Browsing by Author "Kademi, Anas Maazu"

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    Article
    Citation - Scopus: 13
    An energy-aware application module for the fog-based internet of military things
    (Springer Nature, 2022) Bashir Yusuf Bichi; Saif ul Islam; Anas Maazu Kademi; Ishfaq Ahmad; Bichi, Bashir Yusuf; Islam, Saif ul; Kademi, Anas Maazu; Ahmad, Ishfaq
    Smart devices in various application areas are becoming increasingly prevalent for efficient handling of multiple critical activities. One such area of interest is high-security militarized environments. Due to military zones’ harsh and unpredictable nature monitoring devices deployed in such environments must operate without power interruption for extended time periods. Therefore it is essential to choose an appropriate application design for operating these “things” in the internet of things (IoT) environment such that energy can be conserved throughout the operating span of an application. This paper presents two application modules and analyzes their performance in terms of energy conservation considering a military-based IoT-Fog architecture. The two modules are: A sequential application module and a master-worker application module. Experimental results show that the master-worker module incurs lower energy consumption and communication overhead than the sequential application module. Significantly the master-worker module exhibits a lower delay in tuple execution by almost four milliseconds while also accounting for lower simulation time and higher network utilization. The module achieves significant savings in energy consumption making it more effective in handling smart devices. © 2024 Elsevier B.V. All rights reserved.
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    An information geometrical evaluation of Shannon information metrics on a discrete n-dimensional digital manifold
    (Elsevier Ltd, 2023) Ahmet Hasan Koltuksuz; Cagatay Yucel; Anas Maazu Kademi; Yucel, Cagatay; Maazu Kademi, Anas; Kademi, Anas Maazu; Koltuksuz, Ahmet
    The definition and nature of information have perplexed scientists due to its dual nature in measurements. The information is discrete and continuous when evaluated on a metric scale and the Laplace-Beltrami operator and Gauss-Bonnet Theorem can map one to another. On the other hand defining the information as a discrete entity on the surface area of an n-dimensional discrete digital manifold provides a unique way of calculating the entropy of a manifold. The software simulation shows that the surface area of the discrete n-dimensional digital manifold is an effectively computable function. Moreover it also provides the information-geometrical evaluation of Shannon information metrics. © 2023 Elsevier B.V. All rights reserved.
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    Article
    Citation - WoS: 2
    Citation - Scopus: 2
    Cyber-physical-social-information-thinking hyperspace: a manifold of cyberspatial entities
    (Emerald Publishing, 2023) Anas Maazu Kademi; Ahmet Hasan Koltuksuz; Kademi, Anas Maazu; Koltuksuz, Ahmet Hasan
    Purpose: This paper aims to establish a theoretic framework to provide a fundamental understanding of cyberspatial objects their existence and their identification scheme while providing a connection between cyber-enabled spaces and cyberspace. It develops an avenue to quantify general philosophical and theoretical questions precisely inherently spatial basis that produces an unprecedented space–time continuum in which cyber-enabled relations evolve. Design/methodology/approach: Multidisciplinary theoretical approaches are needed to describe complex systems which in this paper are integrated in a quest for the principles underlying the structural organization and dynamics of cyberspace. A theoretic framework is presented and the spatial conception of cyber-enabled physical social information and thinking spaces and entities existence are provided. Findings: With spatial objects and spatial properties cyberspace is inherently spatial. Its basic constructs are founded on its spatial qualities and producing radical space–time compression cyber-enabled spaces in which dynamic relations develop and thrive. The cyberspatial object operations are primarily built on foundations that depend on physical space and other spatial metaphors. Information space basically missing in the literature is an important part of cyberspace. Research limitations/implications: This work suggested a novel analytical approach to describing cyberspace from broader perspectives and fields. Due to the novelty and divergence of cyber concepts an interdisciplinary study and methodology are needed. Thus more research toward theoretical direction could help many of the practical implementations of concepts. Practical implications: The research is of particular significance in cyberspatial mechanics to describe the dynamics and behavior of cyber physical systems. For example object-based analysis functions like spatial query node pattern analysis cluster analysis spatial similarity analysis and location modeling. Originality/value: Complementing the existing literature and defining information space to the research sphere a theoretical framework providing a fundamental understanding of cyberspatial objects and the general cyberspace foundation has been proposed resulting in a formalized concept of existence interactions and applications and services with respect to philosophy science and technology respectively. © 2023 Elsevier B.V. All rights reserved.