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Zeitschrift für verallgemeinerte Lügentheorie und -anwendungen

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Volumen 18, Ausgabe 1 (2024)

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Algebraic Structures from Groups to Lie Superalgebras

Madan Mohan Shastri* and Anu Dey

Algebraic structures form the backbone of modern mathematics, providing a framework for understanding and analyzing mathematical objects and their relationships. From the foundational concepts of groups and rings to the more advanced structures like Lie superalgebras, algebraic structures play a crucial role in various branches of mathematics, physics, and beyond. This article takes a comprehensive journey through the landscape of algebraic structures, exploring their definitions, properties, and applications.

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Geometry and Algebraic Structures: A Unified Approach

Zorge Graze*

Geometry and algebra have long been considered distinct branches of mathematics, each with its own set of principles, methods, and applications. However, the intersection of these two fields has led to a deeper understanding of mathematical structures and their relationships. In this article, we explore the concept of a unified approach to geometry and algebraic structures, showcasing how insights from both disciplines can enrich our understanding and provide powerful tools for solving problems across various domains.

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Managing Data Bottlenecks: Strategies for Efficient Data Flow across Bandwidth, Storage and Processing

Yaping Zhang*

Algorithmically, DMI-ideal arrangements can be inferred by means of the Discriminant Part Investigation (DCA). In addition, DCA has two machine learning variants that are suitable for supervised learning applications—one in the kernel space and the other in the original space. CP unifies the conventional Information Bottleneck (IB) and Privacy Funnel (PF) and results in two constrained optimizers known as Generalized Information Bottleneck (GIB) and Generalized Privacy Funnel (GPF) by extending the concept of DMI to the utility gain and privacy loss. DCA can be further extended to a DUCA machine learning variant in supervised learning environments to achieve the best possible compromise between utility gain and privacy loss. Finally, a golden-section iterative method is developed specifically for the two constrained optimization problems in order to speed up convergence: GPF and GIB. Data bottleneck and security channel issues are critical challenges in data transmission and communication. Data bottleneck arises when the rate of data production or transfer exceeds the capacity of the communication channel or system. Security channel issues involve vulnerabilities that compromise the confidentiality, integrity, or availability of transmitted data. This article provides an overview of these challenges, their causes and implications. It discusses strategies for addressing data bottleneck, such as optimizing bandwidth, storage and processing capabilities. It also explores security measures, including authentication, encryption and intrusion detection, to mitigate security channel issues. A holistic approach integrating efficient data management and robust security practices is crucial for ensuring smooth and secure information flow. This paper investigates a Compressive Security (CP) philosophy for ideal tradeoff between utility increase and protection misfortune. CP addresses an aspect diminished subspace plan of ideally desensitized question that might be securely imparted to the general population. Based upon the data and assessment hypothesis, this paper proposes a "differential common data" (DMI) rule to defend the security insurance (PP).

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Tackling Data Bottlenecks and Security Channel Challenges: A Comprehensive Analysis and Overview

Yaping Zhang*

Based upon the data and assessment hypothesis, this paper proposes a "differential common data" (DMI) rule to defend the security insurance (PP). Algorithmically, DMI-ideal arrangements can be inferred by means of the Discriminant Part Investigation (DCA). In addition, DCA has two machine learning variants that are suitable for supervised learning applications—one in the kernel space and the other in the original space. CP unifies the conventional Information Bottleneck (IB) and Privacy Funnel (PF) and results in two constrained optimizers known as Generalized Information Bottleneck (GIB) and Generalized Privacy Funnel (GPF) by extending the concept of DMI to the utility gain and privacy loss. DCA can be further extended to a DUCA machine learning variant in supervised learning environments to achieve the best possible compromise between utility gain and privacy loss. Finally, a golden-section iterative method is developed specifically for the two constrained optimization problems in order to speed up convergence: GPF and GIB. Data bottleneck and security channel issues are critical challenges in data transmission and communication. Data bottleneck arises when the rate of data production or transfer exceeds the capacity of the communication channel or system. Security channel issues involve vulnerabilities that compromise the confidentiality, integrity, or availability of transmitted data. This article provides an overview of these challenges, their causes and implications. It discusses strategies for addressing data bottleneck, such as optimizing bandwidth, storage and processing capabilities. It also explores security measures, including authentication, encryption and intrusion detection, to mitigate security channel issues. A holistic approach integrating efficient data management and robust security practices is crucial for ensuring smooth and secure information flow. This paper investigates a Compressive Security (CP) philosophy for ideal tradeoff between utility increase and protection misfortune. CP addresses an aspect diminished subspace plan of ideally desensitized question that might be securely imparted to the general population.

Forschungsartikel

Nonlinear Parabolic Equations Involving Measure Data in Musielak-Orlicz-Sobolev Spaces

M. L. Ahmed Oubeid*, A. Benkirane1 and M. Sidi El Vally

We prove the existence of solutions of nonlinear parabolic problems with measure data in Musielak-Orlicz-Sobolev spaces.

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