A smart channel estimation approach for LTE systems using PSO algorithm
Siraj
Pathan
PhD Research Scholar at Amity University Jaipur & Faculty at Kalsekar Technical Campus of Mumbai University
author
Deepak
Panwar
Faculty at Dept of Computer Science at Amity School of Engineering & Technology at Amity University
author
text
article
2020
eng
This study focuses on developing an effective channel estimation approach using swarm Intelligence. The Orthogonal Frequency Division Multiplexing ( OFDM) is a modulation technique used to counter transmission channel frequency selection to reach high data rate without disruption. The theory of OFDM is to gain prominence in the field of wireless communication. OFDM is combined with the transmitter and receiver antenna to amplify the variety gain and improve system capacity on selective time and frequency channels, resulting in a Multiple Input Multiple Output ( MIMO) pattern. The most commonly used channel estimation techniques are the Least Square (LS) approaches and Minimum Mean Square Error (MMSE) approaches. In LS, the estimation1process is simple but the problem is that the square error has a high mean. The MMSE is better in Low SNR than in LS, but its main problem is its high computational complexity. A unique method is proposed in this research study that combines LS and MMSE to overcome the aforementioned problems. Upgraded PSO is introduced in this study to select the best channel. This proposed approach is also more efficient and requires less time compared to other techniques to estimate the best channel.
Annals of Optimization Theory and Practice
Firouzabad Institute of Higher Education
2588-3666
3
v.
3
no.
2020
1
13
https://aotp.fabad-ihe.ac.ir/article_119879_9560d7dfc935d1999a78cc215a4e1aed.pdf
dx.doi.org/10.22121/aotp.2020.242757.1037
Some induced generalized Einstein aggregating operators and their application to group decision-making problem using intuitionistic fuzzy numbers
khaista
Rahman
Hazara University Mansehra
author
Ayub
Sanam
Department of Mathematics and Statistics, Riphah International University, Islamabad, Pakistan
author
Abdullah
Saleem
Department of Mathematics, Abdul Wali Khan University, Mardan, Pakistan
author
Yaqub
Muhammad
Department of Mathematics and Statistics, Riphah International University, Islamabad, Pakistan
author
text
article
2020
eng
The paper aims to develop an idea of some inducing operators, namely induced intuitionistic fuzzy Einstein hybrid averaging operator, induced intuitionistic fuzzy Einstein hybrid geometric operator, induced generalized intuitionistic fuzzy Einstein hybrid averaging operator and induced generalized intuitionistic fuzzy Einstein hybrid geometric operator along with their wanted structure properties such as, monotonicity, idempotency and boundedness. The proposed operators are competent and able to reflect the complex attitudinal character of the decision maker by using order inducing variables and deliver more information to experts for decision-making. To show the legitimacy, practicality and effectiveness of the new operators, the proposed operators have been applied to decision making problems
Annals of Optimization Theory and Practice
Firouzabad Institute of Higher Education
2588-3666
3
v.
3
no.
2020
15
49
https://aotp.fabad-ihe.ac.ir/article_113593_05b3e5f3a6d68348a75510d6d99ac66f.pdf
dx.doi.org/10.22121/aotp.2020.241689.1036
An algorithm for an improved intuitionistic fuzzy correlation measure with medical diagnostic application
Paul
Ejegwa
Department of Mathematics, Statistics and Computer Science, University of Agriculture, P.M.B. 2327, Makurdi-Nigeria
author
Idoko
Onyeke
Department of Computer Science, University of Agriculture, P.M.B. 2373, Makurdi,
Nigeria
author
Victoria
Adah
Department of Statistics, University of Agriculture, P.M.B. 2373, Makurdi, Nigeria
author
text
article
2020
eng
Correlation measure is a vital measuring operator with vast applications in decision-making. On the other hand, intuitionistic fuzzy set (IFS) is very resourceful in soft computing to tackle embedded fuzziness in decision-making. The extension of correlation measure to intuitionistic fuzzy settinghas proven to be useful in multi-criteria decision-making (MCDM). This paper introduces a new intuitionistic fuzzy correlation measure encapsulates in an algorithm by taking into account the complete parameters of IFSs. This new computing technique evaluates the strength of relationship and it is defined within the codomain of IFS. The proposed technique is demonstrated with some theoretical results, and numerically authenticated to be superior in terms of performance index in contrast to some existing correlation measures. We demonstrate the application of the new correlation measure coded with JAVA programming language in medical diagnosis to enhance efficiency since diagnosis is a delicate medical-decision-making exercise.
Annals of Optimization Theory and Practice
Firouzabad Institute of Higher Education
2588-3666
3
v.
3
no.
2020
51
66
https://aotp.fabad-ihe.ac.ir/article_118829_8326356d34d39612658628156acd7d91.pdf
dx.doi.org/10.22121/aotp.2020.249456.1041
Policy decision making based on some averaging aggregation operators of t-spherical fuzzy sets; a multi-attribute decision making approach
Kifayat
Ullah
Department of Mathematics & Statistics, International Islamic University Islamabad, 44000 Islamabad, Pakistan.
author
Tahir
Mahmood
Department of Mathematics & Statistics, International Islamic University Islamabad, 44000 Islamabad, Pakistan.
author
Naeem
Jan
Department of Mathematics & Statistics, International Islamic University Islamabad, 44000 Islamabad, Pakistan.
author
Zeeshan
Ahmad
Department of Mathematics & Statistics, International Islamic University Islamabad, 44000 Islamabad, Pakistan.
author
text
article
2020
eng
Multi-attribute decision making (MADM) is a hot research area in fuzzy mathematics and to deal with that, the averaging and geometric aggregation operators (AOs) are the widely used tools. The aim of this manuscript is to propose the notion of averaging and geometric AOs in the environment of T-spherical fuzzy sets (TSFSs). TSFS enables the selection of grades of memberships from considerably a larger domain and hence overcome the drawbacks of the existing fuzzy frameworks. In this paper, we develop some novel operations for TSFSs including algebraic sum, product etc. Based on new operations some averaging AOs including T-spherical fuzzy weighted averaging (TSFWA) and T-spherical fuzzy weighted geometric (TSFWG) operators are developed. The monotonicity, idempotency and boundedness of the defined operators are investigated, and their fitness is validated using induction method. With the help of an illustrative example, the problem of policy decision making using a MADM algorithm is solved. The new proposed work and the existing literature is compared numerically and the advantages of the TSFWA and TSFWG operators are investigated over existing work.
Annals of Optimization Theory and Practice
Firouzabad Institute of Higher Education
2588-3666
3
v.
3
no.
2020
69
92
https://aotp.fabad-ihe.ac.ir/article_119000_17252ee736989db0235a1ce04060479f.pdf
dx.doi.org/10.22121/aotp.2020.241244.1035
Computation of three-stage stochastic transportation planning under an uncertain environment
Shubham
Singh
iit kharagpur
author
Ritu
Nigam
IIT Kharagpur
author
Debjani
Chakraborty
Department of Mathematics IIT Kharagpur
author
text
article
2020
eng
Stochastic programming is often used to solve optimization problems where parameters are uncertain. In this article, we have proposed a mathematical model for a three-stage transportation problem, where the parameters, namely transport costs, demand, unload capacity and external purchasing costs are uncertain. In order to remove the uncertainty, we have proposed a new transformation technique to reformulate the uncertain model deterministically with the help of Essen inequality. The obtained equivalent deterministic model is nonlinear. Furthermore, we have provided a theorem to ensure that the deterministic model gives a feasible solution. Finally, a numerical example, following uniform random variables, is presented to illustrate the model and methodology.
Annals of Optimization Theory and Practice
Firouzabad Institute of Higher Education
2588-3666
3
v.
3
no.
2020
93
115
https://aotp.fabad-ihe.ac.ir/article_119248_3f54634045711497ac70b96bb5d15e54.pdf
dx.doi.org/10.22121/aotp.2020.252845.1047
Picture fuzzy labelling graphs with an application
Ajay
Devaraj
Department of Mathematics, Sacred Heart College (Autonomous), Tirupattur, Tamilnadu
author
Chellamani
P
Ph. D Research Scholar, PG and Research Department of Mathematics, Sacred Heart College (Autonomous),
Tirupattur – 635 601, Tamil Nadu
author
text
article
2020
eng
The main objective of this paper is to introduce the idea of picture fuzzy labelling of graphs and the concepts of strong arc, partial cut node, bridge of picture fuzzy labelling graphs, picture fuzzy labelling tree and cycle along with their properties and results. In addition, an application of the picture fuzzy graph labelling model for the human circulatory system has been discussed.
Annals of Optimization Theory and Practice
Firouzabad Institute of Higher Education
2588-3666
3
v.
3
no.
2020
117
134
https://aotp.fabad-ihe.ac.ir/article_120594_4897d46500d41fdab17af0144ea5a819.pdf
dx.doi.org/10.22121/aotp.2020.256899.1053
A new type of open set and its applications
Parimala
Mani
Department of Mathematics
Bannari Amman Institute of Technology
author
Cenap
Ozel
King Abdulaziz University
author
Karthika
Muthusamy
Department of Mathematics
Bannari Amman Institute of Technology
author
text
article
2020
eng
In this paper we introduce some new separation axioms by utilizing the notions of alphaomega-p-open sets and alphaomega-pre closure operator and the implication between the existing spaces are provided. Also as an application, we study some continuous functions and graph functions using this separation axioms. Basic theorems and properties are also investigated.
Annals of Optimization Theory and Practice
Firouzabad Institute of Higher Education
2588-3666
3
v.
3
no.
2020
135
154
https://aotp.fabad-ihe.ac.ir/article_120595_fa415ec0bd117dc1b7f259a6cd825264.pdf
dx.doi.org/10.22121/aotp.2020.257115.1054
Alternative approach to find optimal solution of assignment problem using Hungarian method by trapezoidal intuitionistic type-2 fuzzy data
Rahul
Kar
Department of Mathematics, Springdale High School, Kalyani, West Bengal
author
Ashok
Shaw
Dean Academic, Department of Mathematics, Regent Education and Research Foundation
Bara Kanthalia, Sewli Telini Para, North 24 Parganas, Barrackpore, Kolkata, West Bengal 700121
author
Bappa
Das
Department of Mathematics, BANKURA UNIVERSITY, West Bengal, India
author
text
article
2020
eng
Now a day’s uncertainty is a common thing in science and technology. It is undesirable also. Based on alternative view, it should be avoided by all possible means. Based on modern view uncertainty is considered essential to science and technology, it is not only the unavoidable plague but also it has impacted a great utility. Fuzzy set theory mainly developed based on inexactness, vagueness, relativity etc. fuzzy set may be used in mathematical modelling in every scientific discipline. It can also use for improving the generality of analytical solution. It has many uses in various streams like -operation research, control theory differential equations, fuzzy system reliability, optimization and management sciences etc. In this paper we first describe Trapezoidal intuitionistic Type 2 fuzzy number(TrIT2FN) with arithmetic operations and solve an assignment problem using Hungarian method for Trapezoidal intuitionistic Type 2 fuzzy number (TrIT2FN).
Annals of Optimization Theory and Practice
Firouzabad Institute of Higher Education
2588-3666
3
v.
3
no.
2020
155
173
https://aotp.fabad-ihe.ac.ir/article_120828_fcedd08d9a3d5484f1922d9434b48255.pdf
dx.doi.org/10.22121/aotp.2020.257124.1055