A Fixed Point Theorem Using Common Property (E. A.) In PM Spacesinventionjournals
International Journal of Mathematics and Statistics Invention (IJMSI) is an international journal intended for professionals and researchers in all fields of computer science and electronics. IJMSI publishes research articles and reviews within the whole field Mathematics and Statistics, new teaching methods, assessment, validation and the impact of new technologies and it will continue to provide information on the latest trends and developments in this ever-expanding subject. The publications of papers are selected through double peer reviewed to ensure originality, relevance, and readability. The articles published in our journal can be accessed online.
IJERA (International journal of Engineering Research and Applications) is International online, ... peer reviewed journal. For more detail or submit your article, please visit www.ijera.com
Fixed Point Theorem in Fuzzy Metric Space Using (CLRg) Propertyinventionjournals
The object of this paper is to establish a common fixed point theorem for semi-compatible pair of self maps by using CLRg Property in fuzzy metric space.
8 fixed point theorem in complete fuzzy metric space 8 megha shrivastavaBIOLOGICAL FORUM
ABSTRACT: In this paper our works establish a new fixed point theorem for a different type of mapping in complete fuzzy metric space. Here we define a mapping by using some proved results and obtain a result on the actuality of fixed points. We inspired by the concept of Hossein Piri and Poom Kumam [15]. They introduced the fixed point theorem for generalized F-suzuki -contraction mappings in complete b-metric space. Next Robert plebaniak [16] express his idea by result “New generalized fuzzy metric space and fixed point theorem in fuzzy metric space”. This paper also induces comparing of the outcome with existing result in the literature.
Keywords: Fuzzy set, Fuzzy metric space, Cauchy sequence Non- decreasing sequence, Fixed point, Mapping.
A Fixed Point Theorem Using Common Property (E. A.) In PM Spacesinventionjournals
International Journal of Mathematics and Statistics Invention (IJMSI) is an international journal intended for professionals and researchers in all fields of computer science and electronics. IJMSI publishes research articles and reviews within the whole field Mathematics and Statistics, new teaching methods, assessment, validation and the impact of new technologies and it will continue to provide information on the latest trends and developments in this ever-expanding subject. The publications of papers are selected through double peer reviewed to ensure originality, relevance, and readability. The articles published in our journal can be accessed online.
IJERA (International journal of Engineering Research and Applications) is International online, ... peer reviewed journal. For more detail or submit your article, please visit www.ijera.com
Fixed Point Theorem in Fuzzy Metric Space Using (CLRg) Propertyinventionjournals
The object of this paper is to establish a common fixed point theorem for semi-compatible pair of self maps by using CLRg Property in fuzzy metric space.
8 fixed point theorem in complete fuzzy metric space 8 megha shrivastavaBIOLOGICAL FORUM
ABSTRACT: In this paper our works establish a new fixed point theorem for a different type of mapping in complete fuzzy metric space. Here we define a mapping by using some proved results and obtain a result on the actuality of fixed points. We inspired by the concept of Hossein Piri and Poom Kumam [15]. They introduced the fixed point theorem for generalized F-suzuki -contraction mappings in complete b-metric space. Next Robert plebaniak [16] express his idea by result “New generalized fuzzy metric space and fixed point theorem in fuzzy metric space”. This paper also induces comparing of the outcome with existing result in the literature.
Keywords: Fuzzy set, Fuzzy metric space, Cauchy sequence Non- decreasing sequence, Fixed point, Mapping.
Research Inventy : International Journal of Engineering and Science is published by the group of young academic and industrial researchers with 12 Issues per year. It is an online as well as print version open access journal that provides rapid publication (monthly) of articles in all areas of the subject such as: civil, mechanical, chemical, electronic and computer engineering as well as production and information technology. The Journal welcomes the submission of manuscripts that meet the general criteria of significance and scientific excellence. Papers will be published by rapid process within 20 days after acceptance and peer review process takes only 7 days. All articles published in Research Inventy will be peer-reviewed.
In this paper we discussed about the pseudo integral for a measurable function based on a strict pseudo addition and pseudo multiplication. Further more we got several important properties of the pseudo integral of a measurable function based on a strict pseudo addition decomposable measure.
International Journal of Engineering Research and Applications (IJERA) is an open access online peer reviewed international journal that publishes research and review articles in the fields of Computer Science, Neural Networks, Electrical Engineering, Software Engineering, Information Technology, Mechanical Engineering, Chemical Engineering, Plastic Engineering, Food Technology, Textile Engineering, Nano Technology & science, Power Electronics, Electronics & Communication Engineering, Computational mathematics, Image processing, Civil Engineering, Structural Engineering, Environmental Engineering, VLSI Testing & Low Power VLSI Design etc.
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Research Inventy : International Journal of Engineering and Science is published by the group of young academic and industrial researchers with 12 Issues per year. It is an online as well as print version open access journal that provides rapid publication (monthly) of articles in all areas of the subject such as: civil, mechanical, chemical, electronic and computer engineering as well as production and information technology. The Journal welcomes the submission of manuscripts that meet the general criteria of significance and scientific excellence. Papers will be published by rapid process within 20 days after acceptance and peer review process takes only 7 days. All articles published in Research Inventy will be peer-reviewed.
In this paper we discussed about the pseudo integral for a measurable function based on a strict pseudo addition and pseudo multiplication. Further more we got several important properties of the pseudo integral of a measurable function based on a strict pseudo addition decomposable measure.
International Journal of Engineering Research and Applications (IJERA) is an open access online peer reviewed international journal that publishes research and review articles in the fields of Computer Science, Neural Networks, Electrical Engineering, Software Engineering, Information Technology, Mechanical Engineering, Chemical Engineering, Plastic Engineering, Food Technology, Textile Engineering, Nano Technology & science, Power Electronics, Electronics & Communication Engineering, Computational mathematics, Image processing, Civil Engineering, Structural Engineering, Environmental Engineering, VLSI Testing & Low Power VLSI Design etc.
Higher-order (F, α, β, ρ, d)-convexity is considered. A multiobjective programming problem (MP) is considered. Mond-Weir and Wolfe type duals are considered for multiobjective programming problem. Duality results are established for multiobjective programming problem under higher-order (F, α, β, ρ, d)- convexity assumptions. The results are also applied for multiobjective fractional programming problem.
A tiring but fruitful day visiting flood stricken Don Mueang neighborhoods distributing survival kits, food, water and medicine. A big thanks to all my friends who donated generously to the effort...you know who you are!
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(10/3/2011) –Are you ready to ratchet up the way you publicize your program, communicating the right offerings to the right people at the right time? Whether you’re trying to increase workshop attendance, sign more customers up for a newsletter or advertise a new set of educational materials, here’s your opportunity to learn how to craft the right promotions mix. In this session, discover new ways you can use news media outlets, social media channels and marketing materials to get the word out about your programs. You will learn best practices for publicizing your programs using Extension tools that will help you get the job done faster and more effectively.
Fixed Point Results In Fuzzy Menger Space With Common Property (E.A.)IJERA Editor
This paper presents some common fixed point theorems for weakly compatible mappings via an implicit relation in Fuzzy Menger spaces satisfying the common property (E.A)
Research Inventy : International Journal of Engineering and Science is published by the group of young academic and industrial researchers with 12 Issues per year. It is an online as well as print version open access journal that provides rapid publication (monthly) of articles in all areas of the subject such as: civil, mechanical, chemical, electronic and computer engineering as well as production and information technology. The Journal welcomes the submission of manuscripts that meet the general criteria of significance and scientific excellence. Papers will be published by rapid process within 20 days after acceptance and peer review process takes only 7 days. All articles published in Research Inventy will be peer-reviewed.
Research Inventy : International Journal of Engineering and Science is published by the group of young academic and industrial researchers with 12 Issues per year. It is an online as well as print version open access journal that provides rapid publication (monthly) of articles in all areas of the subject such as: civil, mechanical, chemical, electronic and computer engineering as well as production and information technology. The Journal welcomes the submission of manuscripts that meet the general criteria of significance and scientific excellence. Papers will be published by rapid process within 20 days after acceptance and peer review process takes only 7 days. All articles published in Research Inventy will be peer-reviewed.
Fixed points of contractive and Geraghty contraction mappings under the influ...IJERA Editor
In this paper, we prove the existence of fixed points of contractive and Geraghty contraction maps in complete metric spaces under the influence of altering distances. Our results extend and generalize some of the known results.
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Semicompatibility and fixed point theorem in fuzzy metric space using implici...eSAT Journals
Abstract In this paper we proved fixed point theorem of four mapping on fuzzy metric space based on the concept of semi copatibility using implicit relation. These results generalize several corresponding relations in fuzzy metric space. All the results of this paper are new. Keywords: fuzzy metric space, compatibility, semi compatibility, implicit relation. 2000 AMS Mathematics Subject Classification: 47H10, 54H25
International Journal of Mathematics and Statistics Invention (IJMSI) inventionjournals
International Journal of Mathematics and Statistics Invention (IJMSI) is an international journal intended for professionals and researchers in all fields of computer science and electronics. IJMSI publishes research articles and reviews within the whole field Mathematics and Statistics, new teaching methods, assessment, validation and the impact of new technologies and it will continue to provide information on the latest trends and developments in this ever-expanding subject. The publications of papers are selected through double peer reviewed to ensure originality, relevance, and readability. The articles published in our journal can be accessed online.
Common Fixed Point Theorems in Compatible Mappings of Type (P*) of Generalize...mathsjournal
In this paper, we give some new definition of Compatible mappings of type (P), type (P-1) and type (P-2) in intuitionistic generalized fuzzy metric spaces and prove Common fixed point theorems for six mappings
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Common Fixed Point Theorems For Occasionally Weakely Compatible Mappingsiosrjce
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Knowledge engineering: from people to machines and back
Common fixed point theorems of integral type in menger pm spaces
1. Network and Complex Systems www.iiste.org
ISSN 2224-610X (Paper) ISSN 2225-0603 (Online)
Vol.3, No.6, 2013
10
Common Fixed Point Theorems of Integral Type in Menger Pm
Spaces
*Dr. Kamal Wadhwa, **Dr. Ramakant Bhardwaj and *Jyoti Panthi
* Govt. Narmada Mahavidyalaya, Hoshangabad
** TRUBA Institute of engineering and Information technology, Bhopal
Abstract: In this paper, we propose integral type common fixed point theorems in Menger spaces satisfying
common property (E.A). Our results generalize several previously known results in Menger as well as metric spaces.
Keywords: Menger space; Common property (E.A); weakly compatible pair of mappings
and t-norm.
1. Introduction:
in 1942 Menger [21] initiated the study of probabilistic metric space (often abbreviated as PM space) and by now
the theory of probabilistic metric spaces has already made a considerable progress in several directions (see [32]).
The idea of Menger was to use distribution functions (instead of nonnegative real numbers) as values of a
probabilistic metric. This PM space can cover even those situations where in one can not exactly ascertain a distance
between two points, but can only know the possibility of a possible value for the distance (between a pair of points).
In 1986, Jungck [13] introduced the notion of compatible mappings and utilized the same to improve commutativity
conditions in common fixed point theorems. This concept has been frequently employed to prove existence
theorems on common fixed points. However, the study of common fixed points of non-compatible mappings was
initiated by Pant [32]. Recently, Aamri and Moutawakil [1] and Liu et al. [39] respectively defined the property
(E.A) and the common property (E.A) and proved interesting common fixed point theorems in metric spaces. Most
recently, Kubiaczyk and Sharma [15] adopted the property (E.A) in PM spaces and used it to prove results on
common fixed points. Recently, Imdad et al. [26] adopted the common property (E.A) in PM spaces and proved
some coincidence and common fixed point results in Menger spaces.
The theory of fixed points in PM spaces is a part of probabilistic analysis and continues to be an active area of
mathematical research. Thus far, several authors studied fixed point and common fixed point theorems in PM spaces
which include [5, 7, 8, 10, 16, 17, 18, 24, 26, 28, 30, 34, 31, 36, and 37] besides many more. In 2002, Branciari [3]
obtained a fixed point result for a mapping satisfying an integral analogue of Banach contraction principle. The
authors of the papers [2, 4, 6, 26, 11, and 29] proved a host of fixed point theorems involving relatively more
general integral type contractive conditions. In an interesting note, Suzuki [35] showed that Meir-Keeler
contractions of integral type are still Meir-Keeler contractions. The aim of this paper is to prove integral type fixed
point theorems in Menger PM spaces satisfying common property (E.A).
2 Preliminaries:
Definition 2.1 [7] A mapping F:ℜ→ℜ+
is called distribution function if it is non-decreasing, left continuous with
inf{F(t) : t∈ℜ} = 0 and sup{F(t) : t ∈ℜ} = 1.
Let L be the set of all distribution functions whereas H be the set of specific distribution functions (also known as
Heaviside function) defined by
H x
0, if x 0
1, if 0
Definition 2.2 [21] Let X be a nonempty set. An ordered pair (X, F) is called a PM space if F is a mapping from X ×
X into L satisfying the following conditions:
(i) Fp,q(x) = H(x) if and only if p = q,
(ii) Fp,q(x) = Fq,p(x),
(iii) Fp,q(x) = 1 and Fq,r(y) = 1, then Fp,r(x + y) = 1, for all p, q, r ∈ X and x, y ≥ 0.
Every metric space (X, d) can always be realized as a PM space by considering F : X × X → L defined by Fp,q(x) =
H(x − d(p, q)) for all p, q ∈ X. So PM spaces offer a wider framework (than that of the metric spaces) and are
general enough to cover even wider statistical situations.
Definition 2.3. [7] A mapping ∆ : [0, 1] × [0, 1] → [0, 1] is called a t-norm if
(i) ∆ (a, 1) = a, ∆ (0, 0) = 0,
(ii) ∆ (a, b) = ∆ (b, a),
(iii) ∆ (c, d) ≥∆ (a, b) for c ≥a, d ≥ b,
2. Network and Complex Systems www.iiste.org
ISSN 2224-610X (Paper) ISSN 2225-0603 (Online)
Vol.3, No.6, 2013
11
(iv) ∆ (∆ (a, b), c) = ∆ (a, ∆ (b, c)) for all a, b, c ∈ [0, 1].
Example 2.4. The following are the four basic t-norms:
(i) The minimum t-norm: TM(a, b) = min{a, b}.
(ii) The product t-norm: TP (a, b) = a.b.
(iii) The Lukasiewicz t-norm: TL(a, b) = max{a + b − 1, 0}.
(iv) The weakest t-norm, the drastic product:
TD(a, b) =
min a, b , if max , 1
0, otherwise
In respect of above mentioned t-norms, we have the following ordering:
TD < TL < TP < TM.
Definition 2.5. [21] A Menger PM space (X, F,∆) is a triplet where (X, F) is a PM space and ∆ is a t-norm satisfying
the following condition:
Fp,r(x + y) ≥∆(Fp,q(x), Fq,r(y)).
Definition 2.6. [28] A sequence {pn} in a Menger PM space (X, F,∆) is said to be convergent to a point p in X if for
every ∈ > 0 and λ > 0, there is an integer M(∈,λ) such that !, > 1-λ for all n ≥M(∈,λ).
Lemma 2.7. [7, 9] Let (X, F,∆) be a Menger space with a continuous t-norm ∆ with {xn}, {yn} ⊂ X such that {xn}
converges to x and {yn} converges to y. If Fx,y(.) is continuous at the point t0, then lim#→% &',('
t) F+,, t) .
Definition 2.8. Let (A, S) be a pair of maps from a Menger PM space (X,F, ∆) into itself. Then the pair of maps (A,
S) is said to be weakly commuting if F./+,/.+(t) ≥F.+,/+ 0 , for each x ∈ X and t > 0.
Definition 2.9. [34] A pair (A, S) of self mappings of a Menger PM space (X, F, ∆) is said to be compatible if
./ !,/. !
→ 1 for all x > 0, whenever {pn} is a sequence in X such that Apn, Spn → t, for some t in X as n → 1.
Clearly, a weakly commuting pair is compatible but every compatible pair need not be weakly commuting.
Definition 2.10. [19] A pair (A, S) of self mappings of a Menger PM space (X, F,∆) is said to be non-compatible if
and only if there exists at least one sequence {xn} in X such that
lim#→% Ax# lim#→% Sx3=t ∈ X for some t ∈ X
Implies that lim#→% ./+!,/.+!
0) (for some t0 > 0) is either less than 1 or non-existent.
Definition 2.11. [15] A pair (A, S) of self mappings of a Menger PM space (X, F,∆) is said to satisfy the property
(E.A) if there exists a sequence {xn} in X such that
lim#→% Ax# lim#→% Sx3= t ∈ X
Clearly, a pair of compatible mappings as well as noncompatible Mappings satisfies the property (E.A).
Inspired by Liu et al. [39], Imdad et al. [26] defined the following:
Definition 2.12. Two pairs (A, S) and (B, T) of self mappings of a Menger PM space (X,F, ∆) are said to satisfy the
common property (E.A) if there exist two sequences {xn}, {yn} in X and some t in X such that
lim#→% Ax# lim#→% Sx3 = lim#→% Ty# lim#→% By3= t
Definition 2.13. [12] A pair (A, S) of self mappings of a nonempty set X is said to be weakly compatible if the pair
commutes on the set of their coincidence points i.e. Ap = Sp (for some p ∈ X) implies ASp = SAp.
Definition2.14. [24] Two finite families of self mappings {Ai} and {Bj} are said to be pairwise commuting if:
(i) AiAj = AjAi, i, j ∈ {1, 2...m},
(ii) BiBj = BjBi, i, j ∈ {1, 2...n},
(iii) AiBj = BjAi, i ∈ {1, 2...m}, j ∈ {1, 2...n}.
3. Main Result
The following lemma is useful for the proof of succeeding theorems.
Lemma 3.1. Let (X,F, ∆) be a Menger space. If there exists some k ∈ (0, 1) such that for all p, q ∈ X and all x > 0,
7 φ 0 80
9:,; <+
)
= 7 φ 0 80
9:,; +
)
(3.1.1)
where φ : [0,∞) → [0,∞) is a summable non-negative Lebesgue integrable function such that
7 φ 0 80
>
?
0 for each t ∈ [0, 1), then p = q.
Remark 3.2. By setting φ 0 = 1 (for each t ≥0) in (3.1.1) of Lemma 3.1, we have
7 φ 0 80
9:,; <+
) ,@ A = ,@ 7 φ 0 80
9:,; +
)
,
which shows that Lemma 3.1 is a generalization of the Lemma 2 (contained in [8])
3. Network and Complex Systems www.iiste.org
ISSN 2224-610X (Paper) ISSN 2225-0603 (Online)
Vol.3, No.6, 2013
12
Lemma 3.3. Let A, B, S and T be four self mappings of a Menger space (X,F, ∆) which satisfy the following
conditions:
(i) the pair (A, S) (or (B, T)) satisfies the property (E.A),
(ii) B(yn) converges for every sequence {yn} in X whenever T(yn) converges,
(iii) for any p, q ∈ X and for all x > 0,
7 φ 0 80 =
9B:,C; <+
)
7 φ 0 80
DE3 9F:,G; + ,9F:,B: + ,9G;,C; + ,9F:,C; + ,9G;,B: + ,
HF:,G; I HG;,C; I
HF:,C; I
,
HF:,G; I HF:,B: I
HG;,B: I
)
(3.3.1)
where φ : [0,∞)→[0,∞) is a non-negative summable Lebesgue integrable function such that
7 φ 0 80
>
?
0 for each t ∈ [0, 1), where 0 < k < 1 and
(iv) A(X) ⊂ T(X) (or B(X) ⊂ S(X)).
Then the pairs (A, S) and (B, T) share the common property (E.A).
Proof. Suppose that the pair (A, S) enjoys the property (E.A), then there exists a sequence {xn} in X such that
JKL#→% M # JKL#→% N #= t, for some t ∈ X.
Since A(X) ⊂ T(X), for each xn there exists yn ∈ X such that Axn = Tyn, and hence
JKL#→% OP# JKL#→% M #= t
Thus in all, we have Axn → t, Sxn → t and Tyn→ t. Now we assert that Byn → t.
To accomplish this, using (3.3.1), with p = xn, q = yn, one gets
Q φ 0 80
9BI!,CR! <+
)
= Q φ 0 80
DE3 9FI!,GR! + ,9FI!,BI! + ,9GR!,CR! + ,9FI!,CR! + ,9GR!,BI! + ,
9FI!,GR! + 9GR!,CR! +
9FI!,CR! +
,
9FI!,GR! + 9FI!,BI! +
9GR!,BI! +
)
Let JKL#→%S P# . Also, let x > 0 be such that Ft,l(·) is continuous in x and kx. Then, on making n→∞ in the above
inequality, we obtain
Q φ 0 80 = Q φ 0 80
DE3 9T,T + ,9T,T + ,9T,U + ,9T,U + ,9T,T + ,
9T,T + 9T,U +
9T,U +
,
9T,T + 9T,T +
9T,T +
)
9T,U <+
)
or
Q φ 0 80 = Q φ 0 80
9T,U +
)
9T,U <+
)
This implies that l = t (in view of Lemma 3.1) which shows that the pairs (A, S) and (B, T) share the common
property (E.A).
Theorem 3.4. Let A, B, S and T be self mappings of a Menger space (X, F, ∆) which satisfy the inequality (3.3.1)
together with
(i) the pairs (A, S) and (B, T) share the common property (E.A),
(ii) S(X) and T(X) are closed subsets of X.
Then the pairs (A, S) and (B, T) have a point of coincidence each. Moreover, A, B, S and T have a unique common
fixed point provided both the pairs (A, S) and (B, T) are weakly compatible.
Proof. Since the pairs (A, S) and (B, T) share the common property (E.A), there exist two sequences {xn} and {yn}
in X such that
JKL#→% M # JKL#→% N # = JKL#→% OP# JKL#→% SP#= t, for some t ∈ X.
Since S(X) is a closed subset of X, hence JKL#→% N # 0 ∈ N V . Therefore, there exists a point u ∈ X such that Su
= t. Now, we assert that Au = Su. To prove this, on using (3.3.1) with p = u, q = yn, one gets
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Vol.3, No.6, 2013
13
Q φ 0 80
9BW,CR! <+
)
= Q φ 0 80
DE3 9FW,GR! + ,9FW,BW + ,9GR!,CR! + ,9FW,CR! + ,9GR!,BW + ,
9FW,GR! + 9GR!,CR! +
9FW,CR! +
,
9FW,GR! + 9FW,BW +
9GR!,BW +
)
which on making n→∞, reduces to
Q φ 0 80 = Q φ 0 80
DE3 9T,T + ,9T,BW + ,9T,T + ,9T,T + ,9T,BW + ,
9T,T + 9T,T +
9T,T +
,
9T,T + 9T,BW +
9T,BW +
)
9BW,T <+
)
or 7 φ 0 80 = 7 φ 0 80
9BW,T +
)
9BW,T <+
)
Now appealing to Lemma 3.1, we have Au = t and hence Au = Su. Therefore, u is a coincidence point of the pair (A,
S).
Since T(X) is a closed subset of X, therefore JKL#→% OP# 0 ∈ O V and hence one can find a point w ∈ X such
that Tw = t. Now we show that Bw = Tw. To accomplish this, on using (3.3.1) with p = xn, q = w, we have
Q φ 0 80
9BI!,CX <+
)
= Q φ 0 80
DE3 9FI!,GX + ,9FI!,BI! + ,9GX,CX + ,9FI!,CX + ,9GX,BI! + ,
9FI!,GX + 9GX,CX +
9FI!,CX +
,
9FI!,GX + 9FI!,BI! +
9GX,BI! +
)
which on making n→∞, reduces to
7 φ 0 80 = 7 φ 0 80
DE3 9T,T + ,9T,T + ,9T,CX + ,9T,CX + ,9T,T + ,
HT,T I HT,CX I
HT,CX I
,
HT,T I HT,T I
HT,T I
)
9T,CX <+
)
or
Q φ 0 80 = Q φ 0 80
9T,CX +
)
9T,CX <+
)
On employing Lemma 3.1, we have Bw = t and hence Tw = Bw. Therefore, w is a coincidence point of the pair (B,
T).
Since the pair (A, S) is weakly compatible and Au = Su, therefore At = ASu = SAu = St.
Again, on using (3.3.1) with p = t, q = w, we have
Q φ 0 80
9BT,CX <+
)
= Q φ 0 80
DE3 9FT,GX + ,9FT,BT + ,9GX,CX + ,9FT,CX + ,9GX,BT + ,
9FT,GX + 9GX,CX +
9FT,CX +
,
9FT,GX + 9FT,BT +
9GX,BT +
)
or
Q φ 0 80 = Q φ 0 80
DE3 9BT,T + ,9BT,BT + ,9T,T + ,9BT,T + ,9T,BT + ,
9BT,T + 9T,T +
9BT,T +
,
9BT,T + 9BT,BT +
9T,BT +
)
9BT,T <+
)
or
7 φ 0 80 = 7 φ 0 80
9BT,T +
)
9BT,T <+
)
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Vol.3, No.6, 2013
14
Appealing to Lemma 3.1, we have At = St = t which shows that t is a common fixed point of the pair (A, S).
Also the pair (B, T) is weakly compatible and Bw = Tw, hence
Bt = BTw = TBw = Tt.
Next, we show that t is a common fixed point of the pair (B, T). In order to accomplish this, using (3.3.1) with p = u,
q = t, we have
Q φ 0 80
9BW,CT <+
)
= Q φ 0 80
DE3 9FW,GT + ,9FW,BW + ,9GT,CT + ,9FW,CT + ,9GT,BW + ,
9FW,GT + 9GT,CT +
9FW,CT +
,
9FW,GT + 9FW,BW +
9GT,BW +
)
or
Q φ 0 80 = Q φ 0 80
DE3 9T,CT + ,9T,T + ,9CT,CT + ,9T,CT + ,9CT,T + ,
9T,CT + 9CT,CT +
9T,CT +
,
9T,CT + 9T,T +
9CT,T +
)
9T,CT <+
)
or
7 φ 0 80 = 7 φ 0 80
9T,CT +
)
9T,CT <+
)
Using Lemma 3.1, we have Bt = t which shows that t is a common fixed point of the pair (B, T). Hence t is a
common fixed point of both the pairs (A, S) and (B, T). Uniqueness of common fixed point is an easy consequence
of the inequality (3.3.1). This completes the proof.
Theorem 3.5. Let A,B, S and T be self mappings of a Menger space (X,F, ∆) satisfying the inequality (3.3.1).
Suppose that
(i) the pair (A, S) (or (B, T)) has property (E.A),
(ii) B(yn) converges for every sequence {yn} in X whenever T(yn) converges,
(iii) A(X) ⊂ T(X) (or B(X) ⊂ S(X)),
(iii) S(X) (or T(X)) is a closed subset of X.
Then the pairs (A, S) and (B, T) have a point of coincidence each. Moreover, A, B, S and T have a unique common
fixed point provided both the pairs (A, S) and (B, T) are weakly compatible.
Proof. In view of Lemma 3.3, the pairs (A, S) and (B, T) share the common property (E.A), i.e. there exists two
sequences {xn} and {yn} in X such that
JKL#→% M # JKL#→% N # = JKL#→% OP# JKL#→% SP#= t for some t ∈ X.
If S(X) is a closed subset of X, then proceeding on the lines of Theorem 3.5, one can show that the pair (A, S) has a
coincidence point, say u, i.e. Au = Su = t.
Since A(X) ⊂ T(X) and Au ∈ A(X), there exists w ∈ X such that Au = Tw. Now, we assert that Bw = Tw.
On using (3.3.1) with p = xn, q = w, one gets
Q φ 0 80
9BI!,CX <+
)
= Q φ 0 80
DE3 9FI!,GX + ,9FI!,BI! + ,9GX,CX + ,9FI!,CX + ,9GX,BI! + ,
9FI!,GX + 9GX,CX +
9FI!,CX +
,
9FI!,GX + 9FI!,BI! +
9GX,BI! +
)
which on making n→∞, reduces to
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Vol.3, No.6, 2013
15
Q φ 0 80 = Q φ 0 80
DE3 9T,T + ,9T,T + ,9T,CX + ,9T,CX + ,9T,T + ,
9T,T + 9T,CX +
9T,CX +
,
9T,T + 9T,T +
9T,T +
)
9T,CX <+
)
or
7 φ 0 80 = 7 φ 0 80
9T,CX +
)
9T,CX <+
)
Owing to Lemma 3.1, we have t = Bw and hence Tw = Bw which shows that w is a coincidence point of the pair (B,
T). Rest of the proof can be completed on the lines of the proof of Theorem 3.4. This completes the proof.
Corollary 3.6. Let A and S be self mappings on a Menger space (X,F, ∆). Suppose that
(i) the pair (A, S) enjoys the property (E.A),
(ii) for all p, q ∈ X and for all x > 0,
7 φ 0 80 =
9B:,B; <+
)
7 φ 0 80
DE3 9F:,F; + ,9F:,B: + ,9F;,B; + ,9F:,B; + ,9F;,B: + ,
HF:,F; I HF;,B; I
HF:,B; I
,
HF:,F; I HF:,B: I
HF;,B: I
)
, 0<k<1
(iii) S(X) is a closed subset of X.
Then A and S have a coincidence point. Moreover, if the pair (A, S) is weakly compatible, then A and S have a
unique common fixed point.
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