Measurement error correction method and electric component property measurement device

The invention claimed is: 1. A measurement error correction method for an electric property of an electric component including a signal line port connected with a signal line related to application or detection of a high frequency signal and a non signal line port other than the signal line port, the method being configured to calculate, from a result of performing measurement while the electric component is connected with a test jig capable of measuring the signal line and the non signal line port, an estimation value of the electric property of the electric component that would be obtained by performing measurement while the electric component is connected with a reference jig capable of measuring the signal line port only, the method comprising: a first step of obtaining a first measurement value by measuring an electric property for at least one of signal line ports and at least one of non signal line ports of each of at least three kinds of correction data acquisition specimens having equivalent electric properties while the correction data acquisition specimen is connected with the test jig, and measuring an electric property for at least one of signal line ports of each correction data acquisition specimen while the correction data acquisition specimen is connected with the reference jig; a second step of obtaining a second measurement value by preparing a correction data acquisition through-device electrically connected with at least one of the signal line ports and at least one of the non signal line ports, measuring the signal line port and the non signal line port while the correction data acquisition through-device is connected with the test jig, and measuring the signal line port while the correction data acquisition through-device is connected with the reference jig; a third step of determining, based on the first measurement value and the second measurement value, an expression for calculating an estimation value of the electric property of the electric component that would be obtained by measuring the signal line port while the electric component is connected with the reference jig, from a result of measuring the signal line port and the non signal line port while the electric component is connected with the test jig; a fourth step of measuring the signal line port and the non signal line port of any given electric component while the electric component is connected with the test jig; and a fifth step of calculating, by using the expression determined in the third step based on measurement values obtained in the fourth step, an estimation value of the electric property of the electric component that would be obtained by measuring the signal line port while the electric component is connected with the reference jig, wherein: the expression determined in the third step is obtained by using a relative error correction circuit network model derived by assuming that, in each of the reference jig and the test jig, there exists, for all pairs of two ports selected from among the signal line ports and the non signal line ports, a leak signal not transferred to the electric component connected with the two ports but directly transferred between the two ports, in addition to a signal transferred within each of the signal line ports and the non signal line ports, and the third step includes: a first substep of calculating, based on the first measurement value, a first coefficient of a first relative error correction circuit network submodel derived by assuming that, in each of the reference jig and the test jig, there exists, for all pairs of two ports selected only from among the signal line ports, the leak signal not transferred to the electric component connected with the two ports but directly transferred between the two ports, in addition to a signal transferred within each signal line port, a second substep of calculating, based on the second measurement value, a second coefficient other than the coefficient corresponding to the first coefficient among coefficients of a second relative error correction circuit network submodel derived by assuming that, in each of the reference jig and the test jig, there exists a signal reflected at the non signal line port in addition to the assumption for the first relative error correction circuit network model, and a third substep of calculating, using the first and second coefficients as initial values of the coefficients corresponding to the first and second coefficients among the coefficients of the relative error correction circuit network model and using predetermined values as initial values of the other coefficients, likely values for all of the coefficients of the relative error correction circuit network model by a maximum-likelihood method using the first and second measurement values, and determining the expression by using the calculated likely values. 2. An electric component property measurement device configured to perform, for an electric component including a signal line port connected with a signal line related to application or detection of a high frequency signal and a non signal line port other than the signal line port, measurement of the signal line port and the non signal line port while the electric component is connected with a test jig capable of measuring the signal line and the non signal line port, and calculate, from a result of the measurement, an estimation value of the electric property of the electric component that would be obtained by measuring the signal line port while the electric component is connected with a reference jig capable of measuring the signal line port only, the device comprising: a measurement unit configured to measure the signal line port and the non signal line port while the electric component is connected with the test jig; an expression storage unit configured to store a value of a coefficient of an expression determined for calculating, based on a first measurement value acquired by measuring an electric property for at least one of signal line ports of each of at least three kinds of correction data acquisition specimens having equivalent electric properties while the correction data acquisition specimen is connected with the test jig and while the correction data acquisition specimen is connected with the reference jig, and a second measurement value acquired by measuring at least one of signal line ports and at least one of non signal line ports while a correction data acquisition through-device electrically connected with the signal line port and the non signal line port is connected with the test jig and measuring the signal line port while the correction data acquisition through-device is connected with the reference jig, an estimation value of the electric property of the electric component that would be obtained by measuring the signal line port while the electric component is connected with the reference jig from a result of measuring the signal line port and the non signal line port while the electric component is connected with the test jig; and an electric property estimation unit configured to read the value of the coefficient stored in the expression storage unit from a measurement value obtained for any given electric component by measurement at the measurement unit, and calculate, using the expression, an estimation value of the electric property of the electric component that would be obtained by measuring the signal line port while the electric component is connected with the reference jig, wherein: the value of the coefficient stored in the expression storage unit: is a value of a coefficient of a relative error correction circuit network model derived by assuming that, in each of the reference jig and the test jig, there exists, for all pairs of two ports selected from among the signal line ports and the non signal line ports, a leak signal not transferr