Idempotent elements of WP G(2, 2) ∪ {σ id}

A generalized hypersubstitution of type τ = (2; 2) is a mapping σ which maps the binary operation symbols f and g to terms σ(f) and σ(g) which does not necessarily preserve arities. Any generalized hypersubstitution σ can be extended to a mapping σ on the set of all terms of type τ = (2; 2). A binar...

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Main Author:	Leeratanavalee S.
Format:	Journal
Published:	2017
Online Access:	https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=84856050289&origin=inward http://cmuir.cmu.ac.th/jspui/handle/6653943832/42940
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Institution:	Chiang Mai University

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spelling	th-cmuir.6653943832-429402017-09-28T06:44:03Z Idempotent elements of WP G(2, 2) ∪ {σ id} Leeratanavalee S. A generalized hypersubstitution of type τ = (2; 2) is a mapping σ which maps the binary operation symbols f and g to terms σ(f) and σ(g) which does not necessarily preserve arities. Any generalized hypersubstitution σ can be extended to a mapping σ on the set of all terms of type τ = (2; 2). A binary operation on H ypG (2; 2) the set of all generalized hypersubstitutions of type τ = (2; 2) can be defined by using this extension. The set HypG(2; 2) together with the identity hypersubstitution σ id which maps f to f(x 1 ; x 2 ) and maps g to g(x 1 ; x 2 ) forms a monoid. The concept of an idempotent element plays an important role in many branches of mathematics, for instance, in semigroup theory and semiring theory. In this paper we characterize the idempotent generalized hypersubstitutions of WP G (2, 2) ∪ {σ id } a submonoid of H ypG (2, 2). 2017-09-28T06:44:03Z 2017-09-28T06:44:03Z 2011-12-01 Journal 14505444 2-s2.0-84856050289 https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=84856050289&origin=inward http://cmuir.cmu.ac.th/jspui/handle/6653943832/42940
institution	Chiang Mai University
building	Chiang Mai University Library
country	Thailand
collection	CMU Intellectual Repository
description	A generalized hypersubstitution of type τ = (2; 2) is a mapping σ which maps the binary operation symbols f and g to terms σ(f) and σ(g) which does not necessarily preserve arities. Any generalized hypersubstitution σ can be extended to a mapping σ on the set of all terms of type τ = (2; 2). A binary operation on H ypG (2; 2) the set of all generalized hypersubstitutions of type τ = (2; 2) can be defined by using this extension. The set HypG(2; 2) together with the identity hypersubstitution σ id which maps f to f(x 1 ; x 2 ) and maps g to g(x 1 ; x 2 ) forms a monoid. The concept of an idempotent element plays an important role in many branches of mathematics, for instance, in semigroup theory and semiring theory. In this paper we characterize the idempotent generalized hypersubstitutions of WP G (2, 2) ∪ {σ id } a submonoid of H ypG (2, 2).
format	Journal
author	Leeratanavalee S.
spellingShingle	Leeratanavalee S. Idempotent elements of WP G(2, 2) ∪ {σ id}
author_facet	Leeratanavalee S.
author_sort	Leeratanavalee S.
title	Idempotent elements of WP G(2, 2) ∪ {σ id}
title_short	Idempotent elements of WP G(2, 2) ∪ {σ id}
title_full	Idempotent elements of WP G(2, 2) ∪ {σ id}
title_fullStr	Idempotent elements of WP G(2, 2) ∪ {σ id}
title_full_unstemmed	Idempotent elements of WP G(2, 2) ∪ {σ id}
title_sort	idempotent elements of wp g(2, 2) ∪ {σ id}
publishDate	2017
url	https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=84856050289&origin=inward http://cmuir.cmu.ac.th/jspui/handle/6653943832/42940
_version_	1681422284591464448

Idempotent elements of WP G(2, 2) ∪ {σ id}

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