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1. Artificial intelligence prediction of the mechanical properties of banana peel-ash and bagasse blended geopolymer concrete

Author

George Uwadiegwu Alaneme, Kolawole Adisa Olonade, Ebenezer Esenogho, Mustapha Muhammad Lawan, and Edward Dintwa

Subjects
Geopolymer concrete, Gene expression programing, Artificial neural networks, Adaptive neuro-fuzzy inference system, Green concrete, Medicine, Science
Abstract

Abstract This research explores the application of Artificial Intelligence (AI) techniques to assess the mechanical properties of geopolymer concrete made from a blend of Banana Peel-Ash (BPA) and Sugarcane Bagasse Ash (SCBA), using a sodium silicate (Na2SiO3) to sodium hydroxide (NaOH) ratio ranging from 1.5 to 3. Utilizing three AI methodologies—Artificial Neural Networks (ANN), Adaptive Neuro-Fuzzy Inference System (ANFIS), and Gene Expression Programming (GEP)—the study aims to enhance prediction accuracy for the mechanical properties of geopolymer concrete based on 104 datasets. By optimizing mix designs through varying proportions of BPA and SCBA, alkaline activator molarity, and aggregate-to-binder ratios, the research identified combinations that significantly enhance mechanical properties, demonstrating notable international relevance as it contributes to global efforts in sustainable construction by effectively utilizing industrial by-products. The experimental results demonstrated that increasing the molarity of the alkaline activator from 4 to 10 M significantly enhanced both the compressive and flexural strengths of the geopolymer concrete. Specifically, a mixture containing 52.5% SCBA and 47.5% BPA at a 10 M molarity achieved a maximum compressive strength of 33.17 MPa after 20 h of curing. In contrast, a mixture composed of 95% SCBA and 5% BPA at a 4 M molarity exhibited a substantially lower compressive strength of only 21.27 MPa. Additionally, the highest recorded flexural strength of 9.95 MPa (77.25% SCBA and 22.5 BPA) was observed at the 10 M molarity, while the flexural strength at 4 M was lowest, at 4.12 MPa (95% SCBA and 5% BPA). Microstructural analysis through Scanning Electron Microscopy with Energy-Dispersive X-ray Spectroscopy (ED-SEM) revealed insights into the pore structure and elemental composition of the concrete, while Thermogravimetric Analysis (TGA) provided data on the material’s thermal stability and decomposition characteristics. Performance analysis of the AI models showed that the ANN model had an average MSE of 1.338, RMSE of 1.157, MAE of 3.104, and R2 of 0.989, while the ANFIS model outperformed with an MSE of 0.345, RMSE of 0.587, MAE of 1.409, and R2 of 0.998. The GEP model demonstrated an MSE of 1.233, RMSE of 1.110, MAE of 1.828, and R2 of 0.992, confirming that ANFIS is the most accurate model for predicting the mechanical and rheological properties of geopolymer concrete. This study highlights the potential of integrating AI with experimental data to optimize the formulation and performance of geopolymer concrete, advancing sustainable construction practices by effectively utilizing industrial by-products.

Published
2024
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2. Proposed simplified methodological approach for designing geopolymer concrete mixtures

Author

George Uwadiegwu Alaneme, Kolawole Adisa Olonade, Ebenezer Esenogho, and Mustapha Muhammad Lawan

Subjects
Geopolymer concrete, Mix design methodology, Agro-industrial waste, Controlling factors, Medicine, Science
Abstract

Abstract The development of geopolymer concrete offers promising prospects for sustainable construction practices due to its reduced environmental impact compared to conventional Portland cement concrete. However, the complexity involved in geopolymer concrete mix design often poses challenges for engineers and practitioners. In response, this study proposes a simplified approach for designing geopolymer concrete mixtures, drawing upon principles from Portland cement concrete mix design standards and recommended molar ratios of oxides involved in geopolymer synthesis. The proposed methodology aims to streamline the mix design process while optimizing key factors such as chemical composition, alkali activation solution, water content, and curing conditions to achieve desired compressive strength and workability. By leveraging commonalities between Portland cement concrete and geopolymer concrete, this approach seeks to facilitate the adoption of geopolymer concrete in practical construction applications. The proposed mix design guidelines have been validated through examples for concrete cured under different conditions, including outdoor and oven curing. Future research should focus on validating the proposed methodology through experimental studies and exploring cost-effective alternatives for alkali activation solutions to enhance the feasibility and scalability of geopolymer concrete production. Overall, the proposed simplified approach holds promise for advancing the utilization of geopolymer concrete as a sustainable alternative in the construction industry.

Published
2024
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3. Artificial Intelligence-Based Intrusion Detection and Prevention in Edge-Assisted SDWSN With Modified Honeycomb Structure

Author

Joseph Kipongo, Theo G. Swart, and Ebenezer Esenogho

Subjects
SDWSN, 3D cube, intrusion detection, secure routing, modified honeycomb-based network construction, authentication, Electrical engineering. Electronics. Nuclear engineering, TK1-9971
Abstract

The software-defined wireless sensor network (SDWSN) has the potential to improve flexibility, scalability, and network performance, but security and quality of service (QoS) are major challenges due to attackers, poor network management, and inefficient route selection. Several existing works for intrusion detection had drawbacks like poor security, inefficient network management, higher energy consumption and latency, and lesser throughput. A modified honeycomb structure-based intrusion detection system for SDWSN is proposed to address these challenges, which includes secure authentication using the 3D cube algorithm, modified honeycomb-based network partitioning, clustering, reinforcement learning-based intelligent routing with a transfer learning-based deep Q network (TLDQN), and a hybrid intrusion detection system. The latter detects malicious nodes using a driver training-based optimization (DTO) algorithm and intrusions with a bidirectional generative adversarial network (Bi-GAN). The results show that the proposed system outperforms existing solutions in terms of security, network performance, and efficiency. The simulation of this research is conducted by NS-3.26 Network Simulator, and the performances are evaluated based on various performance metrics (with respect to the total number of nodes) like energy consumption, latency, throughput, packet delivery ratio, network lifetime, computation overhead, detection accuracy, packet drop ratio, and control overhead, which proved that the proposed work achieves superior performance compared to existing works. The evaluation also includes a total simulation period during which the system’s real-time performance was conducted. Time-based metrics such as precision, recall, and F1-score, as well as confusion matrices, are utilized to analyze the system’s effectiveness in real-time in response to dynamic network threats.

Published
2024
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5. Critical review on the application of artificial intelligence techniques in the production of geopolymer-concrete

Author

George Uwadiegwu Alaneme, Kolawole Adisa Olonade, and Ebenezer Esenogho

Subjects
Geopolymer composites, Agro-wastes based concrete, Fuzzy logic, Gene expression programming, Artificial neural networks, Adaptive neuro fuzzy inference system, Science, Technology
Abstract

Abstract The need to employ technology that replaces traditional engineering methods which generate gases that worsen our environment has emerged in an era of dwindling ecosystem owing to global warming has a negative influence on the earth system’s ozone layer. In this study, the exact method of using artificial intelligence (AI) approaches in sustainable structural materials optimization was investigated to ensure that concrete construction projects for buildings have no negative environmental effects. Since they are used in the forecasting/predicting of an agro-waste-based green geopolymer concrete system, the intelligent learning algorithms of Fuzzy Logic, ANFIS, ANN, GEP and other nature-inspired algorithms were reviewed. A systematic literature search was conducted to identify relevant studies published in various databases. The included studies were critically reviewed to analyze the types of AI techniques used, the research methodologies employed, and the main findings reported. To meticulously sort the crucial components of aluminosilicate precursors and alkaline activators blend and to optimize its engineering behavior, laboratory methods must be carried out through the mixture experiment design and raw materials selection. Such experimental activities often fall short of the standards set by civil engineering design guidelines for sustainable construction purposes. At some instances, specific shortcomings in the design of experiments or human error may degrade measurement correctness and cause unforeseen discharge of pollutants. Most errors in repetitive experimental tests have been eliminated by using adaptive AI learning techniques. Though, as an extensive guideline for upcoming investigators in this cutting-edge and developing field of AI, the pertinent smart intelligent modelling tools used at various times, under varying experimental testing methodologies, and leveraging different source materials were addressed in this study review. The findings of this review study demonstrate the benefits, challenges and growing interest in utilizing AI techniques for optimizing geopolymer-concrete production. The review identified a range of AI techniques, including machine learning algorithms, optimization models, and performance evaluation measures. These techniques were used to optimize various aspects of geopolymer-concrete production, such as mix design, curing conditions, and material selection.

Published
2023
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6. Eco-friendly agro-waste based geopolymer-concrete: a systematic review

Author

George Uwadiegwu Alaneme, Kolawole Adisa Olonade, and Ebenezer Esenogho

Subjects
Geopolymer composites, Agro-wastes based concrete, Alkali activated binder, Banana peel ash, Bagasse ash, Materials of engineering and construction. Mechanics of materials, TA401-492
Abstract

Abstract Numerous scientific studies have been conducted, and a wide range of new inorganic geopolymer composite applications have emerged as a result. This innovative material can be made from agricultural waste sources rich in aluminosilicate, which provides best substitute for traditional cement in terms of both quality and cost. This paper presents the state-of-the-art review of deploying agro-wastes as precursor for geopolymer concrete with the view to aggregating the research studies of using agro waste ash-based geopolymer as the most auspicious, durable, inexpensive, user-friendly, and eco-beneficial construction materials for the long-term use. This paper thoroughly examines the rheological, workability, chemistry, and mechanical characteristics of agro-waste ash-based geopolymer concrete with emphasis on sugarcane bagasse and banana peels ash. Sugarcane and green bananas (matooke) play vital roles in East African agriculture, economy and food security. The effects micro-structures, curing conditions, molarity of metallic alkalis, proportioning of alkaline-binder ratio, aggregates content and size fractions effects on the behavior of geopolymer concrete were critically assessed. The study highlighted the abundance of these agro products which serve as staple food in East African region, therefore, it becomes imperative to recycle its waste to produce durable concrete by way of waste management strategy. As a vital component of the readily available building materials, they have a crucial role to play in providing the construction sector with a sustainable outlook while concluding that agro-wastes are potential material that could be a game changer for geopolymer concrete, a number of research gaps that worthy for further study were identified. The findings of this review further demonstrates that agro-waste derivatives when used as binder materials in geopolymer concrete can be a viable and sustainable alternative to conventional cementitious materials.

Published
2023
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7. Design and Implementation of Intrusion Detection Systems using RPL and AOVD Protocols-based Wireless Sensor Networks

Author

Joseph Kipongo, Theo G. Swart, and Ebenezer Esenogho

Subjects
intrusion detection systems, wireless sensor networks, cooja simulator, sensor nodes, ns2, Electrical engineering. Electronics. Nuclear engineering, TK1-9971, Telecommunication, TK5101-6720
Abstract

Wireless Sensor Network (WSN) technology has grown in importance in recent years. All WSN implementations need secure data transmission between sensor nodes and base stations. Sensor node attacks introduce new threats to the WSN. As a result, an appropriate Intrusion Detection System (IDS) is required in WSN for defending against security attacks and detecting attacks on sensor nodes. In this study, we use the Routing Protocol for Low Power and Lossy Networks (RPL) for addressing security services in WSN by identifying IDS with a network size of more or less 20 nodes and introducing 10% malicious nodes. The method described above is used on Cooja in the VMware virtual machine Workstation with the InstantContiki2.7 operating system. To track the movement of nodes, find network attacks, and spot dropped packets during IDS in WSN, an algorithm is implemented in the Network Simulator (NS2) using the Ad-hoc On-Demand Distance Vector (AODV) protocol in the Linux operating system.

Published
2023
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8. Optimal Location and Sizing of Photovoltaic-Based Distributed Generations to Improve the Efficiency and Symmetry of a Distribution Network by Handling Random Constraints of Particle Swarm Optimization Algorithm

Author

Muhammad Abid Ali, Abdul Rauf Bhatti, Akhtar Rasool, Muhammad Farhan, and Ebenezer Esenogho

Subjects
distributed generator, PVDG, PSO algorithm, voltage profile improvement, cost savings, power losses, Mathematics, QA1-939
Abstract

Distributed generators (DGs) are increasingly employed in radial distribution systems owing to their ability to reduce electrical energy losses, better voltage levels, and increased dependability of the power supply. This research paper deals with the utilization of a Particle Swarm Optimization algorithm by handling its random constraints to determine the most appropriate size and location of photovoltaic-based DG (PVDG) to keep the asymmetries of the phases minimal in the grid. It is thus expected that this algorithm will provide an efficient and consistent solution to improve the overall performance of the power system. The placement and sizing of the DG are done in a way that minimizes power losses, enhances the voltage profile, i.e., bringing symmetry in the voltage profile of the system, and provides maximum cost savings. The model has been tested on an IEEE 33-bus radial distribution system using MATLAB software, in both conditions, i.e., with and without PVDG. The simulation results were successful, indicating the viability of the proposed model. The proposed PSO-based PVDG model further reduced active power losses as compared to the models based on the teaching–learning artificial bee colony algorithm (TLABC), pathfinder algorithm (PFA), and ant lion optimization algorithm (ALOA). With the proposed model, active power losses have reduced to 17.50%, 17.48%, and 8.82% compared to the losses found in the case of TLABC, PFA, and ALOA, respectively. Similarly, the proposed solution lessens the reactive power losses compared to the losses found through existing TLABC, PFA, and ALOA techniques by an extent of 23.06%, 23%, and 23.08%, respectively. Moreover, this work shows cost saving of 15.21% and 6.70% more than TLABC and ALOA, respectively. Additionally, it improves the voltage profile by 3.48% of the power distribution system.

Published
2023
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9. Integrating Artificial Intelligence Internet of Things and 5G for Next-Generation Smartgrid: A Survey of Trends Challenges and Prospect

Author

Ebenezer Esenogho, Karim Djouani, and Anish M. Kurien

Subjects
5G, artificial intelligence (AI), Internet of Things (IoT), next-generation smartgrid, network slicing, Electrical engineering. Electronics. Nuclear engineering, TK1-9971
Abstract

Smartgrid is a paradigm that was introduced into the conventional electricity network to enhance the way generation, transmission, and distribution networks interrelate. It involves the use of Information and Communication Technology (ICT) and other solution in fault and intrusion detection, mere monitoring of energy generation, transmission, and distribution. However, on one hand, the actual and earlier smartgrid, do not integrate more advanced features such as automatic decision making, security, scalability, self-healing and awareness, real-time monitoring, cross-layer compatibility, etc. On the other hand, the emergence of the digitalization of the communication infrastructure to support the economic sector which among them are energy generation and distribution grid with Artificial Intelligence (AI) and large-scale Machine to Machine (M2M) communication. With the future Massive Internet of Things (MIoT) as one of the pillars of 5G/6G network factory, it is the enabler to support the next generation smart grid by providing the needed platform that integrates, in addition to the communication infrastructure, the AI and IoT support, providing a multitenant system. This paper aim at presenting a comprehensive review of next smart grid research trends and technological background, discuss a futuristic next-generation smart grid driven by artificial intelligence (AI) and leverage by IoT and 5G. In addition, it discusses the challenges of next-generation smart-grids as it relate to the integration of AI, IoT and 5G for better smart grid architecture. Also, proffers possible solutions to some of the challenges and standards to support this novel trend. A corresponding future work will dwell on the implementation of the discussed integration of AI, IoT and 5G for next-generation smart grid, using Matlab, NS2/NS3, Open-daylight and Mininet as soft tools and compare with related literature.

Published
2022
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10. A Neural Network Ensemble With Feature Engineering for Improved Credit Card Fraud Detection

Author

Ebenezer Esenogho, Ibomoiye Domor Mienye, Theo G. Swart, Kehinde Aruleba, and George Obaido

Subjects
AdaBoost, credit card, data resampling, fraud detection, LSTM, machine learning, Electrical engineering. Electronics. Nuclear engineering, TK1-9971
Abstract

Recent advancements in electronic commerce and communication systems have significantly increased the use of credit cards for both online and regular transactions. However, there has been a steady rise in fraudulent credit card transactions, costing financial companies huge losses every year. The development of effective fraud detection algorithms is vital in minimizing these losses, but it is challenging because most credit card datasets are highly imbalanced. Also, using conventional machine learning algorithms for credit card fraud detection is inefficient due to their design, which involves a static mapping of the input vector to output vectors. Therefore, they cannot adapt to the dynamic shopping behavior of credit card clients. This paper proposes an efficient approach to detect credit card fraud using a neural network ensemble classifier and a hybrid data resampling method. The ensemble classifier is obtained using a long short-term memory (LSTM) neural network as the base learner in the adaptive boosting (AdaBoost) technique. Meanwhile, the hybrid resampling is achieved using the synthetic minority oversampling technique and edited nearest neighbor (SMOTE-ENN) method. The effectiveness of the proposed method is demonstrated using publicly available real-world credit card transaction datasets. The performance of the proposed approach is benchmarked against the following algorithms: support vector machine (SVM), multilayer perceptron (MLP), decision tree, traditional AdaBoost, and LSTM. The experimental results show that the classifiers performed better when trained with the resampled data, and the proposed LSTM ensemble outperformed the other algorithms by obtaining a sensitivity and specificity of 0.996 and 0.998, respectively.

Published
2022
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11. An Interpretable Machine Learning Approach for Hepatitis B Diagnosis

Author

George Obaido, Blessing Ogbuokiri, Theo G. Swart, Nimibofa Ayawei, Sydney Mambwe Kasongo, Kehinde Aruleba, Ibomoiye Domor Mienye, Idowu Aruleba, Williams Chukwu, Fadekemi Osaye, Oluwaseun F. Egbelowo, Simelane Simphiwe, and Ebenezer Esenogho

Subjects
disease prediction, hepatitis B, interpretability, machine learning, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999
Abstract

Hepatitis B is a potentially deadly liver infection caused by the hepatitis B virus. It is a serious public health problem globally. Substantial efforts have been made to apply machine learning in detecting the virus. However, the application of model interpretability is limited in the existing literature. Model interpretability makes it easier for humans to understand and trust the machine-learning model. Therefore, in this study, we used SHapley Additive exPlanations (SHAP), a game-based theoretical approach to explain and visualize the predictions of machine learning models applied for hepatitis B diagnosis. The algorithms used in building the models include decision tree, logistic regression, support vector machines, random forest, adaptive boosting (AdaBoost), and extreme gradient boosting (XGBoost), and they achieved balanced accuracies of 75%, 82%, 75%, 86%, 92%, and 90%, respectively. Meanwhile, the SHAP values showed that bilirubin is the most significant feature contributing to a higher mortality rate. Consequently, older patients are more likely to die with elevated bilirubin levels. The outcome of this study can aid health practitioners and health policymakers in explaining the result of machine learning models for health-related problems.

Published
2022
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12. A Machine Learning Method with Filter-Based Feature Selection for Improved Prediction of Chronic Kidney Disease

Author

Sarah A. Ebiaredoh-Mienye, Theo G. Swart, Ebenezer Esenogho, and Ibomoiye Domor Mienye

Subjects
AdaBoost, chronic kidney disease, cost-sensitive learning, machine learning, medical diagnosis, Technology, Biology (General), QH301-705.5
Abstract

The high prevalence of chronic kidney disease (CKD) is a significant public health concern globally. The condition has a high mortality rate, especially in developing countries. CKD often go undetected since there are no obvious early-stage symptoms. Meanwhile, early detection and on-time clinical intervention are necessary to reduce the disease progression. Machine learning (ML) models can provide an efficient and cost-effective computer-aided diagnosis to assist clinicians in achieving early CKD detection. This research proposed an approach to effectively detect CKD by combining the information-gain-based feature selection technique and a cost-sensitive adaptive boosting (AdaBoost) classifier. An approach like this could save CKD screening time and cost since only a few clinical test attributes would be needed for the diagnosis. The proposed approach was benchmarked against recently proposed CKD prediction methods and well-known classifiers. Among these classifiers, the proposed cost-sensitive AdaBoost trained with the reduced feature set achieved the best classification performance with an accuracy, sensitivity, and specificity of 99.8%, 100%, and 99.8%, respectively. Additionally, the experimental results show that the feature selection positively impacted the performance of the various classifiers. The proposed approach has produced an effective predictive model for CKD diagnosis and could be applied to more imbalanced medical datasets for effective disease detection.

Published
2022
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13. On the Evaluation of Handover Exchange Schemes Between Two Cognitive Radio Base Stations with and without Buffers

Author

Ebenezer Esenogho, Elie N. Mambou, and Hendrik C. Ferreira

Subjects
cognitive radio networks, channel handover exchange scheme, blocking probability, force termination, handover failure, Electrical engineering. Electronics. Nuclear engineering, TK1-9971, Telecommunication, TK5101-6720
Abstract

This article investigates and evaluates a handover exchange scheme between two secondary users (SUs) moving in different directions across the handover region of neighboring cell in a cognitive radio network. More specifically, this investigation compares the performance of SUs in a cellular cognitive radio network with and without channel exchange scheme. The investigation shows reduced handover failure, blocking, forced and access probabilities respectively, for handover exchange scheme with buffer as compared to exchange scheme without buffer. It also shows transaction within two cognitive nodes within a network region. The system setup is evaluated through system simulation.

Published
2018
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14. Integrating Two Feedback Queuing Discipline into Cognitive Radio Channel Aggregation

Author

Ebenezer Esenogho, Elie N. Mambou, and Hendrik C. Ferreira

Subjects
cognitive radio, channel aggregation, primary andsecondary users, queue discipline, Electrical engineering. Electronics. Nuclear engineering, TK1-9971, Telecommunication, TK5101-6720
Abstract

Queuing regime is one outstanding approach in improving channel aggregation. If well designed and incorporated with carefully selected parameters, it enhances the smooth rollout of fifth/next generation wireless networks. While channel aggregation is the merging of scattered TV white space (spectrum holes) into one usable chunk for secondary users (SU). The queuing regime ensures that these unlicensed users (SUs) traffic/ services are not interrupted permanently (blocked/dropped or forced to terminate) in the event of the licensed users (primary user) arrival. However, SUs are not identical in terms of traffic class and bandwidth consumption hence, they are classified as real time and non-real time SU respectively. Several of these strategies have been studied considering queuing regime with a single feedback queuing discipline. In furtherance to previous proposed work with single feedback queuing regime, this paper proposes, develops and compares channel aggregation policies with two feedback queuing regimes for the different classes of SUs. The investigation aims at identifying the impacts of the twofeedback queuing regime on the performance of the secondary network such that any SU that has not completed its ongoing service are queued in their respective buffers. The performance is evaluated through a simulation framework. The results validate that with a well-designed queuing regime, capacity, access and other indices are improved with significant decrease in blocking and forced termination probabilities respectively.

Published
2018
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18. Efficient topology discovery protocol using IT-SDN for software-defined wireless sensor network

Author

Joseph Kipongo, Ebenezer Esenogho, and Theo G. Swart

Subjects
Discovery protocol, Energy efficiency, Control and Optimization, Topology discovery, Computer Networks and Communications, Hardware and Architecture, Control and Systems Engineering, Computer Science (miscellaneous), Software-defined networking, Electrical and Electronic Engineering, Instrumentation, Wireless sensor networks, Information Systems
Abstract

The internet of things (IoT) and wireless sensor networks (WSNs) are two promising technologies for supporting new services and applications. However, because IoT and WSN entail interaction and transaction of device topology discovery protocols, WSN facing some challenges. Topology discovery (TD) is important for WSN in IoT since sensor nodes (SNs) are the main points of this network. Networking these SN (IoT-devices) has a few difficulties such as energy and bandwidth consumption, and data storage issues resulting from frequent interactions and transactions between devices. Because these challenges cannot be resolved by one solution, we focused on reducing the energy consumption associated with a WSN. We proposed software-defined networking (SDN) model to tackle energy-efficiency issue in a WSN setup by integrating SDN and WSN, which gave rise to a more robust system, software-defined wireless sensor network (SDWSN). In this direction, we proposed an improved fuzzy-logic-based strategy, fuzzy topology discovery protocol (FTDP). It used IT-SDN (an SDN-based WSN framework) to increase the network’s lifepan due to its low energy consumption. The link layer discovery protocol (LLDP) to build the SDN controller’s topology. The system’s performance was presented and compared, demonstrating that with an effective SDWSN discovery policy, energy efficiency is achievable.

Published
2022

19. Integrating Smartphone Network Architecture and Data Security Techniques to Mitigate Sharp Practices in Non-Profit Organizations

Author

Reolyn Heymann, Matimu Caswell Nkuna, and Ebenezer Esenogho

Subjects
Corrupt practices, Network architecture, Cover (telecommunications), Event (computing), Computer science, Corruption, media_common.quotation_subject, 05 social sciences, Data security, Portable Network Graphics, computer.file_format, 030204 cardiovascular system & hematology, Computer security, computer.software_genre, 03 medical and health sciences, 0302 clinical medicine, 0502 economics and business, Accountability, 050211 marketing, Electrical and Electronic Engineering, computer, media_common
Abstract

Contemporary research is geared towards integrating multidisciplinary domains and targeted to developing robust solutions This implies that single-discipline solutions most times do not give the desired results This study intends to apply this concept statement in mitigating the hydra-headed challenge facing the world today called sharp-practice (corruption) which some believe that it is worse than the current severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) The sharp practice is a major challenge in the world today and a threat to the development of any country Sharp practices range from higher offices of the state institutions to the small offices located in remote and rural local areas Non-profit Organizations (NPOs) are also affected by sharp practices as the office-bearers of these institutions are constantly misappropriating donors’ funds meant for these facilities for their selfish interests State and private donors offer a large portion of their resources to NPOs to improve the standard of living of needy people in remote and rural areas However, most NPOs sited in rural areas do not have systems that can be used to monitor and capture the management of resources In this paper, we attempt to solve this challenge by proposing the integrating Smartphone Network Architecture (SMA) and Data Security Techniques (DST) to mitigate sharp practices in NPOs In our approach, a smartphone-mobile app algorithm was developed using JavaScript The app uses the Least Significant Bits (LSB) method to secretly embed a Date Stamp on a PNG image whenever an event is captured by a secret camera at the NPO’s center The results showed that the LSB method is the most suitable technique to embed a small-scale secret data on the pixels of a PNG image file The LSB technique does not require the original cover image for decoding the secret data hidden in the image over the network From the study, these techniques have shown to improve accountability and alleviate corrupt practices in NPOs © 2020 Journal of Communications

Published
2020

20. Binary Balanced Codes Approaching Capacity

Author

Theo G. Swart, Ebenezer Esenogho, Hendrik C. Ferreira, and Elie Ngomseu Mambou

Subjects
Discrete mathematics, Computer science, Binary number
Published
2019

22. Sparse noise minimization in image classification using Genetic Algorithm and DenseNet

Author

Ibomoiye Domor Mienye, Ikiomoye Douglas Emmanuel, Ebenezer Esenogho, and P. K. Ainah

Subjects
Optimization problem, Contextual image classification, Noise (signal processing), Computer science, business.industry, Noise reduction, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Pattern recognition, Image processing, Feature (computer vision), Genetic algorithm, Artificial intelligence, business, Sparse matrix
Abstract

Noise handling is a critical aspect of image processing, which can significantly affect the accuracy of classification and recognition algorithms. In this paper, we propose a technique for improved noise handling in sparse input feature maps where the noise signal is also sparse. The signal-noise relationship is formulated as an optimization problem which is solved by a genetic algorithm. The genetic algorithm is applied to optimize the setting of a non-convexity parameter which yields a more accurate image sparse matrix. The resulting feature map is then classified using a densely connected convolutional network (DenseNet). Lung computed tomography images were used for the experiments. The proposed approach achieves better performance when the classification results are compared with a case in which the input signal has not been denoised using the proposed approach.

Published
2021

23. Improved cluster to normal ratio protocol for increasing the lifetime of wireless sensor networks

Author

Abraham S. Martey and Dr EBENEZER ESENOGHO

Subjects
Control and Optimization, Computer Networks and Communications, Hardware and Architecture, Signal Processing, Electrical and Electronic Engineering, Information Systems
Abstract

The wireless sensor network (WSN) is a decentralized network that allows sensor nodes to freely join and quit the network, making it a unique network type that varies from centralized systems in which the fusion center decides on entry and exit. However, one of the key drawbacks of these networks is that the sensor nodes are small and located in remote areas. As a result, energy usage must be efficiently managed. In order to limit energy consumption, an efficient clustering protocol approach is necessary, which may be performed by dividing the networks into clusters and selecting cluster heads depending on the remaining energy and sensor distance. The energy hole problem has an impact on the performance of an energy-efficient technique. As a result, this work aims to extend the lifespan of WSNs, the goal of this research is to make the cluster to normal ratio (CTNR) Protocol better. Data forwarding nodes are added to the CTNR protocol hierarchy to enable hopping and avoid consuming nodes in order to solve the energy hole problem (sink). The proposed method is implemented in Matlab, and the results are compared to literature on energy usage and the amount of dead and living nodes. In terms of the performance indicators given, the results reveal that our proposed scheme beat others.

Published
2022

24. Effect of an Incumbent User on Unlicensed Users Channels in Cognitive Radio Networks: An Overlay Performance Evaluation

Author

Ebenezer Esenogho

Subjects
0508 media and communications, Cognitive radio, business.industry, Computer science, 05 social sciences, 0202 electrical engineering, electronic engineering, information engineering, 050801 communication & media studies, 020206 networking & telecommunications, 02 engineering and technology, Overlay, business, Computer network
Published
2018

25. Artificial neural network technique for improving prediction of credit card default: A stacked sparse autoencoder approach

Author

Theo G. Swart, Ebenezer Esenogho, and Sarah A. Ebiaredoh-Mienye

Subjects
General Computer Science, Artificial neural network, business.industry, Computer science, Deep learning, 020206 networking & telecommunications, 02 engineering and technology, Machine learning, computer.software_genre, Autoencoder, Credit card, 0202 electrical engineering, electronic engineering, information engineering, Feature (machine learning), Unsupervised learning, 020201 artificial intelligence & image processing, Artificial intelligence, Electrical and Electronic Engineering, business, Raw data, computer, Feature learning
Abstract

Presently, the use of a credit card has become an integral part of contemporary banking and financial system. Predicting potential credit card defaulters or debtors is a crucial business opportunity for financial institutions. For now, some machine learning methods have been applied to achieve this task. However, with the dynamic and imbalanced nature of credit card default data, it is challenging for classical machine learning algorithms to proffer robust models with optimal performance. Research has shown that the performance of machine learning algorithms can be significantly improved when provided with optimal features. In this paper, we propose an unsupervised feature learning method to improve the performance of various classifiers using a stacked sparse autoencoder (SSAE). The SSAE was optimized to achieve improved performance. The proposed SSAE learned excellent feature representations that were used to train the classifiers. The performance of the proposed approach is compared with an instance where the classifiers were trained using the raw data. Also, a comparison is made with previous scholarly works, and the proposed approach showed superior performance over other methods.

Published
2021

26. Integrating Enhanced Sparse Autoencoder-Based Artificial Neural Network Technique and Softmax Regression for Medical Diagnosis

Author

Sarah A. Ebiaredoh-Mienye, Theo G. Swart, and Ebenezer Esenogho

Subjects
medical diagnosis, 020205 medical informatics, Computer Networks and Communications, Computer science, lcsh:TK7800-8360, 02 engineering and technology, unsupervised learning, Machine learning, computer.software_genre, 0202 electrical engineering, electronic engineering, information engineering, Electrical and Electronic Engineering, Medical diagnosis, Artificial neural network, business.industry, lcsh:Electronics, Autoencoder, Regression, Softmax regression, ComputingMethodologies_PATTERNRECOGNITION, machine learning, sparse autoencoder, Hardware and Architecture, Control and Systems Engineering, Signal Processing, Softmax function, e-health, Unsupervised learning, 020201 artificial intelligence & image processing, Artificial intelligence, business, computer, Classifier (UML), Feature learning, artificial neural network
Abstract

In recent times, several machine learning models have been built to aid in the prediction of diverse diseases and to minimize diagnostic errors made by clinicians. However, since most medical datasets seem to be imbalanced, conventional machine learning algorithms tend to underperform when trained with such data, especially in the prediction of the minority class. To address this challenge and proffer a robust model for the prediction of diseases, this paper introduces an approach that comprises of feature learning and classification stages that integrate an enhanced sparse autoencoder (SAE) and Softmax regression, respectively. In the SAE network, sparsity is achieved by penalizing the weights of the network, unlike conventional SAEs that penalize the activations within the hidden layers. For the classification task, the Softmax classifier is further optimized to achieve excellent performance. Hence, the proposed approach has the advantage of effective feature learning and robust classification performance. When employed for the prediction of three diseases, the proposed method obtained test accuracies of 98%, 97%, and 91% for chronic kidney disease, cervical cancer, and heart disease, respectively, which shows superior performance compared to other machine learning algorithms. The proposed approach also achieves comparable performance with other methods available in the recent literature.

Published
2020

28. Two Channel Assembling Strategies in Cognitive Radio Networks: a Performance Analysis

Author

Ebenezer Esenogho

Subjects
cognitive radio networks (CRNs), Signal to Noise Ratio (SNR), lcsh:T, lcsh:TA1-2040, AMC, channel assembling (CA), lcsh:Engineering (General). Civil engineering (General), lcsh:Technology
Abstract

To maximize the spectrum hole (TV white space), a robust channel allocation policy featuring aggregation of several primary user idle resources (TVWS) into groups of useable secondary channels has been studied in literatures. However, to be applied in real world, the channel assembling strategies (CAS) must consider the factors that affect the quality and capacity of the available channels. This includes the dynamic wireless link, the signal to noise ratio, traffic class and enabling technique like adaptive modulation and coding (AMC). These make the strategies heterogeneous and robust. Motivated by this, we proposed two CAS called Immediate Blocking Strategy (IBS) and the Readjustment Based Strategy (RBS) that consider the heterogeneity of a wireless channel. An analytical framework to evaluate the performance of the strategies is developed. An investigation of the proposed CAS has shown to improve the secondary user (SU) performance in terms of capacity, blocking, forced termination (FT) and acceptance/admission probabilities respectively, depending on the system parameters selected. The investigation was validated by extensive system simulation.

Published
2017

29. Channel Assembling Strategy in Cognitive Radio Networks: a Queuing Based Approach

Author

Ebenezer Esenogho and Viranjay M. Srivastava

Subjects
Engineering, Queueing theory, Computer Networks and Communications, business.industry, 05 social sciences, 050801 communication & media studies, Link adaptation, 0508 media and communications, Cognitive radio, Hardware and Architecture, 0502 economics and business, Signal Processing, System parameters, Media Technology, Wireless, 050211 marketing, Electrical and Electronic Engineering, business, Queue, Coding (social sciences), Computer network
Abstract

With channel assembling strategies (CAS), more capacity and spectrum utilization can be achieved. However, blocking and forced termination occurs whenever the primary user (PU) arrives individually, or in batch. Motivated by a realistic scenario in cognitive radio networks, we proposed a joint CAS with queue (CAS+Q) which take into account the dynamics of a wireless link and other factors that affect the quality and capacity of the accessible channel. For CAS+Q to be practical, it must consider the time varying wireless link, a finite buffer regime, the traffic classes and adaptive modulation and coding (AMC) scheme. The introduction of a queuing regime for secondary users (SUs) is to ensure that traffic that would have been blocked or forcibly terminated would otherwise be queued in a buffer and possibly served later. This is to improve spectrum utilization and more especially, minimize blocking and forced termination of the SUs services. An investigation of the proposed strategy (CAS+Q) featuring AMC showed improved system performance when compared to our previous study without a queuing regime. It also showed the impact of delays on the proposed strategy depending on the system parameters selected. Extensive system simulations validate the analytical investigation.

Published
2017

30. Improving the redundancy of Knuth?s balancing scheme for packet transmission Systems

Author

Ebenezer Esenogho, Elie Ngomseu Mambou, and Hendrik C. Ferreira

Subjects
FOS: Computer and information sciences, Packet transmission, General Computer Science, Computer science, Computer Science - Information Theory, Information Theory (cs.IT), Binary number, 020206 networking & telecommunications, 02 engineering and technology, Prefix, Balanced codes,binary word,parallel decoding,prefix coding,full balancing, Lookup table, 0202 electrical engineering, electronic engineering, information engineering, Redundancy (engineering), Electrical and Electronic Engineering, Arithmetic
Abstract

A simple scheme was proposed by Knuth to generate binary balanced codewords from any information word. However, this method is limited in the sense that its redundancy is twice that of the full sets of balanced codes. The gap between Knuth's algorithm's redundancy and that of the full sets of balanced codes is significantly considerable. This paper attempts to reduce that gap. Furthermore, many constructions assume that a full balancing can be performed without showing the steps. A full balancing refers to the overall balancing of the encoded information together with the prefix. We propose an efficient way to perform a full balancing scheme that does not make use of lookup tables or enumerative coding., Comment: 11 pages, 4 figures, journal article submitted to Turkish journal of electrical and computer sciences

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