Two-Step Linear Least-Squares Method For Photovoltaic Single-Diode Model Parameters Extraction

Examination of skewness makes academics more aware of the importance of accurate statistical analysis. Undoubtedly, most phenomena contain a certain percentage of skewness which resulted to the appearance of what is -called "asymmetry" and, consequently, the importance of the skew normal family . The epsilon skew normal distribution ESN (μ, σ, ε) is one of the probability distributions which provide a more flexible model because the skewness parameter provides the possibility to fluctuate from normal to skewed distribution. Theoretically, the estimation of linear regression model parameters, with an average error value that is not zero, is considered a major challenge due to having difficulties, as no explicit formula to calculate these estimates can be obtained. Practically, values for these estimates can be obtained only by referring to numerical methods. This research paper is dedicated to estimate parameters of the Epsilon Skew Normal General Linear Model (ESNGLM) using an adaptive least squares method, as along with the employment of the ordinary least squares method for estimating parameters of the General Linear Model (GLM). In addition, the coefficient of determination was used as a criterion to compare the models’ preference. These methods were applied to real data represented by dollar exchange rates. The Matlab software was applied in this work and the results showed that the ESNGLM represents a satisfactory model.

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The identification of a device based on a Peltier element by the least squares method

Proceedings of the Russian higher school Academy of sciences ◽

10.17212/1727-2769-2020-1-2-17-27 ◽

2020 ◽

pp. 17-27

Author(s):

Vladimir Grinkevich ◽

Keyword(s):

Mathematical Model ◽

Least Squares ◽

Least Squares Method ◽

Control Object ◽

Object Identification ◽

Model Parameters ◽

Peltier Element ◽

Transport Delay ◽

Non Linear ◽

The Mathematical Model

The evaluation of the mathematical model parameters of a non-linear object with a transport delay is considered in this paper. A temperature controlled stage based on a Peltier element is an identification object in the paper. Several input signal implementations are applied to the input of the identification object. The least squares method is applied for the calculation of the non-linear differential equitation parameters which describe the identification object. The least squares method is used due to its simplicity and the possibility of identification non-linear objects. The parameters values obtained in the process of identification are provided. The plots of temperature changes in the temperature control system with a controller designed based on the mathematical model of the control object obtained as a result of identification are shown. It is found that the mathematical model obtained in the process of identification may be applied to design controllers for non-linear systems, in particular for a temperature stage based on a Peltier element, and for self-tuning controllers. However, the least square method proposed in the paper cannot estimate the transport delay time. Therefore it is required to evaluate the time delay by temperature transient processes. Dynamic object identification is applied when it is required to obtain a mathematical model structure and evaluate the parameters by an input and output control object signal. Also, identification is applied for auto tuning of controllers. A mathematical model of a control object is required to design the controller which is used to provide the required accuracy and stability of control systems. Peltier elements are applied to design low-power and small- size temperature stage . Hot benches based on a Peltier element can provide the desired temperature above and below ambient temperature.

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GM(1,1;λ) with Constrained Linear Least Squares

Axioms ◽

10.3390/axioms10040278 ◽

2021 ◽

Vol 10 (4) ◽

pp. 278

Author(s):

Ming-Feng Yeh ◽

Ming-Hung Chang

Keyword(s):

Least Squares ◽

Least Squares Method ◽

Model Fitting ◽

Ordinary Least Squares ◽

Linear Least Squares ◽

Unknown Parameters ◽

Constrained Problems ◽

Linear Least Squares Problems ◽

Ordinary Least Squares Method ◽

Better Than

The only parameters of the original GM(1,1) that are generally estimated by the ordinary least squares method are the development coefficient a and the grey input b. However, the weight of the background value, denoted as λ, cannot be obtained simultaneously by such a method. This study, therefore, proposes two simple transformation formulations such that the unknown parameters, and can be simultaneously estimated by the least squares method. Therefore, such a grey model is termed the GM(1,1;λ). On the other hand, because the permission zone of the development coefficient is bounded, the parameter estimation of the GM(1,1) could be regarded as a bound-constrained least squares problem. Since constrained linear least squares problems generally can be solved by an iterative approach, this study applies the Matlab function lsqlin to solve such constrained problems. Numerical results show that the proposed GM(1,1;λ) performs better than the GM(1,1) in terms of its model fitting accuracy and its forecasting precision.

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Linear Least-Squares Method for Conservation Voltage Reduction in Distribution Systems With Photovoltaic Inverters

IEEE Transactions on Smart Grid ◽

10.1109/tsg.2016.2536782 ◽

2017 ◽

Vol 8 (3) ◽

pp. 1252-1263 ◽

Cited By ~ 17

Author(s):

Tu Van Dao ◽

Surachai Chaitusaney ◽

Hanh Thi Nguyet Nguyen

Keyword(s):

Least Squares ◽

Distribution Systems ◽

Least Squares Method ◽

Linear Least Squares

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Beam closed orbit correction and feedback by constrained linear least squares method in Hefei light source

High Power Laser and Particle Beams ◽

10.3788/hplpb20102201.0155 ◽

2010 ◽

Vol 22 (1) ◽

pp. 155-158

Author(s):

宣科 Xuan Ke ◽

王琳 Wang Lin ◽

李川 Li Chuan ◽

李为民 Li Weimin ◽

王季刚 Wang Jigang ◽

...

Keyword(s):

Least Squares ◽

Light Source ◽

Least Squares Method ◽

Closed Orbit ◽

Linear Least Squares ◽

Orbit Correction

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Ellipse Coefficient Map-Based Geomagnetic Fingerprint Considering Azimuth Angles

Symmetry ◽

10.3390/sym11050708 ◽

2019 ◽

Vol 11 (5) ◽

pp. 708

Author(s):

Ju-Hyeon Seong ◽

Seung-Hyun Lee ◽

Kyoung-Kuk Yoon ◽

Dong-Hoan Seo

Keyword(s):

Least Squares ◽

Least Squares Method ◽

Azimuth Angle ◽

High Signal ◽

Linear Least Squares ◽

Positioning Accuracy ◽

Signal Stability ◽

Novel Approach ◽

Magnetic Vectors ◽

Equalization Method

Geomagnetic fingerprint has been actively studied because of the high signal stability and positioning resolution even when the time has elapsed. However, since the measured three-axis geomagnetism signals at one position are irregular according to the change of the azimuth angle, a large-sized database which is stored magnitudes per angles is required for robust and accurate positioning against the change of the azimuth angle. To solve this problem, this paper proposes a novel approach, an elliptic coefficient map based geomagnetic fingerprint. Unlike the general fingerprint, which stores strength or magnitude of the geomagnetism signals depending on the position, the proposed algorithm minimized the size of databased by storing the Ellipse coefficient map through the ellipse equation derived from the characteristics of 2-D magnetic vectors depending on the position. In addition, the curvature bias of ellipse was reduced by applying the normalized linear least-squares method to 2-D geomagnetic characteristics and the positioning accuracy was improved by applying the weighted geomagnetic signal equalization method.

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