Your search keyword '"Irshad Hussain"' showing total 27 results

1. Geotechnical Assessment of Rock Slope Stability Using Kinematic and Limit Equilibrium Analysis for Safety Evaluation

Author

Aftab Ur Rahman, Guangcheng Zhang, Salman A. AlQahtani, Hammad Tariq Janjuhah, Irshad Hussain, Habib Ur Rehman, and Liaqat Ali Shah

Subjects

rock slope stability, failure mechanism, kinematic analysis, limit equilibrium method finite, DIPS 6.0, Slide 6.020, Hydraulic engineering, TC1-978, Water supply for domestic and industrial purposes, TD201-500

Abstract

The purpose of this study is to identify the leading causes of slope instability along a local highway in Anhui, People’s Republic of China. As part of the east expansion project, the mountain range will be excavated to create a two-way, nearly 30 m wide highway. The site’s topography consists of a hill with palm-shaped faces carved from limestone running along its sides. The geological characteristics and slope stability of the research area highlight the possibility of slope failure along both sides of the roadway. Slope stability analysis was performed in order to determine the failure mechanism and create a stable slope. Initial slope characterization and shear properties of the rock were determined by means of fieldwork and laboratory analysis. By causing wedging failure and toppling collapse, the bedding joints and discontinuity orientations increase instability, as determined by a kinematic analysis performed with DIP.6 software. The Limit Equilibrium Method (LEM) of analysis is presented in the software Slide 6.020 to illustrate the instability of the slope. The unstable condition of the slopes was determined using empirical methods that were validated and enhanced by limit equilibrium analysis.

Published

2023

2. Wideband, High-Gain, and Compact Four-Port MIMO Antenna for Future 5G Devices Operating over Ka-Band Spectrum

Author

Sayed Aqib Hussain, Fatma Taher, Mohammed S. Alzaidi, Irshad Hussain, Rania M. Ghoniem, Mohamed Fathy Abo Sree, and Ali Lalbakhsh

Subjects

wideband antenna, compact size, high gain, Ka-band, 5G, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

In this article, the compact, ultra-wideband and high-gain MIMO antenna is presented for future 5G devices operating over 28 GHz and 38 GHz. The presented antenna is designed over substrate material Roger RT/Duroid 6002 with a thickness of 1.52 mm. The suggested design has dimensions of 15 mm × 10 mm and consists of stubs with loaded rectangular patch. The various stubs are loaded to antenna to improve impedance bandwidth and obtain ultra-wideband. The resultant antenna operates over a broadband of 26.5–43.7 GHz, with a peak value of gain >8 dBi. A four-port MIMO configuration is achieved to present the proposed antenna for future high data rate devices. The MIMO antenna offers isolation

Published

2023

3. Synthesis of Silver Nano Particles Using Myricetin and the In-Vitro Assessment of Anti-Colorectal Cancer Activity: In-Silico Integration

Author

Syed Tauqeer Anwer, Mohammad Mobashir, Omer I. Fantoukh, Bushra Khan, Khalid Imtiyaz, Irshad Hussain Naqvi, and M. Moshahid Alam Rizvi

Subjects

myricetin, silver nanoparticles, colorectal cancer, in-vitro, in-silico, network-level understanding, Biology (General), QH301-705.5, Chemistry, QD1-999

Abstract

The creation of novel anticancer treatments for a variety of human illnesses, including different malignancies and dangerous microbes, also potentially depends on nanoparticles including silver. Recently, it has been successful to biologically synthesize metal nanoparticles using plant extracts. The natural flavonoid 3,3′, 4′, 5,5′, and 7 hexahydroxyflavon (myricetin) has anticancer properties. There is not much known about the regulatory effects of myricetin on the possible cell fate-determination mechanisms (such as apoptosis/proliferation) in colorectal cancer. Because the majority of investigations related to the anticancer activity of myricetin have dominantly focused on the enhancement of tumor cell uncontrolled growth (i.e., apoptosis). Thus, we have decided to explore the potential myricetin interactors and the associated biological functions by using an in-silico approach. Then, we focused on the main goal of the work which involved the synthesis of silver nanoparticles and the labeling of myricetin with it. The synthesized silver nanoparticles were examined using UV-visible spectroscopy, dynamic light scattering spectroscopy, Fourier transform infrared spectroscopy, and scanning electron microscopy. In this study, we have investigated the effects of myricetin on colorectal cancer where numerous techniques were used to show myricetin’s effect on colon cancer cells. Transmission Electron Microscopy was employed to monitor morphological changes. Furthermore, we have combined the results of the colorectal cancer gene expression dataset with those of the myricetin interactors and pathways. Based on the results, we conclude that myricetin is able to efficiently kill human colorectal cancer cell lines. Since, it shares important biological roles and possible route components and this myricetin may be a promising herbal treatment for colorectal cancer as per an in-silico analysis of the TCGA dataset.

Published

2022

4. Proactive Caching in D2D Assisted Multitier Cellular Network

Author

Fawad Ahmad, Ayaz Ahmad, Irshad Hussain, Ghulam Muhammad, Zahoor Uddin, and Salman A. AlQahtani

Subjects

cache-enabled D2D transmitter, multitier cellular networks, content delivery, content caching, 5G, Chemical technology, TP1-1185

Abstract

Cache-enabled networks suffer hugely from the challenge of content caching and content delivery. In this regard, cache-enabled device-to-device (D2D) assisted multitier cellular networks are expected to relieve the network data pressure and effectively solve the problem of content placement and content delivery. Consequently, the user can have a better opportunity to get their favored contents from nearby cache-enabled transmitters (CETs) through reliable and good-quality links; however, as expected, designing an effective caching policy is a challenging task due to the limited cache memory of CETs and uncertainty in user preferences. In this article, we introduce a joint content placement and content delivery technique for D2D assisted multitier cellular networks (D2DMCN). A support vector machine (SVM) is employed to predict the content popularity to determine which content is to be cached and where it is to be cached, thereby increasing the overall cache hit ratio (CHR). The content request is satisfied either by the neighboring node through the D2D link or by the cache-enabled base stations (BSs) of the multitier cellular networks (MCNs). Similarly, to solve the problem of optimal content delivery, the Hungarian algorithm is employed aiming to improve the quality of satisfaction. The simulation results indicate that the proposed content placement strategy effectively optimizes the overall cache hit ratio of the system. Similarly, an effective content delivery approach reduces the request content delivery delay and power consumption.

Published

2022

5. A Soft Computing View for the Scientific Categorization of Vegetable Supply Chain Issues

Author

Rizwan Abbas, Gehad Abdullah Amran, Irshad Hussain, and Shengjun Ma

Subjects

vegetable supply chain, soft computing, neural networks, machine learning, deep learning, Transportation and communication, K4011-4343, Management. Industrial management, HD28-70, Transportation and communications, HE1-9990

Abstract

Over the most recent couple of years, the Internet of Things and other empowering innovations have been logically utilized for digitizing the vegetable supply chain (VSC). Background: The unpredictable examples and complexity inserted in enormous data dimensions present a test for an orderly human master examination. Hence in an information-driven setting, soft computing (SC) has accomplished critical energy to investigate, mine, and concentrate confidential information data, or tackle complex improvement issues, finding some harmony between good productivity and maintainability of vegetable supply frameworks. Methods: This paper presents a new and diverse scientific classification of VSC issues from the SC methodology. It characterizes VSC issues and sorts them in light of how they be demonstrated according to the SC perspective. Moreover, we examine the SC methodologies commonly utilized in each phase of the VSC and their related classes of issues. Accordingly, there is an issue in distinguishing and characterizing VSC issues according to a more extensive point of view, enveloping the different SC strategies that can apply in various phases (from creation to retailing), and recognizing the issues that emerge in these phases according to the SC viewpoint. Results: We likewise acquaint some rules with the assistance of VSC analysts and specialists to settle on appropriate strategies while resolving specific issues they could experience. Even though a few latest examinations have arranged the SC writing in this field, they are situated towards a solitary group of SC strategies (a gathering of techniques that share standard qualities) and survey their application in VSC phases. Conclusions: We have suggested a novel approach and complete scientific classification of vegetable supply chain concerns about soft computing. We present a view of three delegate supply chains: cruciferous vegetables, dark green leafy vegetables, and tomatoes. We assembled the scientific type in light of different parts to arrange vegetable supply chain issues as per how they can be demonstrated utilizing soft computing methodologies.

Published

2022

6. Climate-Streamflow Relationship and Consequences of Its Instability in Large Rivers of Pakistan: An Elasticity Perspective

Author

Zahoor Khan, Fayaz Ahmad Khan, Afed Ullah Khan, Irshad Hussain, Asif Khan, Liaqat Ali Shah, Jehanzeb Khan, Yasir Irfan Badrashi, Paweł Kamiński, Artur Dyczko, and Kazimierz Różkowski

Subjects

climate change, elasticity, streamflow, precipitation, temperature, water management, Hydraulic engineering, TC1-978, Water supply for domestic and industrial purposes, TD201-500

Abstract

Precipitation elasticity provides a basic estimate of the sensitivity of long-term streamflow to changes in long-term precipitation, and it is especially useful as the first assessment of climate change impact in land and water resource projects. This study estimated and compared the precipitation elasticity (εp) of streamflow in 86 catchments within Pakistan over 50 major rivers using three widely used analytical models: bivariate nonparametric (NP) estimator, multivariate NP analysis, and multivariate double logarithm (DL) model. All the three models gave similar values of elasticity in the range of 0.1–3.5 for over 70–75% of the catchments. This signifies that a 1% change in the annual mean precipitation compared to the long-term historic mean annual precipitation will amplify the streamflow by 0.1–3.5%. In addition, the results suggested that elasticity estimation of streamflow sensitivity using the multivariate DL model is more reliable and realistic. Precipitation elasticity of streamflow is observed high at altitudes ranging between 250 m and 1000 m while the longitudinal and latitudinal pattern of εp shows higher values in the range of 70–75 and 32–36 decimal degrees, respectively. The εp values were found to have a direct relationship with the mean annual precipitation and an inverse relationship with the catchment areas. Likewise, high εp values were noticed in areas where the mean annual temperature ranges between 15 and 24 °C.

Published

2022

7. Exploiting the Moth–Flame Optimization Algorithm for Optimal Load Management of the University Campus: A Viable Approach in the Academia Sector

Author

Ibrar Ullah, Irshad Hussain, Khalid Rehman, Piotr Wróblewski, Wojciech Lewicki, and Balasubramanian Prabhu Kavin

Subjects

load balancing, moth–flame optimization (MFO) algorithm, neutral current reduction, optimization algorithms, practical approach of optimization, Technology

Abstract

Unbalanced load condition is one of the major issues of all commercial, industrial and residential sectors. Unbalanced load means that, when different loads are distributed on a three-phase four-wire system, unequal currents pass through the three phases. Due to it, a heavy current flows in the neutral wire, which not only adds the losses, but also puts constraints on three phases’ loads. In this paper, we have presented a practical approach for load balancing. First, we have considered the existing three-phase load system where the supply is a three-phase unbalanced supply. Before balancing the load, it is necessary to compensate the current in neutral wire. A nature-inspired moth–flame optimization (MFO) algorithm is used to propose a scheme for balancing of current in neutral wire. The information of a distributed single-phase load was used to balance the currents in a three-phase system. The feeder phase and load profiles of each single-phase load are used to reconfigure the network using an optimization process. By balancing the current of three phases, the current of the neutral conductor in substation transformers was reduced to almost zero.

Published

2022

8. Exploiting IoT and Its Enabled Technologies for Irrigation Needs in Agriculture

Author

Veerachamy Ramachandran, Ramar Ramalakshmi, Balasubramanian Prabhu Kavin, Irshad Hussain, Abdulrazak H. Almaliki, Abdulrhman A. Almaliki, Ashraf Y. Elnaggar, and Enas E. Hussein

Subjects

Internet of Things (IoT), agriculture, irrigation, cloud platforms, sensors, controllers, Hydraulic engineering, TC1-978, Water supply for domestic and industrial purposes, TD201-500

Abstract

The increase in population growth and demand is rapidly depleting natural resources. Irrigation plays a vital role in the productivity and growth of agriculture, consuming no less than 75% of fresh water utilization globally. Irrigation, being the largest consumer of water across the globe, needs refinements in its process, and because it is implemented by individuals (farmers), the use of water for irrigation is not effective. To enhance irrigation management, farmers need to keep track of information such as soil type, climatic conditions, available water resources, soil pH, soil nutrients, and soil moisture to make decisions that resolve or prevent agricultural complexity. Irrigation, a data-driven technology, requires the integration of emerging technologies and modern methodologies to provide solutions to the complex problems faced by agriculture. The paper is an overview of IoT-enabled modern technologies through which irrigation management can be elevated. This paper presents the evolution of irrigation and IoT, factors to be considered for effective irrigation, the need for effective irrigation optimization, and how dynamic irrigation optimization would help reduce water use. The paper also discusses the different IoT architecture and deployment models, sensors, and controllers used in the agriculture field, available cloud platforms for IoT, prominent tools or software used for irrigation scheduling and water need prediction, and machine learning and neural network models for irrigation. Convergence of the tools, technologies and approaches helps in the development of better irrigation management applications. Access to real-time data, such as weather, plant and soil data, must be enhanced for the development of effective irrigation management applications.

Published

2022

9. Fast Computation of Highly Oscillatory ODE Problems: Applications in High-Frequency Communication Circuits

Author

Sakhi Zaman, Latif Ullah Khan, Irshad Hussain, and Lucian Mihet-Popa

Subjects

symmetric integral operator, radial basis functions, Levin collocation quadrature, Bernoulli’s transformation, high frequencies, communication systems, Mathematics, QA1-939

Abstract

The paper demonstrates symmetric integral operator and interpolation based numerical approximations for linear and nonlinear ordinary differential equations (ODEs) with oscillatory factor x′=ψ(x)+χω(t), where the function χω(t) is an oscillatory forcing term. These equations appear in a variety of computational problems occurring in Fourier analysis, computational harmonic analysis, fluid dynamics, electromagnetics, and quantum mechanics. Classical methods such as Runge–Kutta methods etc. fail to approximate the oscillatory ODEs due the existence of oscillatory term χω(t). Two types of methods are presented to approximate highly oscillatory ODEs. The first method uses radial basis function interpolation, and then quadrature rules are used to evaluate the integral part of the solution equation. The second approach is more generic and can approximate highly oscillatory and nonoscillatory initial value problems. Accordingly, the first-order initial value problem with oscillatory forcing term is transformed into highly oscillatory integral equation. The transformed symmetric oscillatory integral equation is then evaluated numerically by the Levin collocation method. Finally, the nonlinear form of the initial value problems with an oscillatory forcing term is converted into a linear form using Bernoulli’s transformation. The resulting linear oscillatory problem is then computed by the Levin method. Results of the proposed methods are more reliable and accurate than some state-of-the-art methods such as asymptotic method, etc. The improved results are shown in the numerical section.

Published

2022

10. Probabilistic Optimization Techniques in Smart Power System

Author

Muhammad Riaz, Sadiq Ahmad, Irshad Hussain, Muhammad Naeem, and Lucian Mihet-Popa

Subjects

probabilistic optimization, stochastic optimization, robust optimization, distributional robust optimization, chance constrained optimization, energy management, Technology

Abstract

Uncertainties are the most significant challenges in the smart power system, necessitating the use of precise techniques to deal with them properly. Such problems could be effectively solved using a probabilistic optimization strategy. It is further divided into stochastic, robust, distributionally robust, and chance-constrained optimizations. The topics of probabilistic optimization in smart power systems are covered in this review paper. In order to account for uncertainty in optimization processes, stochastic optimization is essential. Robust optimization is the most advanced approach to optimize a system under uncertainty, in which a deterministic, set-based uncertainty model is used instead of a stochastic one. The computational complexity of stochastic programming and the conservativeness of robust optimization are both reduced by distributionally robust optimization.Chance constrained algorithms help in solving the constraints optimization problems, where finite probability get violated. This review paper discusses microgrid and home energy management, demand-side management, unit commitment, microgrid integration, and economic dispatch as examples of applications of these techniques in smart power systems. Probabilistic mathematical models of different scenarios, for which deterministic approaches have been used in the literature, are also presented. Future research directions in a variety of smart power system domains are also presented.

Published

2022

11. Predicting Attack Pattern via Machine Learning by Exploiting Stateful Firewall as Virtual Network Function in an SDN Network

Author

Senthil Prabakaran, Ramalakshmi Ramar, Irshad Hussain, Balasubramanian Prabhu Kavin, Sultan S. Alshamrani, Ahmed Saeed AlGhamdi, and Abdullah Alshehri

Subjects

software defined network, network function virtualization, firewall, SDNFV, attack prediction, machine learning, Chemical technology, TP1-1185

Abstract

Decoupled data and control planes in Software Defined Networks (SDN) allow them to handle an increasing number of threats by limiting harmful network links at the switching stage. As storage, high-end servers, and network devices, Network Function Virtualization (NFV) is designed to replace purpose-built network elements with VNFs (Virtualized Network Functions). A Software Defined Network Function Virtualization (SDNFV) network is designed in this paper to boost network performance. Stateful firewall services are deployed as VNFs in the SDN network in this article to offer security and boost network scalability. The SDN controller’s role is to develop a set of guidelines and rules to avoid hazardous network connectivity. Intruder assaults that employ numerous socket addresses cannot be adequately protected by these strategies. Machine learning algorithms are trained using traditional network threat intelligence data to identify potentially malicious linkages and probable attack targets. Based on conventional network data (DT), Bayesian Network (BayesNet), Naive-Bayes, C4.5, and Decision Table (DT) algorithms are used to predict the target host that will be attacked. The experimental results shows that the Bayesian Network algorithm achieved an average prediction accuracy of 92.87%, Native–Bayes Algorithm achieved an average prediction accuracy of 87.81%, C4.5 Algorithm achieved an average prediction accuracy of 84.92%, and the Decision Tree algorithm achieved an average prediction accuracy of 83.18%. There were 451 k login attempts from 178 different countries, with over 70 k source IP addresses and 40 k source port addresses recorded in a large dataset from nine honeypot servers.

Published

2022

12. An Optimal Energy Management System for University Campus Using the Hybrid Firefly Lion Algorithm (FLA)

Author

Haneef Ullah, Murad Khan, Irshad Hussain, Ibrar Ullah, Peerapong Uthansakul, and Naeem Khan

Subjects

DAP, DSM, demand response, energy management controller (EMC), firefly algorithm (FA), FLA, Technology

Abstract

As the world population and its dependency on energy is growing exponentially day by day, the existing energy generating resources are not enough to fulfill their needs. In the conventional grid system, most of the generated energy is wasted because of improper demand side management (DSM). This leads to a difficulty in keeping the equilibrium between the user need and electric power production. To overcome these difficulties, smart grid (SG) is introduced, which is composed of the integration of two-way communication between the user and utility. To utilize the existing energy resources in a better way, SG is the best option since a large portion of the generated energy is consumed by the educational institutes. Such institutes also need un-interrupted power supply at the lowest cost. Therefore, in this paper, we have taken a university campus load. We have not only applied two bio-inspired heuristic algorithms for energy scheduling—namely, the Firefly Algorithm (FA) and the Lion Algorithm (LA)—but also proposed a hybrid version, FLA, for more optimal results. Our main objectives are a reduction in both, that is, the cost of energy and the waiting time of consumers or end users. For this purpose, in our proposed model, we have divided all appliances into two categories—shiftable appliances and non-shiftable appliances. Shiftable appliances are feasible to be used in any of the time slots and can be planned according to the day-ahead pricing signal (DAP), provided by the utility, while non-shiftable appliances can be used for a specified duration and cannot be planned with the respective DAP signal. So, we have scheduled shiftable appliances only. We have also used renewable energy sources (RES) for achieving maximum end user benefits. The simulation results show that our proposed hybrid algorithm, FLA, has reduced the cost excellently. We have also taken into consideration the consumers’ waiting times, due to scheduling of appliances.

Published

2021

13. Mediating Role of Entrepreneurial Work-Related Strains and Work Engagement among Job Demand–Resource Model and Success

Author

Wang, Qifan, primary, Khan, Sajjad Nawaz, additional, Sajjad, Muhammad, additional, Sarki, Irshad Hussain, additional, and Yaseen, Muhammad Noman, additional

Published

2023

14. Effect of Flavonoid-Coated Gold Nanoparticles on Bacterial Colonization in Mice Organs

Author

Sundus Riaz, Nosheen Fatima Rana, Irshad Hussain, Tahreem Tanweer, Afrah Nawaz, Farid Menaa, Hussnain A. Janjua, Tahseen Alam, Amna Batool, Ayesha Naeem, Maryam Hameed, and Syed Mohsin Ali

Subjects

flavonoids, Berberis lycium, Enterococcus faecalis, drug delivery, infectious diseases, Chemistry, QD1-999

Abstract

Multidrug resistance (MDR) has been a potentiator for the exploration of antibiotics. Nano drug delivery systems have opened new avenues to overcome this challenge. Although antibacterial nanocarriers are extensively realized, their effect on the bacteria residing inside the tissues and their toxicity is rarely explored. This study investigated the effects of flavonoid coated gold nanoparticles (FAuNPs) on the colonization of Enterococcus faecalis in the mouse liver and kidneys. Flavonoids were extracted from the leaves of Berberis lycium Royle and used to stabilize gold following a green synthesis approach. FAuNPs were characterized by ultraviolet-visible (UV-Vis) spectroscopy, Fourier-transform infrared spectroscopy (FTIR), scanning transmission electron microscopy (STEM), X-ray powder diffraction (XRD), and energy-dispersive X-ray spectroscopy (EDS). FAuNPs showed significantly higher reduction in bacterial counts in in-vitro and in-vivo in mice organs as compared to the free flavonoids owing to their biocompatibility and effectiveness.

Published

2020

15. Cooperation Based Proactive Caching in Multi-Tier Cellular Networks

Author

Fawad Ahmad, Ayaz Ahmad, Irshad Hussain, Peerapong Uthansakul, and Suleman Khan

Subjects

caching, cooperative network, multi-tier cellular network, content popularity, machine learning, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

The limited caching capacity of the local cache enabled Base station (BS) decreases the cache hit ratio (CHR) and user satisfaction ratio (USR). However, Cache enabled multi-tier cellular networks have been presented as a promising candidate for fifth generation networks to achieve higher CHR and USR through densification of networks. In addition to this, the cooperation among the BSs of various tiers for cached data transfer, intensify its significance many folds. Therefore, in this paper, we consider maximization of CHR and USR in a multi-tier cellular network. We formulate a CHR and USR problem for multi-tier cellular networks while putting major constraints on caching space of BSs of each tier. The unsupervised learning algorithms such as K-mean clustering and collaborative filtering have been used for clustering the similar BSs in each tier and estimating the content popularity respectively. A novel scheme such as cluster average popularity based collaborative filtering (CAP-CF) algorithm is employed to cache popular data and hence maximizing the CHR in each tier. Similarly, two novel methods such as intra-tier and cross-tier cooperation (ITCTC) and modified ITCTC algorithms have been employed in order to optimize the USR. Simulations results witness, that the proposed schemes yield significant performance in terms of average cache hit ratio and user satisfaction ratio compared to other conventional approaches.

Published

2020

16. Facile Synthesis of Ultrastable Fluorescent Copper Nanoclusters and Their Cellular Imaging Application

Author

Wei Yan, Jianqiao Zhang, Muhammad Abbas, Yulian Li, Syed Zajif Hussain, Shazia Mumtaz, Zhengwei Song, Irshad Hussain, and Bien Tan

Subjects

copper nanoclusters, glutathione, cellular imaging, fluorescence, Chemistry, QD1-999

Abstract

Copper nanoclusters (Cu NCs) are generally formed by several to dozens of atoms. Because of wide range of raw materials and cheap prices, Cu NCs have attracted scientists’ special attention. However, Cu NCs tend to undergo oxidation easily. Thus, there is a dire need to develop a synthetic protocol for preparing fluorescent Cu NCs with high QY and better stability. Herein, we report a one-step method for preparing stable blue-green fluorescent copper nanoclusters using glutathione (GSH) as both a reducing agent and a stabilizing agent. High-resolution transmission electron microscopy (HRTEM), X-ray photoelectron spectroscopy (XPS) and electrospray ionization mass spectrometer (ESI-MS) were used to characterize the resulting Cu NCs. The as-prepared Cu NCs@GSH possess an ultrasmall size (2.3 ± 0.4 nm), blue-green fluorescence with decent quantum yield (6.2%) and good stability. MTT results clearly suggest that the Cu NCs@GSH are biocompatible. After incubated with EB-labeled HEK293T cells, the Cu NCs mainly accumulated in nuclei of the cells, suggesting that the as-prepared Cu NCs could potentially be used as the fluorescent probe for applications in cellular imaging.

Published

2020

17. Tracking a Decentralized Linear Trajectory in an Intermittent Observation Environment

Author

Wasi Ullah, Irshad Hussain, Iram Shehzadi, Zahid Rahman, and Peerapong Uthansakul

Subjects

decentralized cyber-physical system, linear trajectory, fault detection and isolation (FDI) algorithms, Kalman filter, tracking, sensor network, Chemical technology, TP1-1185

Abstract

Faults and failures are familiar case studies in centralized and decentralized tracking systems. The processing of sensor data becomes more severe in the presence of faults/failures and/or noise. Effective schemes have been presented for decentralized systems, in the presence of faults only. In some practical scenarios of systems, there are certain interruptions in addition to these faults. These interruptions may occur in the form of noise. However it is expected that the decision about the sensor data is difficult in the presence of noise. This is because the noise adversely affects the communication amongst sensors and the processing unit. More complexity is expected when there are faults and noise simultaneously. To deal with this problem, in addition to existing fault detection and isolation schemes, the Kalman filter is employed. Here, a generic discussion is provided, which is equally applicable to other situations. This work addresses various faults in the presence of noise for decentralized tracking systems. Local single faults and multiple faults in the presence of noise are the core issues addressed in this paper. The proposed work is comprised of a general scenario for a decentralized tracking system followed by a case study of a target tracking scenario with and without noise. The presented schemes are also tested for different types of faults. The proposed work presents effective tracking in the presence of noise and faults. The results obtained demonstrate the acceptable performance of the scheme of this work.

Published

2020

18. Exploiting Multi-Verse Optimization and Sine-Cosine Algorithms for Energy Management in Smart Cities

Author

Ibrar Ullah, Irshad Hussain, Peerapong Uthansakul, M. Riaz, M. Naeem Khan, and Jaime Lloret

Subjects

cost minimization, energy management system, multi-verse optimization algorithm, sine-cosine algorithm, smart universities, smart grid, scheduling, Technology, Engineering (General). Civil engineering (General), TA1-2040, Biology (General), QH301-705.5, Physics, QC1-999, Chemistry, QD1-999

Abstract

Due to the rapid increase in human population, the use of energy in daily life is increasing day by day. One solution is to increase the power generation in the same ratio as the human population increase. However, that is usually not possible practically. Thus, in order to use the existing resources of energy efficiently, smart grids play a significant role. They minimize electricity consumption and their resultant cost through demand side management (DSM). Universities and similar organizations consume a significant portion of the total generated energy; therefore, in this work, using DSM, we scheduled different appliances of a university campus to reduce the consumed energy cost and the probable peak to average power ratio. We have proposed two nature-inspired algorithms, namely, the multi-verse optimization (MVO) algorithm and the sine-cosine algorithm (SCA), to solve the energy optimization problem. The proposed schemes are implemented on a university campus load, which is divided into two portions, morning session and evening session. Both sessions contain different shiftable and non-shiftable appliances. After scheduling of shiftable appliances using both MVO and SCA techniques, the simulations showed very useful results in terms of energy cost and peak to average ratio reduction, maintaining the desired threshold level between electricity cost and user waiting time.

Published

2020

19. Synthesis of Silver Nano Particles Using Myricetin and the In-Vitro Assessment of Anti-Colorectal Cancer Activity: In-Silico Integration

Author

Anwer, Syed Tauqeer, primary, Mobashir, Mohammad, additional, Fantoukh, Omer I., additional, Khan, Bushra, additional, Imtiyaz, Khalid, additional, Naqvi, Irshad Hussain, additional, and Rizvi, M. Moshahid Alam, additional

Published

2022

20. Mediating Role of Entrepreneurial Work-Related Strains and Work Engagement among Job Demand–Resource Model and Success

Author

Qifan Wang, Sajjad Nawaz Khan, Muhammad Sajjad, Irshad Hussain Sarki, and Muhammad Noman Yaseen

Subjects

entrepreneurial job resources, work engagement, entrepreneurial job demands, Renewable Energy, Sustainability and the Environment, Geography, Planning and Development, work-related strain, entrepreneur success, Building and Construction, Management, Monitoring, Policy and Law

Abstract

Post-COVID-19 working conditions have been the primary reason behind increased stress among business owners. There is an ever-rising need for entrepreneurial work engagement in their jobs to mitigate the increased entrepreneurial work pressures caused by uncontrolled digitization, enhanced consumer power, and brutal competition. Therefore, this study intends to respond to the existing practical and empirical gaps by investigating the relationships between entrepreneurial job demands (EJD), work-related stress, entrepreneurial job resources (EJR), and entrepreneurial work engagement (WE) for their role in generating entrepreneurial success (ES), especially in the Chinese context. It also tested the mediating role of work-related stress and entrepreneurial work engagement on the relationship between job demands, job resources, and entrepreneurial success. Structured questionnaires were circulated among the targeted respondents (i.e., business owners across China) using quantitative techniques, followed by PLS-SEM for data analysis, as these are the best-suited techniques, considering the context and time constraints. The results verified the impact of job demands on work-related strain, followed by the inverse direct impact of work-related strain on entrepreneurial success. This study found the significant impact of entrepreneurial job resources on entrepreneurial work engagement, followed by the positive impact of WE on entrepreneurial success. Likewise, work engagement’s mediating role was validated, while work-related strain could only negatively mediate the relationship between EJD and ES. Likewise, this study has practical and empirical implications for practitioners and researchers to be mindful of their employees’ emotional states by providing sufficient resources and psychological interventions to ensure business success.

Published

2023

21. A Fortunate Refining Trip Recommendation Model

Author

Rizwan Abbas, Gehad Abdullah Amran, Ahmed A. Abdulraheem, Irshad Hussain, Rania M. Ghoniem, and Ahmed A. Ewees

Subjects

Computer Networks and Communications, Hardware and Architecture, Control and Systems Engineering, Signal Processing, Electrical and Electronic Engineering, trip recommendation, dynamic trip, location-based social networks, LOI sequence recommendation

Abstract

Personalized travel recommendations propose locations of interest (LOIs) for users. The LOI sequence suggestion is more complicated than a single LOI recommendation. Only a few studies have considered LOI sequence recommendations. Creating a reliable succession of LOIs is difficult. The two LOIs that follow each other should not be identical or from the same category. It is vital to examine the types of subsequent LOIs when designing a sequence of LOIs. Another issue is that providing precise and accurate location recommendations bores users. It can be tedious and monotonous to look at the same types of LOIs repeatedly. Users may want to change their plans in the middle of a trip. The trip must be dynamic rather than static. To address these concerns in the recommendations, organize a customized journey by looking for continuity, implications, innovation, and surprising (i.e., high levels of amusement) LOIs. We use LOI-likeness and category differences between subsequent LOIs to build sequential LOIs. In our travel recommendations, we leveraged luck and dynamicity. We suggest a fortunate refining trip recommendation (FRTR) to address the issues of identifying and rating user pleasure. An algorithm oof compelling recommendation should offer what we are likely to enjoy and provide spontaneous yet objective components to maintain an open doorway to new worlds and discoveries. In addition, two advanced novel estimations are presented to examine the recommended precision of a sequence of LOIs: regulated precision (RP) and pattern precision (PP). They consider the consistency and order of the LOIs. We tested our strategy using data from a real-world dataset and user journey records from Foursquare dataset. We show that our system outperforms other recommendation algorithms to meet the travel interests of users.

Published

2022

22. Design and Utility of Metal/Metal Oxide Nanoparticles Mediated by Thioether End-Functionalized Polymeric Ligands

Author

Shumaila Razzaque, Syed Zajif Hussain, Irshad Hussain, and Bien Tan

Subjects

thioether end functionalized polymeric ligands, metal/metal oxide nanoparticles, fluorescent metal nanoclusters, drug delivery, magnetic resonance imaging (MRI), biosensing, Organic chemistry, QD241-441

Abstract

The past few decades have witnessed significant advances in the development of functionalized metal/metal oxide nanoparticles including those of inorganic noble metals and magnetic materials stabilized by various polymeric ligands. Recent applications of such functionalized nanoparticles, including those in bio-imaging, sensing, catalysis, drug delivery, and other biomedical applications have triggered the need for their facile and reproducible preparation with a better control over their size, shape, and surface chemistry. In this perspective, the multidentate polymer ligands containing functional groups like thiol, thioether, and ester are important surface ligands for designing and synthesizing stable nanoparticles (NPs) of metals or their oxides with reproducibility and high yield. These ligands have offered an unprecedented control over the particle size of both nanoparticles and nanoclusters with enhanced colloidal stability, having tunable solubility in aqueous and organic media, and tunable optical, magnetic, and fluorescent properties. This review summarizes the synthetic methodologies and stability of nanoparticles and fluorescent nanoclusters of metals (Au, Ag, Cu, Pt, and other transition metal oxides) prepared by using thioether based ligands and highlights their applications in bio-imaging, sensing, drug delivery, magnetic resonance imaging (MRI), and catalysis. The future applications of fluorescent metal NPs like thermal gradient optical imaging, single molecule optoelectronics, sensors, and optical components of the detector are also envisaged.

Published

2016

23. Effect of Flavonoid-Coated Gold Nanoparticles on Bacterial Colonization in Mice Organs

Author

Tahreem Tanweer, Sundus Riaz, Hussnain Ahmed Janjua, Afrah Nawaz, Nosheen Fatima Rana, Ayesha Naeem, Farid Menaa, Syed Mohsin Ali, Irshad Hussain, Amna Batool, Tahseen Alam, and Maryam Hameed

Subjects

Berberis lycium, Biocompatibility, General Chemical Engineering, Flavonoid, 02 engineering and technology, infectious diseases, Article, Enterococcus faecalis, Microbiology, lcsh:Chemistry, 03 medical and health sciences, General Materials Science, chemistry.chemical_classification, 0303 health sciences, biology, 030306 microbiology, Chemistry, 021001 nanoscience & nanotechnology, biology.organism_classification, Multiple drug resistance, lcsh:QD1-999, Colloidal gold, Drug delivery, flavonoids, drug delivery, Nanocarriers, 0210 nano-technology, Bacteria

Abstract

Multidrug resistance (MDR) has been a potentiator for the exploration of antibiotics. Nano drug delivery systems have opened new avenues to overcome this challenge. Although antibacterial nanocarriers are extensively realized, their effect on the bacteria residing inside the tissues and their toxicity is rarely explored. This study investigated the effects of flavonoid coated gold nanoparticles (FAuNPs) on the colonization of Enterococcus faecalis in the mouse liver and kidneys. Flavonoids were extracted from the leaves of Berberis lycium Royle and used to stabilize gold following a green synthesis approach. FAuNPs were characterized by ultraviolet-visible (UV-Vis) spectroscopy, Fourier-transform infrared spectroscopy (FTIR), scanning transmission electron microscopy (STEM), X-ray powder diffraction (XRD), and energy-dispersive X-ray spectroscopy (EDS). FAuNPs showed significantly higher reduction in bacterial counts in in-vitro and in-vivo in mice organs as compared to the free flavonoids owing to their biocompatibility and effectiveness.

Published

2020

24. Exploiting Multi-Verse Optimization and Sine-Cosine Algorithms for Energy Management in Smart Cities

Author

Peerapong Uthansakul, Ibrar Ullah, Irshad Hussain, M. Naeem Khan, M. Riaz, and Jaime Lloret

Subjects

Energy management, Computer science, 020209 energy, Population, Multi-verse optimization algorithm, Smart grid, 02 engineering and technology, lcsh:Technology, Scheduling (computing), lcsh:Chemistry, 0202 electrical engineering, electronic engineering, information engineering, General Materials Science, Energy management system, education, lcsh:QH301-705.5, Instrumentation, Fluid Flow and Transfer Processes, Smart universities, education.field_of_study, lcsh:T, Scheduling, business.industry, Process Chemistry and Technology, 020208 electrical & electronic engineering, Sine-cosine algorithm, General Engineering, Cost minimization, lcsh:QC1-999, Computer Science Applications, Electricity generation, lcsh:Biology (General), lcsh:QD1-999, lcsh:TA1-2040, Electricity, lcsh:Engineering (General). Civil engineering (General), business, Algorithm, lcsh:Physics, Energy (signal processing)

Abstract

Due to the rapid increase in human population, the use of energy in daily life is increasing day by day. One solution is to increase the power generation in the same ratio as the human population increase. However, that is usually not possible practically. Thus, in order to use the existing resources of energy efficiently, smart grids play a significant role. They minimize electricity consumption and their resultant cost through demand side management (DSM). Universities and similar organizations consume a significant portion of the total generated energy, therefore, in this work, using DSM, we scheduled different appliances of a university campus to reduce the consumed energy cost and the probable peak to average power ratio. We have proposed two nature-inspired algorithms, namely, the multi-verse optimization (MVO) algorithm and the sine-cosine algorithm (SCA), to solve the energy optimization problem. The proposed schemes are implemented on a university campus load, which is divided into two portions, morning session and evening session. Both sessions contain different shiftable and non-shiftable appliances. After scheduling of shiftable appliances using both MVO and SCA techniques, the simulations showed very useful results in terms of energy cost and peak to average ratio reduction, maintaining the desired threshold level between electricity cost and user waiting time.

Published

2020

25. Optimizing Energy Consumption in the Home Energy Management System via a Bio-Inspired Dragonfly Algorithm and the Genetic Algorithm

Author

Majid Ullah, Asima Bibi, Madhusudan Singh, Irshad Hussain, Muhammad Naeem, Dhananjay Singh, and Ibrar Ullah

Subjects

smart meter, Computer Networks and Communications, Computer science, Smart meter, energy management system, 020209 energy, Energy resources, Population, Real-time computing, lcsh:TK7800-8360, traditional grid, 02 engineering and technology, Demand response, Load management, genetic algorithm, 0202 electrical engineering, electronic engineering, information engineering, dragonfly algorithm, Electrical and Electronic Engineering, smart grid, education, peak to average ratio, education.field_of_study, demand side management, lcsh:Electronics, 020208 electrical & electronic engineering, Energy consumption, energy management controller, Grid, Energy management system, Smart grid, demand response, Hardware and Architecture, Control and Systems Engineering, Signal Processing, optimization

Abstract

Due to the exponential increase in the human population of this bio-sphere, energy resources are becoming scarce. Because of the traditional methods, most of the generated energy is wasted every year in the distribution network and demand side. Therefore, researchers all over the world have taken a keen interest in this issue and finally introduced the concept of the smart grid. Smart grid is an ultimate solution to all of the energy related problems of today&rsquo, s modern world. In this paper, we have proposed a meta-heuristic optimization technique called the dragonfly algorithm (DA). The proposed algorithm is to a real-world problem of single and multiple smart homes. In our system model, two classes of appliances are considered, Shiftable appliances and Non-shiftable appliances. Shiftable appliances play a significant role in demand side load management because they can be scheduled according to real time pricing (RTP) signal from utility, while non-shiftable appliances are not much important in load management, as these appliances are fixed and cannot be scheduled according to RTP. On behalf of our simulation results, it can be concluded that our proposed algorithm DA has achieved minimum electricity cost with a tolerable waiting time. There is a trade-off between electricity cost and waiting time because, with a decrease in electricity cost, waiting time increases and vice versa. This trade-off is also obtained by our proposed algorithm DA. The stability of the grid is also maintained by our proposed algorithm DA because stability of the grid depends on peak-to-average ratio (PAR), while PAR is reduced by DA in comparison with an unscheduled case.

Published

2020

26. Exploiting Grasshopper and Cuckoo Search Bio-Inspired Optimization Algorithms for Industrial Energy Management System: Smart Industries

Author

Madhusudan Singh, Ibrar Ullah, and Irshad Hussain

Subjects

Schedule, Computer Networks and Communications, Heuristic (computer science), Computer science, energy management system, 020209 energy, Energy resources, lcsh:TK7800-8360, 02 engineering and technology, Scheduling (computing), bio-inspired heuristic algorithms, cuckoo search optimization algorithm, 0202 electrical engineering, electronic engineering, information engineering, Electrical and Electronic Engineering, smart grid, Cuckoo search, grasshopper optimization algorithm, lcsh:Electronics, 020208 electrical & electronic engineering, Industrial engineering, Energy management system, Smart grid, Hardware and Architecture, Control and Systems Engineering, Signal Processing, Efficient energy use

Abstract

Industries are consuming more than 27% of the total generated energy in the world, out of which 50% is used by different machines for processing, producing, and assembling various goods. Energy shortage is a major issue of this biosphere. To overcome energy scarcity, a challenging task is to have optimal use of existing energy resources. An efficient and effective mechanism is essential to optimally schedule the load units to achieve three objectives: minimization of the consumed energy cost, peak-to-average power ratio, and consumer waiting time due to scheduling of the load. To achieve the aforementioned objectives, two bio-inspired heuristic techniques&mdash, Grasshopper-Optimization Algorithm and Cuckoo Search Optimization Algorithm&mdash, are analyzed and simulated for efficient energy use in an industry. We considered a woolen mill as a case study, and applied our algorithms on its different load units according to their routine functionality. Then we scheduled these load units by proposing an efficient energy management system (EMS). We assumed automatic operating machines and day-ahead pricing schemes in our EMS.

Published

2020

27. Fast Computation of Integrals with Fourier-Type Oscillator Involving Stationary Point

Author

Irshad Hussain, Dhananjay Singh, and Sakhi Zaman

Subjects

Physics::Computational Physics, Chebyshev–Levin quadrature, Chebyshev differentiation matrix, General Mathematics, Computation, Mathematical analysis, Order (ring theory), 010103 numerical & computational mathematics, 02 engineering and technology, Type (model theory), 01 natural sciences, Stationary point, Mathematics::Numerical Analysis, adaptive splitting algorithm, symbols.namesake, multi-resolution quadratures, Fourier transform, Collocation method, 0202 electrical engineering, electronic engineering, information engineering, Computer Science (miscellaneous), symbols, 020201 artificial intelligence & image processing, 0101 mathematics, Engineering (miscellaneous), Mathematics

Abstract

An adaptive splitting algorithm was implemented for numerical evaluation of Fourier-type highly oscillatory integrals involving stationary point. Accordingly, a modified Levin collocation method was coupled with multi-resolution quadratures in order to tackle the stationary point and irregular oscillations of the integrand caused by &omega, Some test problems are included to verify the accuracy of the proposed methods.

Published

2019