information input of the first key are interconnected, forming the information input of the multiplication unit, the second output of the first resistor is connected to the first output of the fourth resistor, and the connection point connected to the inverting input of the operational amplifier, the output of the operational amplifier is connected to the second output of the fourth resistor and is the output of the multiplication unit, the output of the first key is connected to the first output of the second resistor, the second output of which is connected to the first output of the third resistor, and the connection point is connected to the non-inverting input operational amplifier, the second output of the third resistor is connected to the output of the second key, the information input of which is connected to a common wire, the control input of the first the key is connected to the input of the inverter, forming the control input of the multiplication unit, the control inputs of all the multiplication units form the second group of inputs of the spectral coefficient generating unit, the inverter output is connected to the control input of the second key.