Call for chapters for the book Algebraic Structures in the Universe

  Call for Book-Chapters for the collective book Algebraic Structures in the Universe of Neutrosophic: Analysis with Innovative Algorithmic Approaches, Editors: Prof. Dr. Memet Şahin, Assoc. Prof. Dr. Derya BAKBAK, Assoc. Prof. Dr. Vakkas ULUCAY, Assist. Prof. Dr. Abdullah Kargın. 
Submission Deadline: July 15th 2024, 
by emails to docdrmemetsahin@gmail.com” target=”_blank”>docdrmemetsahin@gmail.com    
  
 Neutrosophy as a philosophy extending the Paradoxism, the Dialectics, the Yin-Yang ancient Chinese philosophy, the Manichaeism, and in general the Dualism,
http://fs.unm.edu/Neutrosophy-A-New-Branch-of-Philosophy.pdf

produced the neutrosophic set/logic/probability/statistics;

http://fs.unm.edu/eBook-Neutrosophics6.pdf (online sixth edition) 
 Nonstandard Neutrosophic Logic, Set, Probability https://arxiv.org/ftp/arxiv/papers/1903/1903.04558.pdf https://fs.unm.edu/AdvancesOfStandardAndNonstandard.pdf

Neutrosophic Numbers (a+bI, where I = literal indeterminacy, I^2 = I, 

and I / I is undefined, 
which is different from the numerical indeterminacy I = real set),
with
I-Neutrosophic Algebraic Structures 
and Neutrosophic Cognitive Maps
https://arxiv.org/ftp/math/papers/0311/0311063.pdf
http://fs.unm.edu/NCMs.pdf

Interval Neutrosophic Set/Logic
https://arxiv.org/pdf/cs/0505014.pdf
http://fs.unm.edu/INSL.pdf

Degree of Dependence and Degree of Independence between the Neutrosophic Components T, I, F
http://fs.unm.edu/NSS/DegreeOfDependenceAndIndependence.pdf
 

 Neutrosophic Overset (when some neutrosophic component is > 1), 
since for example, an employee working overtime deserves a degree of
membership > 1, with respect to an employee that only works regular
full-time and whose degree of membership = 1;

and to Neutrosophic Underset (when some neutrosophic component is < 0), since, for example, an employee making more damage than benefit to his company deserves a
degree of membership < 0, with respect to an employee that produces benefit to the company and has the degree of membership > 0;

and to and to Neutrosophic Offset (when some neutrosophic components are off the interval [0, 1],
i.e. some neutrosophic component > 1 and some neutrosophic component <
0).


Then, similarly, the Neutrosophic Logic/Measure/Probability/Statistics etc.
were extended to respectively
Neutrosophic Over-/Under-/Off- Logic /
Measure / Probability / Statistics
etc.
https://arxiv.org/ftp/arxiv/papers/1607/1607.00234.pdf
http://fs.unm.edu/NeutrosophicOversetUndersetOffset.pdf
http://fs.unm.edu/SVNeutrosophicOverset-JMI.pdf
http://fs.unm.edu/IV-Neutrosophic-Overset-Underset-Offset.pdf
http://fs.unm.edu/NSS/DegreesOf-Over-Under-Off-Membership.pdf 
Neutrosophic Tripolar Set and Neutrosophic Multipolar Set and consequently the Neutrosophic Tripolar Graph and Neutrosophic Multipolar Graph
http://fs.unm.edu/eBook-Neutrosophics6.pdf (p. 93)
http://fs.unm.edu/IFS-generalized.pdf

Neutrosophic Measure and Neutrosophic Probability
( chance that an event occurs, indeterminate chance of occurrence,
chance that the event does not occur )

https://arxiv.org/ftp/arxiv/papers/1311/1311.7139.pdf
http://fs.unm.edu/NeutrosophicMeasureIntegralProbability.pdf

Refined / Split the Neutrosophic Components (T, I, F) into Neutrosophic SubComponents (T1, T2, …; I1, I2, …; F1, F2, …):
https://arxiv.org/ftp/arxiv/papers/1407/1407.1041.pdf
http://fs.unm.edu/n-ValuedNeutrosophicLogic-PiP.pdf

Law of Included Multiple-Middle (as extension of the Law of Included Middle):  (<A>; <neutA1>, <neutA2>, …, <neutAn>;
<antiA>);
http://fs.unm.edu/LawIncludedMultiple-Middle.pdf 

and the Law of Included Infinitely-Many-Middles: (<A>;
<neutA
1>, <neutA2>, …, <neutAinfinity>;
<antiA>)
https://fs.unm.edu/NSS/LawIncludedInfinitely1.pdf  
Neutrosophic Statistics (indeterminacy is introduced into classical statistics with respect to any data regarding the
sample / population, probability distributions / laws / graphs / charts etc.,
with respect to the individuals that only partially belong to a sample /
population, and so on):

https://arxiv.org/ftp/arxiv/papers/1406/1406.2000.pdf
http://fs.unm.edu/NeutrosophicStatistics.pdf

 

Neutrosophic Precalculus and Neutrosophic Calculus
https://arxiv.org/ftp/arxiv/papers/1509/1509.07723.pdf
http://fs.unm.edu/NeutrosophicPrecalculusCalculus.pdf

Refined Neutrosophic Numbers
(a+ b
1I1 + b2I2 + … + bnIn), where I1, I2, …, In are
SubIndeterminacies of Indeterminacy I.
 

 (t,i,f)-Neutrosophic Graphs  
 and the Thesis-AntiThesis-NeutroThesis, and NeutroSynthesis, Neutrosophic
Axiomatic System, neutrosophic dynamic systems, symbolic neutrosophic logic,
(t, i, f)-Neutrosophic Structures, I-Neutrosophic Structures, Refined Literal
Indeterminacy, Quadruple Neutrosophic Algebraic Structures, Multiplication Law of SubIndeterminacies, and Neutrosophic Quadruple Numbers of the form a + bT + cI + dF, where T, I, F are literal neutrosophic components, and a, b, c, d are real or complex numbers:

https://arxiv.org/ftp/arxiv/papers/1512/1512.00047.pdf
http://fs.unm.edu/SymbolicNeutrosophicTheory.pdf
 
 Addition, Multiplication, Scalar Multiplication, Power, Subtraction, and
Division of Neutrosophic Triplets
(T, I, F) https://fs.unm.edu/CR/SubstractionAndDivision.pdf 
Neutrosophic Multisets (as
generalization of classical multisets)

http://fs.unm.edu/NeutrosophicMultisets.htm

Neutrosophic Triplet Structures and m-valued refined neutrosophic triplet structures
http://fs.unm.edu/NeutrosophicTriplets.htm

Neutrosophic Duplet Structures
http://fs.unm.edu/NeutrosophicDuplets.htm 

 Neutrosophic Score, Accuracy, and
Certainty Functions
form a
total order relationship on the set of (single-valued, interval-valued, and in
general subset-valued) neutrosophic triplets (T, I, F); and these functions are
used in MCDM (Multi-Criteria Decision Making):
http://fs.unm.edu/NSS/TheScoreAccuracyAndCertainty1.pdf 
 Theory of Neutrosophic Evolution: Degrees of Evolution, Indeterminacy or Neutrality, and Involution (as extension of Darwin's Theory of
Evolution):

http://fs.unm.edu/neutrosophic-evolution-PP-49-13.pdf 
       
The Law that:
It Is Easier to Break from Inside than from Outside a
Neutrosophic Dynamic System
:
http://fs.unm.edu/EasierMaiUsor.pdf
 
        
 New types of soft sets: HyperSoft Set, IndetermSoft Set, IndetermHyperSoft Set, SuperHyperSoft Set, TreeSoft Set: http://fs.unm.edu/TSS/NewTypesSoftSets-Improved.pdf  
https://fs.unm.edu/NSS/IndetermSoftIndetermHyperSoft38.pdf (with IndetermSoft Operators acting on IndetermSoft Algebra) 
 Neutrosophic Psychology (Neutropsyche, Refined Neutrosophic Memory: conscious, aconscious, unconscious, Neutropsychic Personality, Eros / Aoristos / Thanatos, Neutropsychic Crisp Personality):
http://fs.unm.edu/NeutropsychicPersonality-ed3.pdf

Theory of Spiral Neutrosophic Human Evolution http://fs.unm.edu/SpiralNeutrosophicEvolution.pdf 

 
Neutrosophic Sociology (NeutroSociology) [neutrosophic
concept, or (T, I, F)-concept, is a concept that is T% true, I% indeterminate,
and F% false]:
http://fs.unm.edu/Neutrosociology.pdf 
 Refined Neutrosophic Crisp Set http://fs.unm.edu/RefinedNeutrosophicCrispSet.pdf 
        
New types of topologies: NonStandard Topology, Largest Extended NonStandard Real Topology, Neutrosophic Triplet Weak/Strong Topologies, Neutrosophic Extended Triplet Weak/Strong Topologies, Neutrosophic Duplet Topology, Neutrosophic Extended Duplet Topology, Neutrosophic MultiSet Topology, NonStandard Neutrosophic Topology, NeutroTopology, AntiTopology, Refined Neutrosophic Topology, Refined Neutrosophic Crisp Topology, SuperHyperTopology, and Neutrosophic SuperHyperTopology: 
        
Generalization of the classical Algebraic Structures to NeutroAlgebraic
Structures (or
NeutroAlgebras)  {whose operations and
axioms are partially true, partially indeterminate, and partially false}
 
as extensions of Partial Algebra, and to AntiAlgebraic Structures (or AntiAlgebras) {whose operations and axioms are totally false}. 
And, in general, he extended any classical Structure, in no matter what field of knowledge, to a  NeutroStructure and an AntiStructure:   
       NeutroGeometry & AntiGeometry as alternatives and generalizations of the Non-Euclidean Geometries while the Non-Euclidean Geometries
resulted from the total negation of only
 
one specific axiom (Euclid’s Fifth Postulate), the AntiGeometry results from the total negation of
any axiom
 
and even of more axioms from any
geometric axiomatic system (Euclid’s, Hilbert’s, etc.), and the
 
NeutroAxiom results from the partial negation of one or more axioms [and no total negation of no axiom] from any geometric axiomatic system.      
   
 Extension of HyperGraph to SuperHyperGraph and Neutrosophic SuperHyperGraph 
  
  
 Neutrosophic Number Theory (Abobala) 
         
Real Examples of NeutroGeometry and AntiGeometry:
 
  
  Plithogenic Logic as a generalization of MultiVariate Logic 
       
   Plithogenic Probability and Statistics as generalizations of MultiVariate Probability and Statistics respectively 
 
  AH-isometry f(x+yI) = f(x) + I[f(x+y) – f(x)] 
and foundation of the Neutrosophic Euclidean Geometry (by Abobala & Hatip) 
       
SuperHyperAlgebra & Neutrosophic SuperHyperAlgebra
 
       
SuperHyperFunction, SuperHyperTopology
 
 
 Symbolic Plithogenic Algebraic Structures built on the set of Symbolic Plithogenic Numbers of the form 
a0 + a1P1 + a2P2 + … + anP
where the multiplication Pi·Pj is
based on the prevalence order and absorbance law
http://fs.unm.edu/NSS/SymbolicPlithogenicAlgebraic39.pdf 
  Neutrosophic Cryptology (Merkepci-Abobala-Allouf) 
       
 MultiNeutrosophic Set 
(a neutrosophic set whose elements' degrees T, I, F are evaluated by multiple sources): 
 Appurtenance Equation & Inclusion Equation used in building of Neutrosophic Numbers in Neutrosophic Statistics
 
 MultiAlism System of Thought (an open dynamic system of many opposites, with their neutralities or indeterminacies, formed by elements from many systems): 
 SuperHyperStructure and Neutrosophic SuperHyperStructure 
  
  
  
 Applications in:

Artificial Intelligence, Information Systems, Computer Science, Cybernetics,
Theory Methods, Mathematical Algebraic Structures, Applied Mathematics,
Automation, Control Systems, Big Data, Engineering, Electrical, Electronic,
Philosophy, Social Science, Psychology, Biology, Biomedical, Genetics,
Engineering, Medical Informatics, Operational Research, Management Science,
Imaging Science, Photographic Technology, Instruments, Instrumentation,
Physics, Optics, Economics, Mechanics, Neurosciences, Radiology Nuclear,
Medicine, Medical Imaging, Interdisciplinary Applications, Multidisciplinary
Sciences, etc.
  

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