In this case, for the fitting of the models of the study, where different inputs and layers were tested, it was opted for considering [lambda] = 0, i.e., the models were fitted by the usual
method of least squares.
The analytical curve obtained through the
method of least squares presented the equation y = 0.0685x + 0.004 and a correlation coefficient of 0.9984, indicating the linearity of the method within the concentration limits studied, besides being in accordance with the minimum acceptable criterion of the correlation coefficient (r = 0.990) described in the Guide for the Validation of Analytical Methods (ANVISA--Brazilian Health Regulatory Agency--Resolution no 166, of July 24, 2017) [20].
The annual vertical velocity and its accuracy were determined by the
method of least squares. Generalized vertical velocity parameters of permanent stations for the period from 2000 till 2011 are presented in Table 2.
Then, the clutch torque-displacement characteristics in (1) can be expressed with the test data using the
method of least squares fit.
The value of [K.sub.n] from the expression (4) is founded at the solution by the
method of least squares of the system of equations, developed for the function approximation characterizing the multilayer medium (5), by the method given in [5], taking into account the number of layers of soil and [h.sub.n]=2 x n.
The paper examines the forecast modeling
method of Least Squares Method- Weighted Markov Chain to realize the interval prediction of photovoltaic power plant output power.
- modelling the S/[h.sub.c] slope for different loads indentation, P, by linear regression by the
method of least squares, to express the inverse of the contact area, 1 /[A.sub.c];
assigning to parameter b acceptable values such as b = 1/2, b = 2 or b = -1); this makes it possible to create variants of the model, transformable into linear representations, for which the
method of least squares can be useful for estimation (Griffiths, Carter and Judge, 1993).
Method of Least Squares. Let independent data pairs ([x.sub.i], [y.sub.i]), i = 1be observed from the underlying true values ([X.sub.i], [Y.sub.i]), and accept the assumption that only dependent variable [y.sub.i] is affected by measurement error:
One can apply the
method of least squares as follows:
The other main part includes explanations to simple linear regression model being in the form of (9) and to the calculation of [[??].sub.0] and [[??].sub.1], estimators of [[beta].sub.0] and [[beta].sub.0], by using the
method of least squares. Time scale derivative definition includes normal equations for forward and backward jump operators, as well as [[??].sub.0] and [[??].sub.1] values, which are [[beta].sub.0] and [[beta].sub.1] estimators of forward and backward jump operators.