Agent-Based Semantic Role Mining for Intelligent Access Control in Multi-Domain Collaborative Applications of Smart Cities

Significance and popularity of Role-Based Access Control (RBAC) is inevitable; however, its application is highly challenging in multi-domain collaborative smart city environments. The reason is its limitations in adapting the dynamically changing information of users, tasks, access policies and res...

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Published inSensors (Basel, Switzerland) Vol. 21; no. 13; p. 4253
Main Authors Ghazal, Rubina, Malik, Ahmad, Raza, Basit, Qadeer, Nauman, Qamar, Nafees, Bhatia, Sajal
Format Journal Article
LanguageEnglish
Published Basel MDPI AG 22.06.2021
MDPI
Subjects
Access control
Automation
Collaboration
Comparative analysis
Distributed processing
dynamic environments
intelligent RBAC
multi-domain collaboration
Ontology
Security management
semantic role mining
Semantics
Smart cities
smart city applications
Software
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Abstract Significance and popularity of Role-Based Access Control (RBAC) is inevitable; however, its application is highly challenging in multi-domain collaborative smart city environments. The reason is its limitations in adapting the dynamically changing information of users, tasks, access policies and resources in such applications. It also does not incorporate semantically meaningful business roles, which could have a diverse impact upon access decisions in such multi-domain collaborative business environments. We propose an Intelligent Role-based Access Control (I-RBAC) model that uses intelligent software agents for achieving intelligent access control in such highly dynamic multi-domain environments. The novelty of this model lies in using a core I-RBAC ontology that is developed using real-world semantic business roles as occupational roles provided by Standard Occupational Classification (SOC), USA. It contains around 1400 business roles, from nearly all domains, along with their detailed task descriptions as well as hierarchical relationships among them. The semantic role mining process is performed through intelligent agents that use word embedding and a bidirectional LSTM deep neural network for automated population of organizational ontology from its unstructured text policy and, subsequently, matching this ontology with core I-RBAC ontology to extract unified business roles. The experimentation was performed on a large number of collaboration case scenarios of five multi-domain organizations and promising results were obtained regarding the accuracy of automatically derived RDF triples (Subject, Predicate, Object) from organizational text policies as well as the accuracy of extracted semantically meaningful roles.
AbstractList Significance and popularity of Role-Based Access Control (RBAC) is inevitable; however, its application is highly challenging in multi-domain collaborative smart city environments. The reason is its limitations in adapting the dynamically changing information of users, tasks, access policies and resources in such applications. It also does not incorporate semantically meaningful business roles, which could have a diverse impact upon access decisions in such multi-domain collaborative business environments. We propose an Intelligent Role-based Access Control (I-RBAC) model that uses intelligent software agents for achieving intelligent access control in such highly dynamic multi-domain environments. The novelty of this model lies in using a core I-RBAC ontology that is developed using real-world semantic business roles as occupational roles provided by Standard Occupational Classification (SOC), USA. It contains around 1400 business roles, from nearly all domains, along with their detailed task descriptions as well as hierarchical relationships among them. The semantic role mining process is performed through intelligent agents that use word embedding and a bidirectional LSTM deep neural network for automated population of organizational ontology from its unstructured text policy and, subsequently, matching this ontology with core I-RBAC ontology to extract unified business roles. The experimentation was performed on a large number of collaboration case scenarios of five multi-domain organizations and promising results were obtained regarding the accuracy of automatically derived RDF triples (Subject, Predicate, Object) from organizational text policies as well as the accuracy of extracted semantically meaningful roles.
Significance and popularity of Role-Based Access Control (RBAC) is inevitable; however, its application is highly challenging in multi-domain collaborative smart city environments. The reason is its limitations in adapting the dynamically changing information of users, tasks, access policies and resources in such applications. It also does not incorporate semantically meaningful business roles, which could have a diverse impact upon access decisions in such multi-domain collaborative business environments. We propose an Intelligent Role-based Access Control (I-RBAC) model that uses intelligent software agents for achieving intelligent access control in such highly dynamic multi-domain environments. The novelty of this model lies in using a core I-RBAC ontology that is developed using real-world semantic business roles as occupational roles provided by Standard Occupational Classification (SOC), USA. It contains around 1400 business roles, from nearly all domains, along with their detailed task descriptions as well as hierarchical relationships among them. The semantic role mining process is performed through intelligent agents that use word embedding and a bidirectional LSTM deep neural network for automated population of organizational ontology from its unstructured text policy and, subsequently, matching this ontology with core I-RBAC ontology to extract unified business roles. The experimentation was performed on a large number of collaboration case scenarios of five multi-domain organizations and promising results were obtained regarding the accuracy of automatically derived RDF triples (Subject, Predicate, Object) from organizational text policies as well as the accuracy of extracted semantically meaningful roles.Significance and popularity of Role-Based Access Control (RBAC) is inevitable; however, its application is highly challenging in multi-domain collaborative smart city environments. The reason is its limitations in adapting the dynamically changing information of users, tasks, access policies and resources in such applications. It also does not incorporate semantically meaningful business roles, which could have a diverse impact upon access decisions in such multi-domain collaborative business environments. We propose an Intelligent Role-based Access Control (I-RBAC) model that uses intelligent software agents for achieving intelligent access control in such highly dynamic multi-domain environments. The novelty of this model lies in using a core I-RBAC ontology that is developed using real-world semantic business roles as occupational roles provided by Standard Occupational Classification (SOC), USA. It contains around 1400 business roles, from nearly all domains, along with their detailed task descriptions as well as hierarchical relationships among them. The semantic role mining process is performed through intelligent agents that use word embedding and a bidirectional LSTM deep neural network for automated population of organizational ontology from its unstructured text policy and, subsequently, matching this ontology with core I-RBAC ontology to extract unified business roles. The experimentation was performed on a large number of collaboration case scenarios of five multi-domain organizations and promising results were obtained regarding the accuracy of automatically derived RDF triples (Subject, Predicate, Object) from organizational text policies as well as the accuracy of extracted semantically meaningful roles.
Author Malik, Ahmad
Ghazal, Rubina
Bhatia, Sajal
Raza, Basit
Qamar, Nafees
Qadeer, Nauman
AuthorAffiliation 5 School of Computer Science and Engineering, Sacred Heart University, 3135 Easton Turnpike, Fairfield, CT 06825, USA; bhatias@sacredheart.edu
4 Department of Health Administration, Governors State University, Chicago’s Southland, University Park, IL 60484, USA; mqamar@govst.edu
3 Department of Computer Science, Federal Urdu University of Arts, Science &Technology, Islamabad 45570, Pakistan; nauman.qadeer@fuuast.edu.pk
1 Department of Computer Science, COMSATS University Islamabad (CUI), Islamabad 45550, Pakistan; rubinaghazal@uaar.edu.pk (R.G.); basit.raza@comsats.edu.pk (B.R.)
2 University Institute of Information Technology, PMAS Arid Agriculture University Rawalpindi, Rawalpindi 46300, Pakistan
AuthorAffiliation_xml – name: 1 Department of Computer Science, COMSATS University Islamabad (CUI), Islamabad 45550, Pakistan; rubinaghazal@uaar.edu.pk (R.G.); basit.raza@comsats.edu.pk (B.R.)
– name: 2 University Institute of Information Technology, PMAS Arid Agriculture University Rawalpindi, Rawalpindi 46300, Pakistan
– name: 3 Department of Computer Science, Federal Urdu University of Arts, Science &Technology, Islamabad 45570, Pakistan; nauman.qadeer@fuuast.edu.pk
– name: 5 School of Computer Science and Engineering, Sacred Heart University, 3135 Easton Turnpike, Fairfield, CT 06825, USA; bhatias@sacredheart.edu
– name: 4 Department of Health Administration, Governors State University, Chicago’s Southland, University Park, IL 60484, USA; mqamar@govst.edu
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Snippet Significance and popularity of Role-Based Access Control (RBAC) is inevitable; however, its application is highly challenging in multi-domain collaborative...
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StartPage 4253
SubjectTerms Access control
Automation
Collaboration
Comparative analysis
Distributed processing
dynamic environments
intelligent RBAC
multi-domain collaboration
Ontology
Security management
semantic role mining
Semantics
Smart cities
smart city applications
Software
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Title Agent-Based Semantic Role Mining for Intelligent Access Control in Multi-Domain Collaborative Applications of Smart Cities
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Volume 21
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