Your search keyword '"Least square estimation"' showing total 205 results

1. Estimation of Multicomponent Stress-Strength Reliability with Exponentiated Generalized Inverse Rayleigh Distribution.

Author

Youssef Temraz, Neama Salah

Abstract

In this paper, an estimation of the multicomponent stress-strength reliability is introduced subject to the exponentiated generalized inverse Rayleigh distribution. Different methods of estimation are introduced to estimate the multicomponent stress-strength reliability. Simulation method is introduced to illustrate the steps of finding the estimates of the multicomponent stress-strength reliability. Asymptotic and bootstrap confidence intervals are proposed in order to find interval estimations for the multicomponent stress-strength reliability. A Bayesian estimation method is introduced for the multicomponent stress-strength reliability. A simulation study is introduced to obtain the estimates of the multicomponent stress-strength reliability for the different methods of estimation. A real data application is introduced to show how the exponentiated generalized inverse Rayleigh distribution is used to fit the real data sets. [ABSTRACT FROM AUTHOR]

Published

2024

2. Copula-based regression estimation in the presence of outliers.

Author

Ali, Alam, Pathak, Ashok Kumar, Arshad, Mohd, and Emura, Takeshi

Subjects

*OUTLIER detection, *INDEPENDENT variables, *LEAST squares, *REGRESSION analysis

Abstract

AbstractOrdinary least square estimators for linear regression models are highly influenced by outliers. Copula is a powerful tool for studying the dependence between response and predictor variables and may overcome several limitations associated with the classical linear regression models. In this study, we investigate the efficacy of the copula-based regression models over classical linear regression in the presence of outliers in the x, y, and x-y directions. We also examine the performance of several robust regression estimation techniques when variables are related via elliptical and Archimedean family of copulas and outliers are present in the data. Finally, real and artificial data sets are analyzed to compare the performance of various robust regression techniques. [ABSTRACT FROM AUTHOR]

Published

2024

3. Reconfigurable Intelligent Surface Assisted Target Three-Dimensional Localization with 2-D Radar.

Author

Liu, Ziwei, Zhao, Shanshan, Xie, Biao, and An, Jirui

Subjects

*RADAR targets, *RADAR, *DRONE aircraft, *SURVEILLANCE radar

Abstract

Battlefield surveillance radar is usually 2-D radar, which cannot realize target three-dimensional localization, leading to poor resolution for the air target in the elevation dimension. Previous researchers have used the Traditional Height Finder Radar (HFR) or multiple 2-D radar networking to estimate the target three-dimensional location. However, all of them face the problems of high cost, poor real-time performance and high requirement of space–time registration. In this paper, Reconfigurable Intelligent Surfaces (RISs) with low cost are introduced into the 2-D radar to realize the target three-dimensional localization. Taking advantage of the wide beam of 2-D radar in the elevation dimension, several Unmanned Aerial Vehicles (UAVs) carrying RISs are set in the receiving beam to form multiple auxiliary measurement channels. In addition, the traditional 2-D radar measurements combined with the auxiliary channel measurements are used to realize the target three-dimensional localization by solving a nonlinear least square problem with a convex optimization method. For the proposed RIS-assisted target three-dimensional localization problem, the Cramer–Rao Lower Bound (CRLB) is derived to measure the target localization accuracy. Simulation results verify the effectiveness of the proposed 3-D localization method, and the influences of the number, the positions and the site errors of the RISs on the localization accuracy are covered. [ABSTRACT FROM AUTHOR]

Published

2024

4. Ideal solution candidate search for starling murmuration optimizer and its applications on global optimization and engineering problems.

Author

Aydemir, Salih Berkan

Subjects

*GLOBAL optimization, *STARLINGS, *LEAST squares, *ENGINEERING, *METAHEURISTIC algorithms

Abstract

In this article, a novel population selection method, fitness distance balance (FDB), and predictive candidate (PC) solution generation hybridization with starling murmuration optimizer (SMO), FDBPC-SMO are proposed. In FDBPC-SMO algorithm, FDB selects subpopulations instead of the separating search strategy (SSS) in the original SMO. The separating size determined in SMO is given as input to the FDB, and the FDB generates the subpopulation based on the distances among the populations. The least squares strategy is applied to the population obtained at the end of the SMO, and the estimated population candidates are found and replaced with the worst solution candidates from the original population. By adding qualitative analysis, the effectiveness of the FDBPC-SMO has been examined based on the dimension and iteration. The success of FDBPC-SMO is the selection of more efficient candidate solutions from the previous population at each iteration, thus minimizing the possibility of getting stuck in the local optimum. The performance of FDBPC-SMO has been investigated on CEC2017 and CEC2019 test sets and seven engineering application problems. In addition, Wilcoxon and Friedman statistical tests confirm the convergence and fitness results of the proposed method. Accordingly, comparing to conventional and improved methods, it is clear that the convergence ability of FDBPC-SMO is superior. [ABSTRACT FROM AUTHOR]

Published

2024

5. Online state‐of‐charge estimation by modified Coulomb counting method based on the estimated parameters of lithium‐ion battery.

Author

Das, Sourabh, Samanta, Susovon, and Gupta, Supratim

Subjects

*OPEN-circuit voltage, *PARAMETER estimation, *LITHIUM-ion batteries, *TEST systems, *COUNTING, *ELECTRIC vehicles

Abstract

Summary: The state‐of‐charge (SOC) of the battery is the most critical parameter for an electric vehicle (EV) dashboard. Generally, the Coulomb counting (CC) method is used for SOC estimation, but the conventional CC method has some errors due to initial SOC determination. This work uses battery modeling and parameter estimation of a lithium‐iron‐phosphate (LFP) battery to determine the initial SOC. The equivalent circuit models (ECMs) have been used for battery parameters estimation by the least‐squares estimation (LSE) algorithm. This algorithm uses only experimental terminal voltage and current data from Arbin battery testing system. The ECM parameters vary with battery SOC, and the differential capacity plot has explained the variation. SOC can be estimated using estimated parameters and the relationship between SOC and open‐circuit voltage (OCV). Additionally, a modified CC method is proposed to solve the problem of estimating initial SOC by determining an OCV‐SOC relation using experimental data. The modeling of the battery is validated by comparing ECMs with physical battery terminal voltage profiles. [ABSTRACT FROM AUTHOR]

Published

2024

6. Reconfigurable Intelligent Surface Assisted Target Three-Dimensional Localization with 2-D Radar

Author

Ziwei Liu, Shanshan Zhao, Biao Xie, and Jirui An

Subjects

2-D radar, three-dimensional localization, reconfigurable intelligent surface, least square estimation, Cramer–Rao Lower Bound, Science

Abstract

Battlefield surveillance radar is usually 2-D radar, which cannot realize target three-dimensional localization, leading to poor resolution for the air target in the elevation dimension. Previous researchers have used the Traditional Height Finder Radar (HFR) or multiple 2-D radar networking to estimate the target three-dimensional location. However, all of them face the problems of high cost, poor real-time performance and high requirement of space–time registration. In this paper, Reconfigurable Intelligent Surfaces (RISs) with low cost are introduced into the 2-D radar to realize the target three-dimensional localization. Taking advantage of the wide beam of 2-D radar in the elevation dimension, several Unmanned Aerial Vehicles (UAVs) carrying RISs are set in the receiving beam to form multiple auxiliary measurement channels. In addition, the traditional 2-D radar measurements combined with the auxiliary channel measurements are used to realize the target three-dimensional localization by solving a nonlinear least square problem with a convex optimization method. For the proposed RIS-assisted target three-dimensional localization problem, the Cramer–Rao Lower Bound (CRLB) is derived to measure the target localization accuracy. Simulation results verify the effectiveness of the proposed 3-D localization method, and the influences of the number, the positions and the site errors of the RISs on the localization accuracy are covered.

Published

2024

7. Does wastophobia bring sustainability in consumers’ responsible behavior? A case of electricity waste management

Author

Hanif, Muhammad Wasif, Hafeez, Shakir, and Afridi, Muhammad Asim

Published

2023

8. Exploring the relationship between managerial emotional intelligence and environmental performance in energy sector: a mediated moderation analysis

Author

Ezzi, Ferdaws, Salhi, Bassem, and Jarboui, Anis

Published

2023

9. How and when does renewable energy affect investors willing to invest?

Author

Ali, Rizwan, Hussain, Rai Imtiaz, and Hussain, Dr Shahbaz

Published

2023

10. Recoverability effects on reliability assessment for accelerated degradation testing.

Author

Wang, Chengjie, Liu, Jian, Yang, Qingyu, Hu, Qingpei, and Yu, Dan

Subjects

*ACCELERATED life testing, *WIENER processes, *FAILURE mode & effects analysis, *SAMPLE size (Statistics)

Abstract

Accelerated Degradation Testing (ADT) provides an efficient experimental approach to collect lifetime-related data for the reliability assessment of highly reliable products under normal use stress. Recoverability, which occurs in many typical failure modes when online in-chamber measurements have to be replaced by offline ex-chamber measurements with stress released, is an important factor that may affect the accuracy of reliability estimation from ADT data. Nonetheless, the presence of recoverability has not been adequately considered in traditional methods, leading to an over-optimistic estimation of lifetime and reliability. The linkage between recoverability and such inferential bias has not been theoretically studied systematically. In this study, recoverability is explicitly incorporated into the ADT modeling framework. Without loss of generality, the Wiener process is adopted as the basis for the proposed degradation model, superimposed with a cumulative recovery. Theoretical results show that the Mean Time To Failure (MTTF) will be overestimated with recoverability neglected, which leads to poor lifetime-centered decision-making. For finite and even small sample sizes, this conclusion is not intuitively certain but the chance is still high and the corresponding overestimation probability can be calculated explicitly. All theoretical conclusions are validated by simulation studies, in which the MTTFs are overestimated from 6% to 42% under different parameter settings. The real-world application of semiconductor products shows that even slight recoverability could lead to an obvious overestimation of MTTF and the proposed model provides a convenient way to derive more accurate assessment results. [ABSTRACT FROM AUTHOR]

Published

2023

11. Uncertain vector autoregressive smoothly moving average model.

Author

Shi, Yuxin and Sheng, Yuhong

Abstract

Abstract Uncertain time series analysis is an effective method to predict the variable with time index under imprecise observations. Sometimes, the time series model is built directly on the data which the prediction result is inaccurate. In this paper, an uncertain vector autoregressive smoothly moving average model (UVARSMA) is given. The least absolute deviation estimation and the least square estimation are given to estimate the unknown parameters. In order to predict effectively, we analyze the residuals and give the point estimation and interval estimation about the prediction. The relevant results are compared with those of the uncertain vector autoregressive model. Finally, a practical example about air index in Beijing, from 9 March 2022 to 23 April 2022, is given to verify the feasibility and accuracy of the new model. [ABSTRACT FROM AUTHOR]

Published

2023

12. Does oil price uncertainty affect earnings management? Evidence from GCC markets

Author

Bugshan, Abdullah, Alnahdi, Sally, Ananzeh, Husam, and Alnori, Faisal

Published

2022

13. Statistical Features and Estimation Methods for Half-Logistic Unit-Gompertz Type-I Model.

Author

Shafiq, Anum, Sindhu, Tabassum Naz, Dey, Sanku, Lone, Showkat Ahmad, and Abushal, Tahani A.

Subjects

*BETA distribution, *MATHEMATICAL models, *MAXIMUM likelihood statistics, *LEAST squares, *LOGISTIC regression analysis

Abstract

In this study, we propose a new three-parameter lifetime model based on the type-I half-logistic G family and the unit-Gompertz model, which we named the half-logistic unit Gompertz type-I distribution. The key feature of such a novel model is that it adds a new tuning parameter to the unit-Gompertz model using the type-I half-logistic family in order to make the unit-Gompertz model more flexible. Diagrams and numerical results are used to look at the new model's mathematical and statistical aspects. The efficiency of estimating the distribution parameters is measured using a variety of well-known classical methodologies, including Anderson–Darling, maximum likelihood, least squares, weighted least squares, right tail Anderson–Darling, and Cramer–von Mises estimation. Finally, using the maximum likelihood estimation method, the flexibility and ability of the proposed model are illustrated by means of re-analyzing two real datasets, and comparisons are provided with the fit accomplished by the unit-Gompertz, Kumaraswamy, unit-Weibull, and Kumaraswamy beta distributions for illustrative purposes. [ABSTRACT FROM AUTHOR]

Published

2023

14. Parameter Estimation for Dothan Model Driven by Small Symmetrical Noise Based on Discrete Observation.

Author

Huiping Jiao, Piaopiao Zhou, Heling Li, and Chao Wei

Subjects

*PARAMETER estimation, *LEAST squares, *ASYMPTOTIC distribution, *NOISE

Abstract

In this paper, we consider the parameter estimation problem for discretely observed Dothan model driven by small symmetrical noise. The least square method is applied to obtain the drift parameter estimators. The consistency and asymptotic distribution of the estimators are derived when a small dispersion coefficient ε → 0. Some simulations are made to demonstrate the applicability of the results. [ABSTRACT FROM AUTHOR]

Published

2022

15. Estimation method of mixture distribution and modeling of COVID-19 pandemic

Author

Tabassum Naz Sindhu, Zawar Hussain, Naif Alotaibi, and Taseer Muhammad

Subjects

mixture model, least square estimation, mills ratio, weighted least square estimation, Mathematics, QA1-939

Abstract

The mathematical characteristics of the mixture of Lindley model with 2-component (2-CMLM) are discussed. In this paper, we investigate both the practical and theoretical aspects of the 2-CMLM. We investigate several statistical features of the mixed model like probability generating function, cumulants, characteristic function, factorial moment generating function, mean time to failure, Mills Ratio, mean residual life. The density, hazard rate functions, mean, coefficient of variation, skewness, and kurtosis are all shown graphically. Furthermore, we use appropriate approaches such as maximum likelihood, least square and weighted least square methods to estimate the pertinent parameters of the mixture model. We use a simulation study to assess the performance of suggested methods. Eventually, modelling COVID-19 patient data demonstrates the effectiveness and utility of the 2-CMLM. The proposed model outperformed the two component mixture of exponential model as well as two component mixture of Weibull model in practical applications, indicating that it is a good candidate distribution for modelling COVID-19 and other related data sets.

Published

2022

16. Comparison of modified Karnik-Mendel algorithm-based interval type-2 ANFIS and type-1 ANFIS

Author

Öztürk, Muhammet and Özkol, İbrahim

Published

2021

17. Quantitative estimation of the impact of climate change on residential electricity demand for the city of Greater Accra, Ghana

Author

Avordeh, Timothy King, Gyamfi, Samuel, and Opoku, Alex Akwasi

Published

2021

18. The impact of energy consumption and merchandise exports on CO2 emission in the United Nations geoscheme regions

Author

Senarathne, Chamil W. and Jayasinghe, Prabhath

Published

2021

19. Fuel consumption in mining industry using partial least squares structural equation modeling approach

Author

Yousefi Nejad Attari, Mahdi, Farrashzadeh Miandoab, Tohid, Ejlali, Babak, and Torkayesh, Ali Ebadi

Published

2021

20. Mixture of Akash Distributions: Estimation, Simulation and Application.

Author

Shafiq, Anum, Sindhu, Tabassum Naz, Lone, Showkat Ahmad, Hassan, Marwa K. H., and Nonlaopon, Kamsing

Subjects

*DISTRIBUTION (Probability theory), *GENERATING functions, *CHARACTERISTIC functions, *LEAST squares, *HAZARD function (Statistics)

Abstract

In this paper, we propose a two-component mixture of Akash model (TC-MAM). The behavior of TC-MAM distribution has been presented graphically. Moment-based measures, including skewness, index of dispersion, kurtosis, and coefficient of variation, have been determined and hazard rate functions are presented graphically. The probability generating function, Mills ratio, characteristic function, cumulants, mean time to failure, and factorial moment generating function are all statistical aspects of the mixed model that we explore. Furthermore, we figure out the relevant parameters of the mixture model using the most suitable methods, such as least square, weighted least square, and maximum likelihood mechanisms. Findings of simulation experiments to examine behavior of these estimates are graphically presented. Finally, a set of data taken from the real world is examined in order to demonstrate the new model's practical perspectives. All of the metrics evaluated favor the new model and the superiority of proposed distribution over mixture of Lindley, Shanker, and exponential distributions. [ABSTRACT FROM AUTHOR]

Published

2022

21. Parametric estimation of hidden Markov models by least squares type estimation and deconvolution.

Author

Chesneau, Christophe, El Kolei, Salima, and Navarro, Fabien

Subjects

HIDDEN Markov models, LEAST squares, INTEREST rate forecasting, MAXIMUM likelihood statistics, ASYMPTOTIC normality

Abstract

This paper develops a simple and computationally efficient parametric approach to the estimation of general hidden Markov models (HMMs). For non-Gaussian HMMs, the computation of the maximum likelihood estimator (MLE) involves a high-dimensional integral that has no analytical solution and can be difficult to approach accurately. We develop a new alternative method based on the theory of estimating functions and a deconvolution strategy. Our procedure requires the same assumptions as the MLE and deconvolution estimators. We provide theoretical guarantees about the performance of the resulting estimator; its consistency and asymptotic normality are established. This leads to the construction of confidence intervals. Monte Carlo experiments are investigated and compared with the MLE. Finally, we illustrate our approach using real data for ex-ante interest rate forecasts. [ABSTRACT FROM AUTHOR]

Published

2022

22. Identification of hydrodynamic coefficients of AUV in the presence of measurement biases.

Author

Dinç, Mustafa and Hajiyev, Chingiz

Abstract

This paper mainly presents the parameter identification method developed from a Least Square Estimation (LSE) algorithm to estimate hydrodynamic coefficients of Autonomous Underwater Vehicle (AUV) in the presence of measurement biases. LSE based parameter determination method is developed to obtain unbiased estimated values of hydrodynamic coefficients of AUV from biased Inertial Navigation System (INS) measurements. The proposed parameter identification method consists of two phases: in the first phase, high precision INS and its auxiliary instrument including compass, pressure depth sensor, and Doppler Velocity Log (DVL) are designed as Integrated Navigational System coupled with Complementary Kalman Filter (CKF) to determine hydrodynamic coefficients of AUV by removing the INS measurement biases; in the second phase, LSE based parameter identification method is applied to the model in the first phase for obtaining unbiased estimated values of hydrodynamic coefficients of AUV. In this paper, a method for identifying the yaw and sway motion dynamic parameters of an AUV is given. Various maneuvering scenarios are verified to assess the parameter identification method employed. The simulation results indicate that using the CKF based Integrated Navigation System together with unbiased measurement conversion could produce better results for estimating the hydrodynamic coefficients of AUV. [ABSTRACT FROM AUTHOR]

Published

2022

23. Predictive models for the number of cumulative cases for spreading coronavirus disease 2019 in the world

Author

Rapin Sunthornwat and Yupaporn Areepong

Subjects

coronavirus disease 2019, logistic growth curve, richards growth curve, gompertz growthcurve, least square estimation, Technology, Technology (General), T1-995

Abstract

The coronavirus disease outbreak in 2019 (COVID-19) has caused major economic and healthcare problems worldwide. At this time, the worldwide outbreak has passed its peak, while the greatest number of cases has been in the USA, Brazil, and India. Measures and policies for controlling the outbreak have been developed by authorities to protect the population of each country, and forecasting the number of infectious people is an important factor for developing them. This research was conducted to identify a suitable forecasting model for estimating the cumulative daily number of infectious people worldwide. Sample countries with severe outbreaks were selected from each continent. Herein, forecasting models based on logistic, Richards, and Gompertz growth curves are derived and their suitability for forecasting the COVID-19 rates in each sample country and worldwide are analyzed. Moreover, estimating the growth curve parameters is based on the least-squares method. The results show that the Gompert growth curve is the most suitable for estimating the cumulative number of infectious people worldwide.

Published

2021

24. The relationship between environmental degradation, energy use and economic growth in Nigeria: new evidence from non-linear ARDL

Author

Musibau, Hammed Oluwaseyi, Shittu, Waliu Olawale, and Ogunlana, Fatai Olarewaju

Published

2021

25. What determines renewable energy consumption? Startling evidence from Ghana

Author

Kwakwa, Paul Adjei

Published

2021

26. Some estimation methods for mixture of extreme value distributions with simulation and application in medicine

Author

Showkat Ahmad Lone, Sadia Anwar, Tabassum Naz Sindhu, and Fahd Jarad

Subjects

Mixture models, Least square estimation, Mills ratio, Weighted least square estimation, Reliability function, Mean square error, Physics, QC1-999

Abstract

In recent years, statisticians have grown increasingly engaged in research of mixture models, particularly in the previous decade, without adequate consideration of challenge of estimating the parameters of mixture models from a frequentist perspective. Except for maximum likelihood estimation, this study addresses this vacuum by discussing the two other classical methods of estimation for mixture model. We commence by briefly describing the three frequentist approaches, namely maximum likelihood, ordinary, and weighted least squares, and then comparing them through extensive numerical simulations. The model’s applicability is illustrated by its application to simulated and real-world data, which yields promising results in terms of enhanced estimation.

Published

2022

27. Statistical Features and Estimation Methods for Half-Logistic Unit-Gompertz Type-I Model

Author

Anum Shafiq, Tabassum Naz Sindhu, Sanku Dey, Showkat Ahmad Lone, and Tahani A. Abushal

Subjects

half-logistic distribution, maximum likelihood estimation, unit-Gompertz model, least square estimation, right tail Anderson–Darling estimation, Mathematics, QA1-939

Abstract

In this study, we propose a new three-parameter lifetime model based on the type-I half-logistic G family and the unit-Gompertz model, which we named the half-logistic unit Gompertz type-I distribution. The key feature of such a novel model is that it adds a new tuning parameter to the unit-Gompertz model using the type-I half-logistic family in order to make the unit-Gompertz model more flexible. Diagrams and numerical results are used to look at the new model’s mathematical and statistical aspects. The efficiency of estimating the distribution parameters is measured using a variety of well-known classical methodologies, including Anderson–Darling, maximum likelihood, least squares, weighted least squares, right tail Anderson–Darling, and Cramer–von Mises estimation. Finally, using the maximum likelihood estimation method, the flexibility and ability of the proposed model are illustrated by means of re-analyzing two real datasets, and comparisons are provided with the fit accomplished by the unit-Gompertz, Kumaraswamy, unit-Weibull, and Kumaraswamy beta distributions for illustrative purposes.

Published

2023

28. A Discrete Analogue of Teissier Distribution: Properties and Classical Estimation with Application to Count Data.

Author

SINGH, BHUPENDRA, AGIWAL, VARUN, NAYAL, AMIT SINGH, and TYAGI, ABHISHEK

Subjects

*GENERATING functions, *ORDER statistics

Abstract

This article presents a novel discrete distribution with a single parameter, called the discrete Teissier distribution. It is noted that this model, with one parameter, offers a high degree of fitting flexibility as it is capable of modelling equi-, over-, and under-dispersed, positive and negative skewed, and increasing failure rate datasets. In this article, we have explored its numerous essential distributional features such as recurrence relation, moments, generating function, index of dispersion, coefficient of variation, entropy, survival and hazard rate functions, mean residual life and mean past life functions, stress-strength reliability, order statistics, and infinite divisibility. The classical point estimators have been developed using the method of maximum likelihood, method of moment, and least-squares estimation, whilst an interval estimation based on Fisher's information has also been presented. Finally, the applicability of the suggested discrete model has been demonstrated using two complete real datasets. [ABSTRACT FROM AUTHOR]

Published

2022

29. A New Three Parameter Lifetime Model: The Complementary Poisson Generalized Half Logistic Distribution

Author

Mustapha Muhammad and Lixia Liu

Subjects

Generalized (exponentiated) half logistic model, least square estimation, maximum likelihood estimation, moments, moments residual life, percentile method of estimation, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

We propose a new model with flexible failure rate called complementary Poisson generalized half logistic (CPGHL). Various properties of the model are explored and examine numerically such as the explicit expressions of the moments, mean deviations, Bonferroni and Lorenz curves, Shannon and Renyi entropy. The distribution of mixture of two CPGHL and some related models based on the log-transform of CPGHL are discussed. The asymptotic of moments of residual life and asymptotic distribution of order statistics are obtained. The characterization of Poisson half logistic (PHL) by truncated moments of a certain function of a random variable is discussed. Estimation of the model parameters was approached by maximum likelihood, least square, and percentile methods. Further, the estimation by maximum likelihood for right censored data of the model were considered. The proposed estimation techniques were assessed by simulation studies. Three data applications are provided one of them is a censored data to demonstrate how the new model outperforms some other existing distribution in practice.

Published

2021

30. A New Extension of the Topp–Leone-Family of Models with Applications to Real Data

Author

Muhammad, Mustapha, Liu, Lixia, Abba, Badamasi, Muhammad, Isyaku, Bouchane, Mouna, Zhang, Hexin, and Musa, Sani

Published

2023

31. Enforce environmental tax compliance model for the oil and gas industry

Author

Mas'ud, Abdulsalam, Yusuf, Rabiu, Udin, Noraza Mat, and Al-Dhamari, Redhwan

Published

2020

32. Energy saving potential of tubular light pipe system with different colors on internal surfaces

Author

Salam Azad, Abdus, Salman, Mohd, Kaushik, S.C., and Rakshit, Dibakar

Published

2020

33. CO2 intensity and GDP per capita

Author

Hannesson, Rögnvaldur

Published

2020

34. Aircraft positioning using GPS/GLONASS code observations

Author

Krasuski, Kamil, Cwiklak, Janusz, and Grzegorzewski, Marek

Published

2020

35. Non symmetric Rosenblatt process over a compact.

Author

Araya, Héctor, Garzón, Johanna, and Roa, Tania

Subjects

*WIENER processes, *BROWNIAN motion, *LEAST squares

Abstract

In this short note, we give the representation of the non symmetric Rosenblatt process as a Wiener–Itô multiple integral with respect to the Brownian motion on a finite interval. Based on this representation, we obtain a least square-type estimator for an unknown parameter of the drift coefficient of a simple model driven by the non symmetric Rosenblatt process. [ABSTRACT FROM AUTHOR]

Published

2021

36. Visible Light Communication With Input-Dependent Noise: Channel Estimation, Optimal Receiver Design and Performance Analysis.

Author

Yaseen, Maysa, Alsmadi, Malek, Canbilen, Ayse Elif, and Ikki, Salama S.

Abstract

This work investigates single-input single-output (SISO) visible light communication (VLC) when subject to signal-dependent shot noise (SDSN). The topics of discussion include channel estimation and data transmission, where in the former, we introduce both least square (LS) and maximum likelihood (ML) estimators. The Cramér-Rao lower bound (CRLB) of the channel estimation error is also derived. In terms of data transmission, we propose optimal and sub-optimal receiver designs and present their bit error rate (BER) performances. In specific, we derive a closed-form expression of the BER for the sub-optimal receiver and an approximated version for the optimal one. Our analysis indicates that the performance of the CRLB demonstrates no linear relationship with the SDSN, thermal noise, or the fading channel. On the other hand, SDSN has quite a severe effect on the channel estimation error bound, and as such, it can dramatically degrade the BER performance. Heightened performance degradation can also be explained by the joint effects of the channel estimation error and SDSN. [ABSTRACT FROM AUTHOR]

Published

2021

37. The impact of energy consumption and merchandise exports on CO2 emission in the United Nations geoscheme regions.

Author

Senarathne, Chamil W. and Jayasinghe, Prabhath

Abstract

Purpose: While sustainable development policies are mostly set based on United Nations (UN) geoscheme classification, no study attempts to examine the impact of influential economic variables such as energy consumption (EC) and merchandise exports (ME) on carbon dioxide (CO2) emission in the UN geoscheme regions. The purpose of this paper is to examine the possible impact of EC and ME on CO2 emission in UN geoscheme classification regions such as Africa, America, Arab, Asia and Europe. Design/methodology/approach: This paper uses autoregressive distributed lag (ARDL), Pedroni panel cointegration and panel Granger causality methodologies covering an annual panel data sampling period from 1971 to 2014. Findings: The results show that there is bidirectional causality between all three variables in the European and American panel except for the non-causality from CO2 to EC in the American panel. These findings suggest possible consequences of weaker energy efficiency (even under environmental policy tightening) and strong demand for energy-intensive economic activities in those regions. Developed countries with higher environmental policy tightening (America and Europe) show significant estimates from the chosen tests supporting the Porter hypothesis. EC and ME have a long-run impact on CO2 emission in American and European panels. The African region has the least environmental impact of pollution from ME. Practical implications: The ME and EC have a direct significant impact on CO2 emission in America and Europe. As these causalities, co-integrations and their impacts share a long-run equilibrium relationship, policymakers must design long-term industry policies such as cleaner production techniques focusing on environmentally sustainable practices. Also, it is suggested that the policymakers must ensure that they implement more robust policies and standards for environmental-friendly export production. Originality/value: This is the first paper that examines the impact of EC and ME on CO2 emission in UN geoscheme regions. The findings of this paper provide theoretical implications supporting Porter hypothesis and practical implications for policymaking. [ABSTRACT FROM AUTHOR]

Published

2021

38. Assessment of noise in time series analysis for Buoy tide observations

Author

Saeed Farzaneh, Mohammad Ali Sharifi, Kamal Parvazi, and Bahare Namazi

Subjects

buoy station’s time series, least square estimation, least square -harmonic estimation, tides observation’s noise analysis, maximum likelihood estimation., Naval architecture. Shipbuilding. Marine engineering, VM1-989

Abstract

To extract valid results from time series analysis of tides observations, noise reduction is vital. This study aimed to use a precise statistical model to investigate noise types. Noise component amplitude of the proposed model was studied by Least Square Estimation (LS-VCE) through different statistical models: (1) white noise and auto-regressive noise, (2) white noise and Flicker noise, (3) white noise and random walk noise, (4) white noise and Flicker noise and random walk, and (5) auto-regressive noise and Flicker noise. Based on the values obtained for the Likelihood Function, it was concluded that the noise model that can be considered for observations of the Buoy time series includes two white and Flicker noises. In addition, tide forecasting for all stations was done by extracting important frequency calculated in two cases: (1) the first case in which matrix of observation weight matrix was considered as the unit matrix or the noise model was just a white noise (2) the case in which matrix of observation weight matrix was considered as a combination of white and Flicker noises. The results show that use of precise observation weight matrix resulted in 11 millimeter difference compared to the case in which observation with unit weight matrix was used.

Published

2020

39. Developing a Novel Real-Time Indoor Positioning System Based on BLE Beacons and Smartphone Sensors.

Author

Dinh, Thai-Mai Thi, Duong, Ngoc-Son, and Nguyen, Quoc-Tuan

Abstract

In this work, we study the problem of fusing one Pedestrian-Dead-Reckoning-based (PDR-based) position measurement and one instant Received-Signal-Strength-based (RSS-based) position measurement. This situation can arise in a smartphone-based indoor positioning system when we want to locate a moving user in real-time with sustainable accuracy, but the RSS sampling ability of smartphones is limited; for example, one RSS sample per second. Firstly, by investigating RSS’s heterogeneity, we offer a solution for RSS-based continuous positioning problems under a low RSS sampling rate that satisfies real-time requirements. Secondly, we propose a method to improve accuracy for the RSS-based position estimation method, i.e., multilateration using Least Square Estimation. We consider PDR-based and improved RSS-based positions both have Gaussian uncertainty due to initial position plus drifting and RSS-to-distance conversion, respectively. Then, the Kalman filter will fuse two kinds of Gaussian distribution to produce more precise positions. The method is intended to design a real-time system for locating a moving target. Experiments are conducted in real indoor space with a commodity device. Its results show that our proposed solution is highly accurate and feasible in actual deployment. [ABSTRACT FROM AUTHOR]

Published

2021

40. Mixture of Akash Distributions: Estimation, Simulation and Application

Author

Anum Shafiq, Tabassum Naz Sindhu, Showkat Ahmad Lone, Marwa K. H. Hassan, and Kamsing Nonlaopon

Subjects

mixture model, cumulative hazard rate function, Mills ratio, quantile function, least square estimation, Mathematics, QA1-939

Abstract

In this paper, we propose a two-component mixture of Akash model (TC-MAM). The behavior of TC-MAM distribution has been presented graphically. Moment-based measures, including skewness, index of dispersion, kurtosis, and coefficient of variation, have been determined and hazard rate functions are presented graphically. The probability generating function, Mills ratio, characteristic function, cumulants, mean time to failure, and factorial moment generating function are all statistical aspects of the mixed model that we explore. Furthermore, we figure out the relevant parameters of the mixture model using the most suitable methods, such as least square, weighted least square, and maximum likelihood mechanisms. Findings of simulation experiments to examine behavior of these estimates are graphically presented. Finally, a set of data taken from the real world is examined in order to demonstrate the new model’s practical perspectives. All of the metrics evaluated favor the new model and the superiority of proposed distribution over mixture of Lindley, Shanker, and exponential distributions.

Published

2022

41. ESTIMATION OF THE MARSHALL-OLKIN PARETO DISTRIBUTION PARAMETERS: COMPARATIVE STUDY.

Author

Bdair, Omar M. and Ahmad, Hanan A. Haj

Subjects

*PARETO distribution, *MONTE Carlo method, *FIX-point estimation, *COMPARATIVE studies, *CHANGE-point problems, *PARAMETER estimation

Abstract

This article deals with different methods of point estimation for the unknown parameters of Marshall-Olkin Pareto distribution (MOP). This is a new lifetime that generalizes Pareto distribution, which was introduced by Marshall-Olkin (1997). Some classical point estimation methods are considered and their asymptotic properties are discussed along with studying Bayesian estimation method. The main purpose of this work is to determine which estimation method is more efficient under MOP distribution based on minimum average relative mean square error (MSE). Real data analyses are performed and it has been shown that MOP distribution is a better fit than the original Pareto distribution. In this paper, we compare the performances of these procedures through extensive numerical simulations. [ABSTRACT FROM AUTHOR]

Published

2021

42. Predictive models for the number of cumulative cases for spreading coronavirus disease 2019 in the world.

Author

Sunthornwat, Rapin and Areepong, Yupaporn

Subjects

COVID-19, COVID-19 pandemic, INFECTIOUS disease transmission, PREDICTION models, GOMPERTZ functions (Mathematics)

Abstract

The coronavirus disease outbreak in 2019 (COVID-19) has caused major economic and healthcare problems worldwide. At this time, the worldwide outbreak has passed its peak, while the greatest number of cases has been in the USA, Brazil, and India. Measures and policies for controlling the outbreak have been developed by authorities to protect the population of each country, and forecasting the number of infectious people is an important factor for developing them. This research was conducted to identify a suitable forecasting model for estimating the cumulative daily number of infectious people worldwide. Sample countries with severe outbreaks were selected from each continent. Herein, forecasting models based on logistic, Richards, and Gompertz growth curves are derived and their suitability for forecasting the COVID-19 rates in each sample country and worldwide are analyzed. Moreover, estimating the growth curve parameters is based on the least-squares method. The results show that the Gompert growth curve is the most suitable for estimating the cumulative number of infectious people worldwide. [ABSTRACT FROM AUTHOR]

Published

2021

43. Linear Pattern Correction Technique for Compensating the Effects of Mutual Coupling and Deformation in Wedge-Shaped Conformal Antenna Arrays.

Author

Tariq, Adnan, Khattak, Shahid, Munsif, Hina, Razzaq, Sohail, and Irfanullah

Subjects

*CONFORMAL antennas, *ANTENNA arrays, *DIPOLE array antennas, *ANTENNA radiation patterns, *OPEN-circuit voltage, *DIPOLE antennas

Abstract

In this paper, the effects of mutual coupling and antenna surface deformity in a conformal wedge-shaped antenna array are compensated using a linear pattern correction technique. The problem is formulated to reduce the absolute distance between the actual (simulated) and the desired radiation patterns and to allow for null positioning control. The individual field patterns for the antenna elements are deformed due to changes in mutual coupling and the conformal surface. The deformed patterns of the individual antennas for specific bend angles are stored as lookup tables and interpolated to get the desired radiation pattern at any arbitrary bend-angle. The problem is linearly and quadratically constrained at the null points and performance compared with unconstrained optimization. The proposed solution for diminishing the effect of mutual coupling and surface deformity is independent of main lobe direction, type of individual antenna, array geometry, and spacing between antenna elements. The closed-form results are validated through Computer Simulation Technology (CST) for the wedge-shaped deformed dipole antenna array. The results for the proposed scheme are also assessed with the traditional Open Circuit Voltage Method (OCVM) and show superior compensation for deformity and the mutual coupling effects in conformal beam-forming arrays in terms of main beam direction, position and depth of nulls. [ABSTRACT FROM AUTHOR]

Published

2021

44. Estimation of the expected number of cases of microcephaly in Brazil as a result of Zika

Author

Yanfeng Liang and David Greenhalgh

Subjects

zika virus, microcephaly, dengue, aedes aegypti, parameter estimation, least square estimation, ordinary differential equations, partial differential equations, Biotechnology, TP248.13-248.65, Mathematics, QA1-939

Abstract

In this paper we have adapted a delayed dengue model to Zika. By assuming that the epidemic starts by a single infected individual entering a disease-free population at some initial time t0 we have used the least squares parameter estimation technique in R to estimate the initial time t0 using observed Zika data from Brazil as well as the transmission probabilities of Zika in Brazil between humans and mosquitoes and vice-versa. Different values of Aedes aegypti (A. aegypti) biting rate are used throughout the paper. We have estimated the value of the basic reproduction number for Zika in Brazil and calculated the expected number of cases of microcephaly in newborns as a result of women infected with Zika during pregnancy. We started off with a non-age-structured model then introduced age-structure into the model. However in reality seasonality, in particular temperature and rainfall, have a great impact on the population size of A. aegypti. Hence we repeat both the non-age-structured and age-structured analyses introducing seasonality into the A. aegypti birth function to model the effect of these environmental factors.

Published

2019

45. The Localization Algorithm Based on Symmetry Correction for Underwater Acoustic Networks

Author

Shaochen Zhang, Keyu Chen, Zongyue Fan, En Cheng, and Wei Su

Subjects

Underwater localization, underwater acoustic networks (UANs), sound velocity, symmetry correction, least square estimation, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

Underwater localization is an important and fundamental part of the Underwater Acoustic Networks (UANs). The problem we must face is that radio waves and optical waves are heavily attenuated underwater, so acoustic signals become the most common form of communication. However, the speed of sound wave is not constant and will be affected by the environmental factors. The inaccurate sound velocity will have a serious impact on the traditional positioning results. Therefore, the symmetry correction based on least square estimation (SC-LSE) is proposed in this paper. SC-LSE mitigates the influence of the imprecise velocity estimation on the localization by means of a special symmetrical relationship. We consider a realistic case, where the actual speed of sound is uncertain and the unknown nodes may be moving. The simulation results exhibit that our algorithm can achieve good performance and is not sensitive to the change of sound velocity and node movement.

Published

2019

46. Smartphone indoor positioning based on enhanced BLE beacon multi-lateration.

Author

Ngoc-Son Duong and Thai-Mai Dinh Thi

Subjects

*BEACONS, *LOCATION marketing, *ASSISTANCE in emergencies, *LEAST squares, *EMERGENCY medical services

Abstract

In this paper, we introduce a smartphone indoor positioning method using bluetooth low energy (BLE) beacon multilateration. At first, based on signal strength analysis, we construct a distance calculation model for BLE beacons. Then, with the aims to improve positioning accuracy, we propose an improved lateral method (range-based method) which is applied for 4 nearby beacons. The method is intended to design a real-time system for some services such as emergency assistance, personal localization and tracking, location-based advertising and marketing, etc. Experimental results show that the proposed method achieves high accuracy when compared with the state of the art lateral methods such as geometry-based (conventional trilateration), least square estimation-based (LSE-based) and weighted LSE-based. [ABSTRACT FROM AUTHOR]

Published

2021

47. Predictive Models for Cumulative Confirmed COVID-19 Cases by Day in Southeast Asia.

Author

Yupaporn Areepong and Rapin Sunthornwat

Subjects

COVID-19, GOMPERTZ functions (Mathematics), PREDICTION models, PANDEMICS, LEAST squares, HUMAN beings

Abstract

Coronavirus disease 2019 outbreak has spread as a pandemic since the end of year 2019. This situation has been causing a lot of problems of human beings such as economic problems, health problems. The forecasting of the number of infectious people is required by the authorities of all countries including Southeast Asian countries to make a decision and control the outbreak. This research is to investigate the suitable forecasting model for the number of infectious people in Southeast Asian countries. A comparison of forecasting models between logistic growth curve which is symmetric and Gompertz growth curve which is asymmetric based on the maximumof Coefficient of Determination and theminimumof RootMean Squared Percentage Error is also proposed. The estimation of parameters of the forecasting models is evaluated by the least square method. In addition, spreading of the outbreak is estimated by the derivative of the number of cumulative cases. The findings show that Gompertz growth curve is a suitable forecasting model for Indonesia, Philippines, andMalaysia and logistic growth curve suits the other countries in South Asia. [ABSTRACT FROM AUTHOR]

Published

2020

48. A Spatial-Enhanced LSE-SFIM Algorithm for Hyperspectral and Multispectral Images Fusion

Author

Yulei Wang, Qingyu Zhu, Yao Shi, Meiping Song, and Chunyan Yu

Subjects

hyperspectral image, multi-source image fusion, SFIM, least square estimation, spatial filter, Science

Abstract

The fusion of a hyperspectral image (HSI) and multispectral image (MSI) can significantly improve the ability of ground target recognition and identification. The quality of spatial information and the fidelity of spectral information are normally contradictory. However, these two properties are non-negligible indicators for multi-source remote-sensing images fusion. The smoothing filter-based intensity modulation (SFIM) method is a simple yet effective model for image fusion, which can improve the spatial texture details of the image well, and maintain the spectral characteristics of the image significantly. However, traditional SFIM has a poor effect for edge information sharpening, leading to a bad overall fusion result. In order to obtain better spatial information, a spatial filter-based improved LSE-SFIM algorithm is proposed in this paper. Firstly, the least square estimation (LSE) algorithm is combined with SFIM, which can effectively improve the spatial information quality of the fused image. At the same time, in order to better maintain the spatial information, four spatial filters (mean, median, nearest and bilinear) are used for the simulated MSI image to extract fine spatial information. Six quality indexes are used to compare the performance of different algorithms, and the experimental results demonstrate that the LSE-SFIM based on bilinear (LES-SFIM-B) performs significantly better than the traditional SFIM algorithm and other spatially enhanced LSE-SFIM algorithms proposed in this paper. Furthermore, LSE-SFIM-B could also obtain similar performance compared with three state-of-the-art HSI-MSI fusion algorithms (CNMF, HySure, and FUSE), while the computing time is much shorter.

Published

2021

49. New Methodology of Designation the Precise Aircraft Position Based on the RTK GPS Solution

Author

Kamil Krasuski, Adam Ciećko, Mieczysław Bakuła, Grzegorz Grunwald, and Damian Wierzbicki

Subjects

RTK-OTF, least square estimation, aircraft position, standard deviation, GPS, Chemical technology, TP1-1185

Abstract

The paper presents the results of research on improving the accuracy of aircraft positioning using RTK-OTF (Real Time Kinematic–On The Fly) technique in air navigation. The paper shows a new solution of aircraft positioning for the application of the differential RTK-OTF technique in air navigation. In particular, a new mathematical model is presented which makes it possible to determine the resultant position of an aircraft based on the solution for the method of least squares in a stochastic process. The developed method combines in the process of alignment of GPS (Global Positioning System) observations, three independent solutions of the aircraft position in OTF mode for geocentric coordinates XYZ of the aircraft. Measurement weights as a function of the vector length and the mean vector length error, respectively, were used in the calculations. The applied calculation method makes it possible to determine the resultant position of the aircraft with high accuracy: better than 0.039 m with using the measurement weight as a function of the vector length and better than 0.009 m with the measurement weight as a function of the mean error of the vector length, respectively. In relation to the classical RTK-OTF solution as a model of the arithmetic mean, the proposed method makes it possible to increase the accuracy of determination of the aircraft position by 45–46% using the measurement weight as a function of the vector length, and 86–88% using the measurement weight as a function of the mean error of the vector length, respectively. The obtained test results show that the developed method improves to significantly improve the accuracy of the RTK-OTF solution as a method for determining the reference position in air navigation.

Published

2021

50. Estimation of COVID-19 Transmission and Advice on Public Health Interventions

Author

Qingqing Ji, Xu Zhao, Hanlin Ma, Qing Liu, Yiwen Liu, and Qiyue Guan

Subjects

novel coronavirus, epidemic control, traffic control measures, least square estimation, SIR model, Mathematics, QA1-939

Abstract

At the end of 2019, an outbreak of the novel coronavirus (COVID-19) made a profound impact on the country’s production and people’s daily lives. Up until now, COVID-19 has not been fully controlled all over the world. Based on the clinical research progress of infectious diseases, combined with epidemiological theories and possible disease control measures, this paper establishes a Susceptible Infected Recovered (SIR) model that meets the characteristics of the transmission of the new coronavirus, using the least square estimation (LSE) method to estimate the model parameters. The simulation results show that quarantine and containment measures as well as vaccine and drug development measures can control the spread of the epidemic effectively. As can be seen from the prediction results of the model, the simulation results of the epidemic development of the whole country and Nanjing are in agreement with the real situation of the epidemic, and the number of confirmed cases is close to the real value. At the same time, the model’s prediction of the prevention effect and control measures have shed new light on epidemic prevention and control.

Published

2021