Information about International Journal of Mathematics and Statistics Invention (IJMSI)

Published on February 20, 2014

Author: inventionjournals

Source: slideshare.net

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.

On Intuitionistic Fuzzy Implicative Hyper Bck-Ideals of Hyper Bck-Algebras hyper order in H. In the sequel H denotes hyper BCK-algebras. Note that the condition (HK3) is equivalently to the condition : (p1) x y {x} , for all x, y H . In any hyper BCK-algebra H the following hold: (P2) 0 0 {0} (P3) 0 x , (P4) x x , (P5) A B A B , (P6) 0 x {0} , (P7) x 0 {x}, (P8) 0 A {0} , (P9) x x 0 , for all x ,y ,z H for any non empty A ,B o f H . Let I be a non-empty subset of hyper BCK-algebra H and 0 I . Then I is called a hyper BCK-sub algebra of H, if x y I, for all x, y I , weak hyper BCK-ideal of H if x y I and y I x I, x ,y H , a hyper BCK-ideal of H, if x y I and y I x I, x ,y H , a strong hyper BCK-ideal of H, if x y I φ and y I x I, x ,y H , I is said to be reflexive if x x I x H , S-reflexive if (x y ) I φ x y I, x ,y H , closed, if x y and y I. x I, x ,y H It is easy to see that every S-reflexive sub-set of H is reflexive. A hyper BCK-algebra H is called a positive implicative hyper BCK-algebra, if for all x ,y ,z H , (x y ) z (x z ) (y z ) Let I be a non-empty sub-set of H and 0 I . Then I is said to be a weak implicative hyper BCK-ideal of H if (x z ) (y x ) I and z I x I an implicative hyper BCK-ideal of H, if (x z ) (y x ) I and z I x I for all x ,y ,z X . A fuzzy set in a set X is a function μ : X [0,1] ., and the complement of μ , denoted by μ , is the fuzzy set in X given by μ (x) 1 μ(x) , for all x X . Let µ and λ be the fuzzy sets of X. For s, t [0,1] the set U( μ A ; s) {x X/ μ A (x) s} is called upper s- level cut of μ and the set L( λ A ; t) {x X/ λ A (x) s} is called lower t-level cut of λ.. Let μ be a fuzzy subset of H and μ(0) μ(x) , for all x H . Then μ is called a (i). fuzzy weak implicative hyper BCK-ideal of H if μ(x) min{ (ii) fuzzy implicative hyper BCK-ideal of H, if μ(x) min{ μ(a), inf a (x z) (y x) sup μ(a), μ(z)} and μ(z)} a (x z) (y x) for all x, y, z H. Definition 2.2 [1, 2] As an important generalization of the notion of fuzzy sets in X, Atanassov [1, 2] introduced the concept of an intuitionistic fuzzy set (IFS for short) defined by “An intuitionist fuzzy set in a non-empty set X is an object having the from A {(x, μ A (x), λ A (x))/x X} where the function μ A :X [ 0 ,1 ] and λ A :X [ 0 ,1 ] denoted the degree of membership (namely μ A (x) ) and the degree of non membership (namely λ A (x)) of each element x X to the set A respectively and 0 μ A (x) λ A (x) 1 , x X . For the sake of simplicity, we use the symbol form A (X, μ A , λ A ) or A ( μ A , λ A ) ”. Definition 2.3 [4] An IFS A (μ A , λ A ) in H is called an intuitionistic fuzzy hyper BCK-ideal of H if it satisfies (k1) x y μ A (x ) μ A (y ) (k2) μ (k3) λ A A and λ A (x) λ A (y) , (a) , μ (y)} , (x) min{ inf μ A a x y (x) max{ sup λ A (b) , μ (y)} A A b x y for all x, y H . Definition 2.4 [4] An IFS A (μ A , λ A ) in H is called an intuitionistic fuzzy strong hyper BCK-ideal of H if it satisfies www.ijmsi.org 78 | P a g e

On Intuitionistic Fuzzy Implicative Hyper Bck-Ideals of Hyper Bck-Algebras μ (a) μ (x) min{ sup μ A (b) , μ (y)} and inf A A A a x x b x y (sh1) (sh2) λ sup c x x A (c) λ A (x) max{ inf λ A (d) , λ (y)} x ,y H . A d x y Definition 2.5 [4] An IFS A (μ A , λ A ) in H is called an intuitionistic fuzzy s-weak hyper BCK-ideal of H if it satisfies (y) and λ (0) λ (y) , for all x, y H . A A A (s2) for every x, y H there exists a ,b x y , μ (x) min{ μ (a), μ (y)} and A A A λ (x) max{ λ (b), λ (y)} . A A A (s1) μ A (0) μ Definition 2.6 [4] An IFS A (μ A , λ A ) in H is called an intuitionistic fuzzy weak hyper BCK-ideal of H if it satisfies μ (0) μ (x) min{ inf μ A (a) , μ (y)} and A λ A A (0) λ A A a x y (x) max{ sup λ A (b) , λ (y)} x ,y H . A b x y Definition 2.7 [4] An IFS A (μ A , λ A ) in H is said to satisfy the “sup-inf” property if for any sub-set T of H there exist x 0 , y 0 T such that μ A (x 0 ) sup μ xT A (x) and λ A (y 0 ) inf μ (y) . A y T Definition 2.8 [9] Let A ( μ A , λ A ) be an intuitionistic fuzzy sub-set of H and μ A (0) μ A (x) , λ A (0) λ A (y) for all x ,y H . Then A ( μ A , λ A ) is said to be an intuitionistic fuzzy positive implicative hyper BCK-ideal of (i) type 1, if for all t x z , μ λ (ii) A A λ A A (t) max{ λ sup c (x y) z A (c), sup λ d y z A (d)} . (t) min{ sup μ a (x y) z (t) max{ A (a), μ (b)} and inf A b y z λ (c), sup λ (d)} inf A A c (x y) z d y z type 3, if for all t x z , μ λ (iv) μ (a), inf μ (b)} and inf A A a (x y) z b y z type 2, if for all t x z , μ (iii) (t) min{ A A (t) min{ sup μ a (x y) z (t) max{ A (a), sup μ b y z A (b)} and λ (c), inf λ (d)} . inf A A c (x y) z d y z type 4, if for all t x z , μ λ A A (t) min{ (t) max{ μ (a), sup μ (b)} and inf A A a (x y) z b y z λ sup c (x y) z A (c), λ (d)} x ,y , z H inf A d y z Definition 2.9[9] Let A ( μ A , λ A ) be an intuitionistic fuzzy sub-set of H. Then A ( μ A , λ A ) is said to be an intuitionistic fuzzy positive implicative hyper BCK-ideal of www.ijmsi.org 79 | P a g e

On Intuitionistic Fuzzy Implicative Hyper Bck-Ideals of Hyper Bck-Algebras type 5, if there exists t x z such that (i) μ λ A (t) min{ μ (a), inf μ (b)} and inf A A a (x y) z b y z (t) max{ λ sup c (x y) z A (c), λ sup d y z A (d)} . type 6, if there exists t x z such that (ii) μ λ A A (t) min{ μ sup a (x y) z (t) max{ A (a), μ sup b y z A (b)} and λ (c), inf λ (d)} . inf A A c (x y) z d y z type 7, if there exists t x z such that (iii) μ λ A A (t) min{ μ (a), sup μ (b)} and inf A A a (x y) z b y z (t) max{ λ sup c (x y) z A (c), λ (d)} . inf A d y z (a), μ (b)} and inf A b y z type 8, if there exists t x z such that (iv) μ λ III. A A A (t) min{ μ sup a (x y) z (t) max{ A λ (c), sup λ (d)} . inf A A c (x y) z d y z INTUITIONISTIC FUZZY IMPLICATIVE HYPER BCK-IDEALS OF HYPER BCKALGEBRAS Definition 3.1 Let A ( μ A , λ A ) be an intuitionistic fuzzy set on H and μ A (0) μ A (x) , λ A (0) λ A (y) x ,y H . Then A ( μ A , λ A ) is called an (i) intuitionistic fuzzy weak implicative hyper BCK-ideal of H if μ λ A A (x) min{ (x) max{ μ (a), μ (z)} and inf A A a (x z) (y x) λ sup b (x z) (y x) A (b), λ A (z)} . (ii) intuitionistic fuzzy implicative hyper BCK-ideal of H, if μ λ A A (x) min{ μ sup a (x z) (y x) (x) max{ A (a), μ A (z)} and λ (b), λ (z)} for all x, y, z H. inf A A b (x z) (y x) Theorem 3.2 Every intuitionistic fuzzy implicative hyper BCK-ideal of H is an intuitionistic fuzzy weak implicative hyper BCK-ideal. Proof: Suppose A ( μ A , λ A ) is an intuitionistic fuzzy implicative hyper BCK-ideal of H and for x, y, z H. we have (a) sup μ (a) and A A a (x z) (y x) a (x z) (y x) inf μ (b) sup λ (b) . A A b (x z) (y x) b (x z) (y x) inf λ www.ijmsi.org 80 | P a g e

On Intuitionistic Fuzzy Implicative Hyper Bck-Ideals of Hyper Bck-Algebras Therefore μ λ A A (x) min{ μ sup a (x z) (y x) (x) max{ A (a), μ A (z)} min{ μ (a), μ (z)} and inf A A a (x z) (y x) λ (b), λ (z)} max{ λ (b), λ (z)} . sup inf A A A A b (x z) (y x) b (x z) (y x) Thus A ( μ A , λ A ) is an intuitionistic fuzzy weak implicative hyper BCK-ideal of H. Example 3.3 Let H {0, a, b} . Consider the following cayley table º 0 a b 0 {0} {0} {0} a {a} {0, a} {0, a} b {b} {a} {0, a} Then (H, ) is a hyper BCK-algebra [5]. Define an IFS A (μ A , λ A ) on H by μ A (0) 1 , μ A (a) 0, μ A (b) 0.6 and λ A (0) 0 , λ A (a) 1, and λ A (b) 0.4 . Then A (μ A , λ A ) is an intuitionistic fuzzy weak implicative hyper BCK-ideal of H but it is not an intuitionistic fuzzy implicative hyper BCK-ideal of H, because μ (a) 0 1 μ (0) min{ μ (t), μ (0)} and sup A λ A A (a) 1 0 λ A t (a 0) (a a) (0) max{ A A λ (t), λ (0)} . inf A A t (a 0) (a a) Theorem 3.4 (1). Every intuitionistic fuzzy implicative hyper BCK-ideal of H is an intuitionistic fuzzy strong hyper BCK-ideal. (2). Every intuitionistic fuzzy weak implicative hyper BCK-ideal of H is an intuitionistic fuzzy weak hyper BCK-ideal. Proof: (i) Let A (μ A , λ A ) be an intuitionistic fuzzy implicative hyper BCK-ideal of H. By putting y 0 and z y in Definition 3.1(ii), we get μ λ A A (x) min{ μ (a), μ λ (b), inf A b (x y) (0 x) λ sup A a (x y) (0 x) (x) max{ A A (y)} min{ sup μ A (a) , μ (y)} and A a x y (y)} max{ (b) , λ (y)} ….. (i). A A b x y λ inf (x) μ (y) and λ (x) λ (y) A A A A For this, let x, y H be such that x y , then 0 x y and so from (i), we get First we show that, for x, y H , if x y implies μ μ λ A A (x) min{ (a), μ λ (b), inf A b x y λ sup μ a x y (x) max{ A A A (y)} min{ (y)} max{ μ A λ (0) , μ A A (0) , λ (y)} μ A A (y)} λ (y) and A (y) …..(ii). L e t x H and a x x . Since x x x then a x for all a x x and so by (ii), we have μ A (a) μ Hence A (x) and λ A (a) λ A (x) for all a x x . μ (a) μ (x) and λ (a) λ (x).....(i ii) . sup inf A A A A a x x a x x Combining (i) and (iii), we get www.ijmsi.org 81 | P a g e

On Intuitionistic Fuzzy Implicative Hyper Bck-Ideals of Hyper Bck-Algebras μ (a) μ (x) min{ sup μ A (b) , μ (y)} and inf A A A a x x b x y λ sup c x x A (c) λ (d) , λ (y)} for all x, y H. A A d x y (x) max{ A λ inf Thus A (μ A , λ A ) is an intuitionistic fuzzy strong hyper BCK-ideal of H. (ii) Let A (μ A , λ A ) be an intuitionistic fuzzy weak implicative hyper BCK-ideal of H. By putting y 0 and z y in Definition 3.1(i), we get μ λ A A (x) min{ μ (a), inf A a (x y) (0 x) (x) max{ λ sup b (x y) (0 x) Therefore, μ λ A A (0) μ (0) λ A A A μ A λ (b), A (y)} min{ inf μ A (a) , μ (y)} and A a x y (y)} max{ λ (b) , λ (y)} . A A b x y sup (x) min{ inf μ A (a) , μ (y)} and A a x y (x) max{ (b) , λ (y)} for all x, y H. A A b x y λ sup Thus A (μ A , λ A ) is an intuitionistic fuzzy weak implicative hyper BCK-ideal of H. Example 3.5 Let H {0, a, b, c} . Consider the following cayley table: 0 a b c 0 {0} {0} {0} {0} a {a} {0} {0} {0} b {b} {b} {0} {0} c {c} {c} {b, c} {0, b, c} Then (H, ) is a hyper BCK-algebra [5]. Define IFS A (μ A , λ A ) in H by μ A (0) μ A (a) 1, μ A (b) μ A (c) 0.4 and λ A ( 0 ) λ A ( a ) 0 , λ A ( b ) λ A ( c ) 0 .5 . Then A (μ A , λ A ) is an intuitionistic fuzzy strong hyper BCK-ideal (and so is an intuitionistic fuzzy weak hyper BCK-ideal) but it is not an intuitionistic fuzzy implicative (and so is not an intuitionistic fuzzy weak implicative) hyper BCK-ideal of H. Because μ (b) 0.4 1 μ (0) min{ μ (t), μ (0)} and inf A λ A A (b ) 0 .5 0 λ A A t (b 0) (c b) (0 ) m a x { sup t (b 0 ) (c b ) λ A (t), λ A A (0 )} This implies that the converse of the Theorem 3.4 is not correct in general. Theorem 3.6 Let A (μ A , λ A ) be an intuitionistic fuzzy sub-set of H, then the following statements hold: (i). A is an intuitionistic fuzzy weak implicative hyper BCK-ideal of H if and only if for all s ,t [0 ,1 ], U ( μ A ;s ) L ( λ A ;t) are weak implicative hyper BCK- ideals of H. www.ijmsi.org 82 | P a g e

On Intuitionistic Fuzzy Implicative Hyper Bck-Ideals of Hyper Bck-Algebras (ii). if A is an intuitionistic fuzzy implicative hyper BCK-ideal of H, then for all s ,t [0 ,1 ], U ( μ A ;s ) L ( λ A ;t) are implicative hyper BCK- ideals of H. (iii). If for all s ,t [ 0 ,1 ] , U ( μ A ;s ) L ( λ A ;t) are S-reflexive implicative hyper BCK- ideals of H, and A satisfies the “sup-inf” property, then A is an intuitionistic fuzzy implicative hyper BCK-ideal of H. Proof: (i) Assume A (μ A , λ A ) is an intuitionistic fuzzy weak implicative hyper BCK-ideal of H. Let s, t [0,1] and x, y, z X be such that (x z) (y x) U( μ A ; s) and z U( μ A ; s) . Then a U( μ A ; s) for all a (x z) (y x) implies μ A (a) s, for all a (x z) (y x) and μ A (z) s , implies that (a) s and μ A (z) s . Thus by hypothesis, A a (x z) (y x) inf μ in f μ A (a ) μ A (x ) m in a (x z ) (y x ) μ A (z ) m in { s ,s } s . Imply x U( μ A ; s) . Let x, y, z X be such that (x z) (y x) L( λ A ; t) and z L( λ A ; t) . Then b L( λ A ; t), for all b (x z) (y x) . Implies λ A (c) t , for all c (x z) (y x) and λ A (z) t, implies that λ A sup λ (b) A b (x z) (y x) (x) max{ t and λ A (z) t . Thus by hypothesis, λ sup b (x z) (y x) A (b), λ A (z)} max{t, t} t x L (λ A ;t) . Therefore U( μ A ; s) and L( λ A ; t) are weak implicative hyper BCK-ideals of H, for all s, t [0,1] . Conversely let for all s, t 0,1 , U( μ A ; t) φ L( λ A ; s) are weak implicative hyper BCK-ideals of H and inf μ let x, y, z H and put s min A (a) , μ A a (x z) ( y x ) μ A (z) s . So that μ A (z) inf μ A (a) s and . Then a (x z) (y x) (a) s for all a (x z) (y x) and μ A (z) s . Hence a U( μ A ; s) for all a (x z) (y x) and z U( μ A ; s) . That is, (x z) (y x) U( μ A ; s) , z U( μ A ; s) and so by hypothesis , in f μ A (a ) x U( μ A ; s) m in a (x z ) (y x ) in f μ A (a ) μ A (z ) . , Thus μ A (x ) s m in a (x z ) (y x ) Let x ,y ,z H and put t max{ μ A (z ) . λ sup b (x z) (y x) A (b), λ A (z)} t sup λ A (b ) b (x z ) (y x ) and λ A (z) t so that λ A (b) t for all b (x z) (y x) and λ A (z) t implies b L( λ A ; t) for all b (x z) (y x) and z L( λ A ; t) . Hence (x z) (y x) L( λ A ; t) and z L( λ A ; t) . By hypothesis x L( λ A ; t) . Thus λ A (x) t max{ sup b (x z) (y x) λ A (b), λ A (z)} . Therefore A (μ A , λ A ) is an intuitionistic fuzzy weak implicative hyper BCK-ideal of H. (ii) Suppose A (μ A , λ A ) is an intuitionistic fuzzy implicative hyper BCK-ideal of H. By Theorem 3.4(i), A (μ A , λ A ) is an intuitionistic fuzzy strong hyper BCK-ideal of H and so it is an intuitionistic fuzzy hyper BCK-ideal of H by Theorem 3.17 [4], for all s, t [0,1] , U( μ A ; s) φ L( λ A ; t) are hyper BCK-ideals of H. By Theorem 4.6(ii) [5], it is enough to show that, let www.ijmsi.org 83 | P a g e

On Intuitionistic Fuzzy Implicative Hyper Bck-Ideals of Hyper Bck-Algebras if x ( y x ) U( μ A ; s) and x (y x) L( λ A ; t) , then x U( μ A ; s) L( λ A ; t) . x, y, z H and For this, let x ( y x ) U( μ A ; s) for x, y H. Then for all a x ( y x) there exists b U( μ A ; s) such that a b , we have μ A (a) μ A (b) s implies μ A (a) s for all a x ( y x) implies sup μ A (a) s. a x (y x) Hence by hypothesis, μ A (x) min{ μ sup a (x 0) (y x) A μ (a), A (0)} sup μ A (a) s a x (y x) That is x U( μ A ; s) . Let x (y x) L( λ A ; t) for x, y H. Then for all c x ( y x) there exists d L( λ A ; t) such that c d . We have λ A (c) λ A (d) t implies λ A (c) t for all c x ( y x) implies inf λ A (c) c x (y x) λ A t . Hence by hypothesis, (x) max{ λ (a), inf A c (x 0) (y x) λ A (0)} inf λ A (c) t . c x (y x) That is, x L( λ A ; t) . Thus U( μ A ; s) and L( λ A ; t) are implicative hyper BCK-ideals of H, for all s, t 0,1 . (iii) Assume that, for all s, t 0,1 , U( μ A ; s) and L( λ A ; t) are S-reflexive implicative hyper BCK-ideal of H. Let x, y, z H. Put s min{ μ sup a (x z) (y x) μ A (z) s , Since μ μ A (a 0 ) A sup μ A (a), μ A (z)} imply (a) s and A a (x z) (y x) sup μ satisfies the “sup” property, then there exists a 0 (x z) (y x) such that A (a) a (x z) ( y x ) ((x (y x)) z) U( μ A s and so a 0 U( μ A ; s) , hence by (HK2), we have ; s) ((x z) (y x)) U( μ a (x (y x)) such that (a z) U( μ A A ; s) φ , then there exists ; s) φ . Since by Theorem 4.6(i)[5], U( μ A ; s) is a hyper BCK-ideal of H and hypothesis U( μ A ; s) is S-reflexive, then it is reflexive hyper BCK-ideal of H, by Theorem 2.3(i) [5] and so it is strong hyper BCK-ideal of H. Since μ A ( z ) s z U( μ A ; s) , (a z) U( μ A ; s) φ and z U( μ A ; s) , then a U( μ A ; s) and so ( x ( y x ) ) U ( μ A ;s ) φ . Since U( μ A ; s) is reflexive, by Theorem 3.5(ii)[5], x (y x) U( μ A ; s) , U( μ A ; s) is an implicative hyper BCK-ideal of H then x U( μ A ; s) and so μ A (x) s min{ sup μ a (x z) (y x) A (a), μ A (z)} . Since L( λ A ; t) is S-reflexive implicative hyper BCK-ideal of H and x, y, z H. Put t max{ inf λ (a) t and λ A (z) t λ (a), λ (z)} implies inf A A A a (x z) (y x) a (x z) (y x) Since λ A satisfies the “inf” property, then there exist b 0 (x z) (y x) such that λ A (b 0 ) inf λ A (a) a (x z) (y x) t and so b 0 L( λ A ; t) , hence by (HK2), we have (x (y x)) z) L( λ A ; t) ((x z) (y x)) L( λ A ; t) φ , then there exist b (x (y x)) such that (b z) L( λ A ; t) φ . Since by the theorem 4.6(i)[5], L( λ A ; t) is a hyper BCK-ideal of H and hypothesis L( λ A ; t) is S-reflexive, then it is reflexive hyper BCK-ideal of H, by Theorem 2.3(i) [5] and so it is www.ijmsi.org 84 | P a g e

On Intuitionistic Fuzzy Implicative Hyper Bck-Ideals of Hyper Bck-Algebras strong hyper BCK-ideal of H. Since λ A ( z ) t z L( λ A ; t) , (b z) L( λ A ; t) φ and z L( λ A ; t) then b L( λ A ; t) and so (x (y x)) L( λ A ; t) φ . L( λ A ; t) is reflexive, by Theorem 3.5(ii)[5] then x (y x) L( λ A ; t) , L( λ A ; t) is a implicative hyper BCK-ideal of H, by theorem 4.6(ii)[5], we have x L( λ A ; t) and so λ A (x) t max{ λ (a), λ (z)} inf A A a (x z) (y x) Therefore A (μ A , λ A ) is an intuitionistic fuzzy implicative hyper BCK-ideal of H. Theorem 3.7 Let A (μ A , λ A ) be an intuitionistic fuzzy set on H. (i). If A satisfies the “sup-inf” property and for all s, t [0,1] , U( μ A ; s) and L( λ A ; t) are reflexive and A is an intuitionistic fuzzy implicative hyper BCK-ideal of H, then A is an intuitionistic fuzzy positive implicative hyper BCK-ideal of type 3. (ii). Let H be a positive implicative hyper BCK-algebra. If A (μ A , λ A ) is an intuitionistic fuzzy weak implicative hyper BCK-ideal of H, then A is an intuitionistic fuzzy positive implicative hyper BCK-ideal of type 1 Theorem 3.8 Let A (μ A , λ A ) be an IFS on H. Then A is an intuitionistic fuzzy weak implicative hyper BCK-ideal if and only if the fuzzy sets μ A and λ A are fuzzy weak implicative hyper BCK-ideals of H. Theorem 3.9 Let A (μ A , λ A ) be an IFS on H. Then A is an intuitionistic fuzzy weak implicative hyper BCK-ideal if and only if the fuzzy sets A ( μ A , μ A ) and A ( λ A , λ A ) are intuitionistic fuzzy weak implicative hyper BCK-ideals of H. Proof: The proof follows from the Theorem 3.8 Theorem 3.10 Let A (μ A , λ A ) be an IFS on H. Then A is an intuitionistic fuzzy implicative hyper BCKideal if and only if the fuzzy sets μ A and λ A are fuzzy implicative hyper BCK-ideals. Theorem 3.11 Let A (μ A , λ A ) be an IFS on H. Then A is an intuitionistic fuzzy implicative hyper BCKideal if and only if the A ( μ A , μ A ) and A ( λ A , λ A ) are fuzzy implicative hyper BCK-ideals. REFERENCES: [1] [2] [3] [4] [5] [6] [7] [8] [9] [10] [11] Atanassov, K.T, Intuitionistic fuzzy sets, Fuzzy Sets and Systems, 20(1) (1983), 87- 96. Atanassov, K.T, New operations defined over the intuitionistic fuzzy Sets, Fuzzy Sets and Systems, 61(2)(1994), 137-142. Atanassov. K.T, Intuitionistic fuzzy systems, Springer Physica-Verlag, Berlin, 1999 Borzooei, R.A and Jun, Y.B, Intuitionistic fuzzy hyper BCK-ideals of hyper BCK-algebras, Iranian journals of fuzzy systems, 1(1), 2004, 65-78. Bakhshi, M., Zahedi and Borzooei, R.A, Fuzzy (Positive, Weak) hyper BCK-ideals, Iranian journals of fuzzy ystems, 1(2), 2004, 63-79. Borzooei, R.A and Bakshi, Some results on hyper BCK-algebras, Quasigroups and related systems, 11(2004), 9-24. Jun, Y.B, Zahedi, M.M, Xin, L and Borzooei, R.A, On hyper BCK-algebras, Italian J. of Pure and Appl. Math., 8 (2000) 127-136. Marty, F., Sur une generalization de la notion de groupe, 8th Congress Math. Scandinavas, Stockholm (1934) 45-49. Durga Prasad. R, Satyanarayana. B, and Ramesh. D, On intuitionistic fuzzy positive implicative hyper BCK- ideals of BCKalgebras, International J. of Math. Sci. & Engg. Appls, 6 (2012), 175-196. Jun, Y.B, and Xin, X. L, Implicative hyper BCK-ideals in hyper BCK-algebras, Mathematicae Japanicae, 52, (3) (2000), 435-443. Zadeh, L.A., Fuzzy sets, Information Control, 8(1965), 338-353. www.ijmsi.org 85 | P a g e

International Journal of Mathematics and Statistics Invention (IJMSI) is an international journal intended for professionals and researchers in all fields ...

Read more

International Journal of Mathematics and Statistics Invention (IJMSI) is an international journal intended for professionals and researchers in all fields ...

Read more

International Journal of Mathematics and Statistics ...

Read more

International Journal of Mathematics and Statistics Invention (IJMSI) - Free download as PDF File (.pdf), Text File (.txt) or read online for free.

Read more

International Journal of Mathematics and Statistics Invention (IJMSI) E-ISSN: 2321 – 4767 || P-ISSN: 2321 - 4759 www.ijmsi.org || Volume 2 || Issue 2 ...

Read more

International Journal of Mathematics and Statistics Invention (IJMSI) E-ISSN: 2321 – 4767 P-ISSN: 2321 - 4759 www.ijmsi.org Volume 4 Issue 6 || August ...

Read more

International Journal of Mathematics and Statistics Invention (IJMSI) is an international journal intended for professionals and researchers in all fields ...

Read more

Read more

International Journal of Mathematics and Statistics Invention (IJMSI) E-ISSN: 2321 – 4767 P-ISSN: 2321 - 4759 www.ijmsi.org Volume 2 Issue 7 || July ...

Read more

Read more

## Add a comment