Fixed Point (Fixed Point) Theory is a crucial and
unexpectedly developing non-linear functional analysis subject matter. Outcomes
describing the existence of fixed points are termed as fixed points theorems.
Among all the functional parts of Mathematics, the theory of differential
equations is of much importance. Its contribution towards Physics and
Engineering cannot be neglected. Fixed-Point Theory guarantees the significant
solution of these equations. A vast literature on fixed-point theory is available
in journals of national and international repute and this is still growing.
Fixed Point theorems are used to find solutions to many problems in various
disciplines, which provide conditions under which a number of transformations
have solutions. Fixed Point theory involves a very transparent and fundamental
mathematical setting. This is primarily the logic that made us choose Fixed
Point theory as the topic. This Fixed Point Theory is predominantly separated
into the three following substantial theories:
·
Topological Fixed Point Theory
·
Metric Fixed Point Theory
·
Discrete Fixed Point Theory
Banach’s and Brouwer's fundamental Fixed Point theory led to
the development of two of the scientific main and complementary elements,
namely metrical Fixed Point theory and topological Fixed Point theory. The
first Fixed Point outcome for a topological space was offered by Dutch
mathematician Brouwer in 1912, which state that A continuous self-mapping
explained on the closed unit ball in Euclidean space has at least one fixed
point. Many authors have proved Fixed Point Theorems either by relaxing the
domain or by the function definedon it. Banach in 1922 proved a Fixed Point
Theory for contraction mapping, which was defined in complete Metric Space. The
Banach theorem states that if it is a complete metric space and is a
contraction, then it has a unique fixed point. According to the Brouwer
theorem, there must be the closed unit ball in a Euclidean space. But in such a
case, the set of all Fixed Points is not compulsorily a one-point set. The
point is termed as Fixed Point if, on applying the transformation, the point
stands untransformed. There are numerous mathematical issues involving various
branches, which can be formulated into equivalent Fixed Point models. The major
differentiation between two significant arms that is Topological Fixed Point
Theory and Metric Space Set-Point Theory, of Fixed Point Theory is explained by
Banach theorem and Brouwer theorem. Due to the wide variety of uses, the Fixed
Point Theorems are avidly studied across a multitude of disciplines in the
mathematical world. Due to the simplicity and usefulness of Banach's Fixed
Point Theorem it came out as a contemporary instrument for the proof of
existence and uniqueness of thrs in various boughs of mathematical analysis. In
1968, a contractive condition was introduced by Kannan that hold a unique
fixed-point like Banach. However, unlike the Banach situation, a domain wise
discontinuity of mappings with fixed points was proved by Kannan. Also, these mappings
show a continuous nature at their Fixed Point.
The focus of chapter 2 is to find a fixed point that is
common for a rationally contractive pair of mappings in the setting of a
complete Complex Valued Metric Space. The result is the generalization of a
variety of established theories. C´iri´c -Reich–Rus contraction mapping is
described in complex valued Quasi Partial b Metric Space and presented Fixed
Point theorem. in the context of complex valued quasi-partial b-metric space in
chapter 3. In this study distinct explanation, definitions in addition to
notations are used in the discussion of different subsequent. Cyclic
C´iri´c-Reich-Rus contraction mapping has been used to show the existence and
uniqueness of Common Fixed Point in the setting of complex valued Quasi Partial
b Metric Space. The result is supported with suitable examples in this chapter
4.
Author(s) Details:
Arti Saxena,
School
of Engineering and Technology, Manav Rachna International Institute of Research
and Studies Faridabad, Haryana, India.
Poonam
Rani,
Department of Humanities and Applied Sciences,
Echelon Institute of Technology, Faridabad, Haryana, India.
Please see the link here: https://stm.bookpi.org/ACFPTDS/article/view/13166
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