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2,058 results on '"Adil, M."'

1. A truncated {\epsilon}-subdifferential method for global DC optimization

Author

Bagirov, Adil M., Joki, Kaisa, Makela, Marko M., and Taheri, Sona

Subjects
Mathematics - Optimization and Control, 90C26, 90C59, 49J52, 65K05
Abstract

We consider the difference of convex (DC) optimization problem subject to box-constraints. Utilizing {\epsilon}-subdifferentials of DC components of the objective, we develop a new method for finding global solutions to this problem. The method combines a local search approach with a special procedure for escaping non-global solutions by identifying improved initial points for a local search. The method terminates when the solution cannot be improved further. The escaping procedure is designed using subsets of the {\epsilon}-subdifferentials of DC components. We compute the deviation between these subsets and determine {\epsilon}-subgradients providing this deviation. Using these specific {\epsilon}-subgradients, we formulate a subproblem with a convex objective function. The solution to this subproblem serves as a starting point for a local search. We study the convergence of the conceptual version of the proposed method and discuss its implementation. A large number of academic test problems demonstrate that the method requires reasonable computational effort to find higher quality solutions than other local DC optimization methods. Additionally, we apply the new method to find global solutions to DC optimization problems and compare its performance with two benchmark global optimization solvers., Comment: 35 pages, 9 figures

Published
2025

4. Nanotechnology and malaria: Evaluation of efficacy and toxicity of green nanoparticles and future perspectives

Author

Ana Barati, Ayan Huseynzade, Nergiz Imamova, Inji Shikhaliyeva, Sedanur Keles, Jahid Alakbarli, Buşra Akgul, Melahat Bagirova, and Adil M Allahverdiyev

Subjects
malaria, green metal nps, antimalarial effect, toxicity, biosynthesis, Infectious and parasitic diseases, RC109-216
Abstract

Malaria is a global health problem that causes 1.5–2.7 million deaths worldwide each year. Resistance to antimalarial drugs in malaria parasites and to insecticides in vectors is one of the most serious issues in the fight against this disease. Moreover, the lack of an effective vaccine against malaria is still a major problem. Recent developments in nanotechnology have resulted in new prospects for the fight against malaria, especially by obtaining metal nanoparticles (NPs) that are less toxic, highly biocompatible, environmentally friendly, and less expensive. Numerous studies have been conducted on the synthesis of green NPs using plants and microorganisms (bacteria, fungi, algae, actinomycetes, and viruses). To our knowledge, there is no literature review that compares toxicities and antimalarial effects of some of the existing metallic nanoparticles, revealing their advantages and disadvantages. Hence, the purpose of this work is to assess metal NPs obtained through various green synthesis processes, to display the worth of future malaria research and determine future strategies. Results revealed that there are very few studies on green NPs covering all stages of malaria parasites. Additionally, green metal nanoparticles have yet to be studied for their possible toxic effects on infected as well as healthy erythrocytes. Morever, the toxicities of green metal NPs obtained from various sources differed according to concentration, size, shape, synthesis method, and surface charge, indicating the necessity of optimizing the methods to be used in future studies. It was concluded that studies on the toxic properties of green nanoparticles would be very important for the future.

Published
2024
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9. Uranium in groundwaters of North Kazakhstan

Author

Nazgul A. Medeshova, Dmitry A. Novikov, Ergali S. Auelkhan, Anatoly A. Antonenko, Anastasia A. Maksimova, Anton S. Derkachev, Fedor F. Dultsev, Adil M. Orynbek, Shattyk D. Miniskul, Anatoliy V. Chernykh, and Albina A. Khvacshevskaya

Subjects
Radon waters, uranium-238, radon-222, Northern Kazakhstan, Ob-Zaisan folded region, Engineering geology. Rock mechanics. Soil mechanics. Underground construction, TA703-712
Abstract

Relevance. The need to dentify the characteristics of the distribution of radioactive elements in the groundwater of Northern Kazakhstan. Aim. Generalization of available data on the geochemistry of groundwater and uranium and radon distribution in them using the example of the northern regions of the Republic of Kazakhstan. Methods. Generalization of long-term hydrogeochemical research and compilation of an electronic data bank on the territory of Northern Kazakhstan. A laboratory study of the chemical composition of groundwater was carried out at the Research Laboratory of Hydrogeochemistry of the School of Natural Resources Engineering of Tomsk Polytechnic University. Measurements of 222Rn contents in waters were carried out using the Alfarad Plus complex in the Laboratory of Hydrogeology of Sedimentary Basins of Siberia, Institute of Geology and Geography, Siberian Branch, Russian Academy of Sciences. Results. The groundwater of aquifers of different ages, distributed in the territory of Northern Kazakhstan (North Kazakhstan uranium province), was studied. Two geochemical sets of groundwater were identified. The first is characterized by the dominance of HCO3– and Mg2+ in the water composition, and the second by Cl– and Na+. A change in composition and an increase in the value of total mineralization from 0,1 to 49 g/dm3, in the direction from north to south, indicate the development of continental salinization. In natural waters of the first group, uranium content varies from 0.065 to 16000 μg/dm3 and radon activity from 4 to 3885 Bq/dm3. For sodium chloride waters of the second set, concentrations can reach 32500 μg/dm3, and radon activity is 6–59 Bq/dm3, since the emanating reservoir (granitoids) is located to the north – at a distance of 80–100 km. Naturally, granitoid massifs of the studied region are sources of uranium. Their drainage by the river network leads to its removal and concentration on geochemical barriers in the groundwater of the Neogene-Quaternary aquifer. This distribution of radioactive elements is associated with the high migration ability of uranium in solution in the form of uranyl ion in oxidizing geochemical conditions.

Published
2024
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35. Limited Memory Bundle Method for Clusterwise Linear Regression

Author

Karmitsa, Napsu, Bagirov, Adil M., Taheri, Sona, Joki, Kaisa, Valavanis, Kimon P., Series Editor, Antsaklis, P., Advisory Editor, Borne, P., Advisory Editor, Carelli, R., Advisory Editor, Fukuda, T., Advisory Editor, Gans, N.R., Advisory Editor, Harashima, F., Advisory Editor, Martinet, P., Advisory Editor, Monaco, S., Advisory Editor, Negenborn, R.R., Advisory Editor, Pascoal, António, Advisory Editor, Schmidt, G., Advisory Editor, Sobh, T.M., Advisory Editor, Tzafestas, C., Advisory Editor, Tuovinen, Tero, editor, Periaux, Jacques, editor, and Neittaanmäki, Pekka, editor

Published
2022
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41. Attractivity criterion on a delayed tick population dynamics equation with a reproductive function $ f(u) = ru^{\gamma}e^{-\sigma u} $

Author

Fawaz E Alsaadi, Chuangxia Huang, Madini O Alassafi, Reem M Alotaibi, Adil M Ahmad, and Jinde Cao

Subjects
tick population, delay, equilibrium, attractivity, Biotechnology, TP248.13-248.65, Mathematics, QA1-939
Abstract

The aim of this article is to analyze the delay influence on the attraction for a scalar tick population dynamics equation accompanying two disparate delays. Taking advantage of the fluctuation lemma and some dynamic inequalities, we derive a criterion to assure the persistence and positiveness on the considered model. Furthermore, a time-lag-dependent condition is proposed to insure the global attractivity for the addressed model. Besides, we give some simulation diagrams to substantiate the validity of the theoretical outcomes.

Published
2022
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42. Revolutionizing bioenergy: the microalgae-microbial fuel cell frontier

Author

Osman Adil M., Abdurahman Nour Hamid, and Noormazlinah Ahmad

Subjects
microalgae-microbial fuel cell (m-mfc) biotechnology, bioelectricity, biomass, lipid, biodiesel, wastewater treatment, co2 sequestration, Technology, Science
Abstract

Microalgae-Microbial Fuel Cell (M-MFC) technology stands out as a highly promising innovation at the nexus of renewable energy and environmental conservation. This cutting-edge approach utilizes microorganisms, including bacteria and algae, to convert the chemical energy in wastewater into electricity, addressing both wastewater treatment and electricity generation. M-MFC relies on microorganisms to convert chemical energy, utilizing components readily available in wastewater, making it a sustainable energy source with considerable potential. Beyond its eco-friendly electricity generation, M-MFC offers cost-effective electricity production, alleviating expenses associated with wastewater treatment and overall electricity consumption. In this comprehensive review, we explore the intricate bio-electrochemical mechanism of M-MFC, shedding light on recent developments and applications. The discussion encompasses crucial factors influencing M-MFC performance, and its essential elements and functions. This review examines the MFC system, particularly M-MFCs, with a focus attention to the functions of key elements such as the anode, cathode, and microorganisms. Additionally, it delves into the material design and configuration of M-MFCs. Furthermore, the review addresses current issues and limitations related to M-MFC systems.

Published
2024
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49. Discrete Gradient Methods

Author

Bagirov, Adil M., Taheri, Sona, Karmitsa, Napsu, Bagirov, Adil M., editor, Gaudioso, Manlio, editor, Karmitsa, Napsu, editor, Mäkelä, Marko M., editor, and Taheri, Sona, editor

Published
2020
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