Your search keyword '"Hassan Malik"' showing total 10 results

1. Variation in archaeal and bacterial community profiles and their functional metabolic predictions under the influence of pure and mixed fertilizers in paddy soil

Author

Muhammad Mubashar Hassan, Noshaba Hassan Malik, Nicola Lorenz, Richard P. Dick, Naeem Ali, Humaira Yasmin, Abdulaziz Abdullah Alsahli, Mohsin Gulzar Barq, and Asim Shahzad

Subjects

Microcosm, Thaumarchaeota, biology, Firmicutes, Chemistry, QH301-705.5, PICRUSt, biology.organism_classification, Soil quality, Actinobacteria, Paddy soil, Methane metabolism, Soil pH, NPK fertilizers, Gemmatimonadetes, Original Article, High throughput sequencing, Food science, Proteobacteria, Biology (General), General Agricultural and Biological Sciences, Acidobacteria, ComputingMethodologies_COMPUTERGRAPHICS

Abstract

Graphical abstract, Impact of environmental perturbations i.e., nitrogen (N), phosphorus (P), potassium (K), and rice straw (Rs) on the dynamics of soil bacterial and archaeal communities are multifactor dependent and seeks a contemporary approach to study underlying mechanisms. The current study investigates the effect of pure and mixed fertilizers on soil physicochemical properties, the microbial community structure, and their functional metabolic predictions. It involved amendments with distinct combinations of N as C(H2N)2O, P and K as KH2PO4, K as KCl, and Rs in paddy soil microcosms with concentrations common in rice fields agriculture. Soil pH, electrical conductivity (EC), total carbon (TC), total nitrogen (TN), organic matter (OM), available K (AK), and total extractable P (TEP) were evaluated. To comprehend community variation and functional predictions, 16S rRNA-based high throughput sequencing (HTS) and phylogenetic investigation of communities by reconstruction of unobserved states (PICRUSt) were employed, respectively. Our findings showed enhanced community richness and diversity in all amendments compared to control. Proteobacteria, Actinobacteria, and Firmicutes were dominant bacterial phyla. Regarding relative abundance, Chloroflexi, Bacteroidetes, and Verrucomicrobia showed positive while Actinobacteria, Acidobacteria, and Gemmatimonadetes showed negative trends compared to controls. Thaumarchaeota and Euryarchaeota were dominant archaeal phyla and exhibited increasing and decreasing trends, respectively. The PICRUSt analysis indicated functional prediction more towards amino acid, carbohydrate, energy, and lipid metabolism while less towards others. Concerning energy metabolism, most and least responsive treatments were KP and controls, respectively. These outcomes enhanced our understanding regarding soil quality, fertilizer composition and application, and functional metabolomics of archaea and bacteria.

Published

2021

2. First dual 12-bit DACs in SO-8

Author

Kevin R. Hoskins and Hassan Malik

Subjects

12-bit, law, business.industry, Computer science, Digital-to-analog converter, DUAL (cognitive architecture), Converters, business, Computer hardware, law.invention

Abstract

The LTC1446 and LTC1446L digital-to-analog converters that offer dual 12-bit standalone performance in an 8-pin SO or PDIP package are described.

Published

2015

3. 3V and 5V 12-bit rail-to-rail micropower DACs combine flexibility and performance

Author

Hassan Malik and Roger Zemke

Subjects

ComputingMilieux_GENERAL, Flexibility (engineering), Computer science, 12-bit, law, Electronic engineering, Digital-to-analog converter, Micropower, Hardware_ARITHMETICANDLOGICSTRUCTURES, Converters, law.invention

Abstract

The LTC1450 and LTC1450L, 3V and 5V 12-bit rail-to-rail micropower digital-to-analog converters that combine flexibility and performance, are described.

Published

2015

4. 12-bit rail-to-rail micropower dacs in an SO-8

Author

Hassan Malik and Jim Brubaker

Subjects

ComputingMilieux_GENERAL, law, 12-bit, Computer science, Hardware_INTEGRATEDCIRCUITS, Digital-to-analog converter, Electronic engineering, Micropower, Hardware_ARITHMETICANDLOGICSTRUCTURES, Converters, Voltage, law.invention

Abstract

The LTC1451, LTC1452 and LTC1453, complete, single supply, rail-to-rail voltage output 12-bit digital-to-analog (DAC) converters, are described.

Published

2015

5. New quasi-Newton methods via higher order tensor models.

Author

Biglari, Fahmeh, Abu Hassan, Malik, Leong, Wah June, Biglari, Fahmeh, Abu Hassan, Malik, and Leong, Wah June

Abstract

Many researches attempt to improve the efficiency of the usual quasi-Newton (QN) methods by accelerating the performance of the algorithm without causing more storage demand. They aim to employ more available information from the function values and gradient to approximate the curvature of the objective function. In this paper we derive a new QN method of this type using a fourth order tensor model and show that it is superior with respect to the prior modification of Wei et al. (2006) [4]. Convergence analysis gives the local convergence property of this method and numerical results show the advantage of the modified QN method.

Published

2011

6. A symmetric rank-one method based on extra updating techniques for unconstrained optimization.

Author

Modarres, Farzin, Abu Hassan, Malik, Leong, Wah June, Modarres, Farzin, Abu Hassan, Malik, and Leong, Wah June

Abstract

In this paper, we present a new symmetric rank-one (SR1) method for the solution of unconstrained optimization problems. The proposed method involves an algorithm in which the usual SR1 Hessian is updated a number of times in a way to be specified in some iterations, to improve the performance of the Hessian approximation. In particular, we discuss how to consider a criterion for indicating at each iteration whether it is necessary to employ extra updates. However it is well known that there are some theoretical difficulties when applying the SR1 update. Even for a current positive definite Hessian approximation, it is possible that the SR1 update may not be defined or the SR1 update may not preserve positive definiteness at some iterations. We then employ a restarting procedure that guarantees that updated matrices will be well-defined while preserving positive definiteness of updates. Numerical results support these theoretical considerations. They show that the implementation of the SR1 method using extra updating techniques improves the performance of the SR1 method substantially for a number of test problems from the literature.

Published

2011

7. A matrix-free quasi-Newton method for solving large-scale nonlinear systems.

Author

Leong, Wah June, Abu Hassan, Malik, Yusuf, Muhammad Waziri, Leong, Wah June, Abu Hassan, Malik, and Yusuf, Muhammad Waziri

Abstract

One of the widely used methods for solving a nonlinear system of equations is the quasi-Newton method. The basic idea underlining this type of method is to approximate the solution of Newton’s equation by means of approximating the Jacobian matrix via quasi-Newton update. Application of quasi-Newton methods for large scale problems requires, in principle, vast computational resource to form and store an approximation to the Jacobian matrix of the underlying problem. Hence, this paper proposes an approximation for Newton-step based on the update of approximation requiring a computational effort similar to that of matrix-free settings. It is made possible by approximating the Jacobian into a diagonal matrix using the least-change secant updating strategy, commonly employed in the development of quasi-Newton methods. Under suitable assumptions, local convergence of the proposed method is proved for nonsingular systems. Numerical experiments on popular test problems confirm the effectiveness of the approach in comparison with Newton’s, Chord Newton’s and Broyden’s methods.

Published

2011

8. Improved Hessian approximations with modified secant equations for symmetric rank-one method

Author

Modarres, Farzin, Abu Hassan, Malik, Leong, Wah June, Modarres, Farzin, Abu Hassan, Malik, and Leong, Wah June

Abstract

Symmetric rank-one (SR1) is one of the competitive formulas among the quasi-Newton (QN) methods. In this paper, we propose some modified SR1 updates based on the modified secant equations, which use both gradient and function information. Furthermore, to avoid the loss of positive definiteness and zero denominators of the new SR1 updates, we apply a restart procedure to this update. Three new algorithms are given to improve the Hessian approximation with modified secant equations for the SR1 method. Numerical results show that the proposed algorithms are very encouraging and the advantage of the proposed algorithms over the standard SR1 and BFGS updates is clearly observed.

Published

2011

9. Scaled memoryless symmetric rank one method for large-scale optimization.

Author

Leong, Wah June, Abu Hassan, Malik, Leong, Wah June, and Abu Hassan, Malik

Abstract

This paper concerns the memoryless quasi-Newton method, that is precisely the quasi-Newton method for which the approximation to the inverse of Hessian, at each step, is updated from the identity matrix. Hence its search direction can be computed without the storage of matrices. In this paper, a scaled memoryless symmetric rank one (SR1) method for solving large-scale unconstrained optimization problems is developed. The basic idea is to incorporate the SR1 update within the framework of the memoryless quasi-Newton method. However, it is well-known that the SR1 update may not preserve positive definiteness even when updated from a positive definite matrix. Therefore we propose the memoryless SR1 method, which is updated from a positive scaled of the identity, where the scaling factor is derived in such a way that positive definiteness of the updating matrices are preserved and at the same time improves the condition of the scaled memoryless SR1 update. Under very mild conditions it is shown that, for strictly convex objective functions, the method is globally convergent with a linear rate of convergence. Numerical results show that the optimally scaled memoryless SR1 method is very encouraging.

Published

2011

10. Detecting twitter hate speech in COVID-19 era using machine learning and ensemble learning techniques

Author

Akib Mohi Ud Din Khanday, Syed Tanzeel Rabani, Qamar Rayees Khan, and Showkat Hassan Malik

Subjects

COVID-19, Social networks, Misinformation, Hate speech, Machine leaning, Ensemble learning, Information technology, T58.5-58.64

Abstract

The COVID-19 pandemic has impacted every nation, and social isolation is the major protective method for the coronavirus. People express themselves via Facebook and Twitter. People disseminate disinformation and hate speech on Twitter. This research seeks to detect hate speech using machine learning and ensemble learning techniques during COVID-19. Twitter data was extracted from using its API with the help of trending hashtags during the COVID-19 pandemic. Tweets were manually annotated into two categories based on different factors. Features are extracted using TF/IDF, Bag of Words and Tweet Length. The study found the Decision Tree classifier to be effective. Compared to other typical ML classifiers, it has 98% precision, 97% recall, 97% F1-Score, and 97% accuracy. The Stochastic Gradient Boosting classifier outperforms all others with 99 percent precision, 97 percent recall, 98 percent F1-Score, and 98.04 percent accuracy.

Published

2022