Your search keyword '"Shehzadi A."' showing total 1,871 results

1. Beta decay and electron capture rates on manganese isotopes in astrophysical environments

Author

Shehzadi, R., Nabi, J. -U., and Farooq, F.

Subjects

Nuclear Theory, Astrophysics - Solar and Stellar Astrophysics

Abstract

The isotopes of manganese in the mass range A equal to 53 to 63 are abundant in the core material of high mass stars and are believed to be of prime importance in the progression of the pre collapse phases. During these late evolutionary phases, nuclear processes associated with weak interactions, including decay and electron capture (EC) on these isotopes, significantly alter the Ye (lepton to baryon ratio) of the cores composition. The temporal change of this parameter is one of the basic elements to simulate a successful explosion. Hence, the decay and EC rates of manganese (Mn) nuclides may serve as an important input in the simulation codes of core collapse supernova. In this paper, we focus on the study of the weak decay characteristics of 55 63Mn nuclides. The strength distributions of Gamow Teller transitions in the directions of decay and EC for these isotopes were calculated employing the proton neutron quasi particle random phase approximation (pn QRPA) model. The decay half life values of Mn isotopes under terrestrial conditions were computed and compared with measured data and previous calculations. The pn QRPA estimated half lives are in good agreement with the experimental values. The and EC rates were later calculated covering a large range of stellar temperatures (001 30) 109 K and densities (10 1011) g/cm3., Comment: 26 Pages, 5 Table, 5 Figures

Published

2025

2. Validity of Brink Axel Hypothesis for calculations of allowed stellar weak rates of heavy nuclei

Author

Farooq, Fakeha, Nabi, Jameel-Un, and Shehzadi, Ramoona

Subjects

Nuclear Theory, Astrophysics - Solar and Stellar Astrophysics

Abstract

The knowledge of beta decay transitional probabilities and GamowTeller (GT) strength functions from highly excited states of nuclides is of particular importance for applications to astrophysical network calculations of nucleosynthesis in explosive stellar events. These quantities are challenging to achieve from measurements or computations using various nuclear models. Due to unavailability of feasible alternatives, many theoretical studies often rely on the Brink Axel (BA) hypothesis, that is, the response of strength functions depends merely on the transition energy of the parent nuclear ground state and is independent of the underlying details of the parent state, for the calculation of stellar rates. BA hypothesis has been used in many applications from nuclear structure determination to nucleosynthesis yield in the astrophysical matter., Comment: 29 Pages, 8Figures 5 Tables

Published

2024

3. Impact of the Brink Axel Hypothesis on Unique First Forbidden \b{eta} transitions for r process nuclei

Author

Farooq, Fakeha, Nabi, Jameel-Un, and Shehzadi, Ramoona

Subjects

Astrophysics - Solar and Stellar Astrophysics, Nuclear Theory

Abstract

Key nuclear inputs for the astrophysical r process simulations are the weak interaction rates. Consequently, the accuracy of these inputs directly affects the reliability of nucleosynthesis modeling. Majority of the stellar rates, used in simulation studies, are calculated invoking the Brink Axel (BA) hypothesis. The BA hypothesis assumes that the strength functions of all parent excited states are the same as for the ground state, only shifted in energies. However, BA hypothesis has to be tested against microscopically calculated state by state rates. In this project we study the impact of the BA hypothesis on calculated stellar \b{eta} decay and electron capture rates. Our investigation include both Unique First Forbidden (U1F) and allowed transitions for 106 neutron rich trans iron nuclei ([27, 77] less than equal to [Z, A] less than equal to [82, 208]). The calculations were performed using the deformed proton-neutron quasiparticle randomphase approximation (pn QRPA) model with a simple plus quadrupole separable and schematic interaction. Waiting-point and several key r process nuclei lie within the considered mass region of the nuclear chart., Comment: 33 pages, 6 Tables, 8 Figures

Published

2024

4. Classroom-Inspired Multi-Mentor Distillation with Adaptive Learning Strategies

Author

Sarode, Shalini, Khan, Muhammad Saif Ullah, Shehzadi, Tahira, Stricker, Didier, and Afzal, Muhammad Zeshan

Subjects

Computer Science - Computer Vision and Pattern Recognition, I.2.6

Abstract

We propose ClassroomKD, a novel multi-mentor knowledge distillation framework inspired by classroom environments to enhance knowledge transfer between student and multiple mentors. Unlike traditional methods that rely on fixed mentor-student relationships, our framework dynamically selects and adapts the teaching strategies of diverse mentors based on their effectiveness for each data sample. ClassroomKD comprises two main modules: the Knowledge Filtering (KF) Module and the Mentoring Module. The KF Module dynamically ranks mentors based on their performance for each input, activating only high-quality mentors to minimize error accumulation and prevent information loss. The Mentoring Module adjusts the distillation strategy by tuning each mentor's influence according to the performance gap between the student and mentors, effectively modulating the learning pace. Extensive experiments on image classification (CIFAR-100 and ImageNet) and 2D human pose estimation (COCO Keypoints and MPII Human Pose) demonstrate that ClassroomKD significantly outperforms existing knowledge distillation methods. Our results highlight that a dynamic and adaptive approach to mentor selection and guidance leads to more effective knowledge transfer, paving the way for enhanced model performance through distillation.

Published

2024

5. Semi-Supervised Object Detection: A Survey on Progress from CNN to Transformer

Author

Shehzadi, Tahira, Ifza, Stricker, Didier, and Afzal, Muhammad Zeshan

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

The impressive advancements in semi-supervised learning have driven researchers to explore its potential in object detection tasks within the field of computer vision. Semi-Supervised Object Detection (SSOD) leverages a combination of a small labeled dataset and a larger, unlabeled dataset. This approach effectively reduces the dependence on large labeled datasets, which are often expensive and time-consuming to obtain. Initially, SSOD models encountered challenges in effectively leveraging unlabeled data and managing noise in generated pseudo-labels for unlabeled data. However, numerous recent advancements have addressed these issues, resulting in substantial improvements in SSOD performance. This paper presents a comprehensive review of 27 cutting-edge developments in SSOD methodologies, from Convolutional Neural Networks (CNNs) to Transformers. We delve into the core components of semi-supervised learning and its integration into object detection frameworks, covering data augmentation techniques, pseudo-labeling strategies, consistency regularization, and adversarial training methods. Furthermore, we conduct a comparative analysis of various SSOD models, evaluating their performance and architectural differences. We aim to ignite further research interest in overcoming existing challenges and exploring new directions in semi-supervised learning for object detection.

Published

2024

6. Unveiling the Psychedelic Journey: An Appraisal of Psilocybin as a Profound Antidepressant Therapy

Author

Shah, Fatima Iftikhar, Shehzadi, Somia, Akram, Fatima, Haq, Ikram ul, Javed, Benish, Sabir, Sadeed, Kazim, Yasha, and Ashfaq, Sehrish

Published

2025

7. Enhanced Bank Check Security: Introducing a Novel Dataset and Transformer-Based Approach for Detection and Verification

Author

Khan, Muhammad Saif Ullah, Shehzadi, Tahira, Noor, Rabeya, Stricker, Didier, and Afzal, Muhammad Zeshan

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

Automated signature verification on bank checks is critical for fraud prevention and ensuring transaction authenticity. This task is challenging due to the coexistence of signatures with other textual and graphical elements on real-world documents. Verification systems must first detect the signature and then validate its authenticity, a dual challenge often overlooked by current datasets and methodologies focusing only on verification. To address this gap, we introduce a novel dataset specifically designed for signature verification on bank checks. This dataset includes a variety of signature styles embedded within typical check elements, providing a realistic testing ground for advanced detection methods. Moreover, we propose a novel approach for writer-independent signature verification using an object detection network. Our detection-based verification method treats genuine and forged signatures as distinct classes within an object detection framework, effectively handling both detection and verification. We employ a DINO-based network augmented with a dilation module to detect and verify signatures on check images simultaneously. Our approach achieves an AP of 99.2 for genuine and 99.4 for forged signatures, a significant improvement over the DINO baseline, which scored 93.1 and 89.3 for genuine and forged signatures, respectively. This improvement highlights our dilation module's effectiveness in reducing both false positives and negatives. Our results demonstrate substantial advancements in detection-based signature verification technology, offering enhanced security and efficiency in financial document processing., Comment: Accepted for publication in 16th IAPR International Workshop on Document Analysis Systems 2024

Published

2024

8. UnSupDLA: Towards Unsupervised Document Layout Analysis

Author

Sheikh, Talha Uddin, Shehzadi, Tahira, Hashmi, Khurram Azeem, Stricker, Didier, and Afzal, Muhammad Zeshan

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

Document layout analysis is a key area in document research, involving techniques like text mining and visual analysis. Despite various methods developed to tackle layout analysis, a critical but frequently overlooked problem is the scarcity of labeled data needed for analyses. With the rise of internet use, an overwhelming number of documents are now available online, making the process of accurately labeling them for research purposes increasingly challenging and labor-intensive. Moreover, the diversity of documents online presents a unique set of challenges in maintaining the quality and consistency of these labels, further complicating document layout analysis in the digital era. To address this, we employ a vision-based approach for analyzing document layouts designed to train a network without labels. Instead, we focus on pre-training, initially generating simple object masks from the unlabeled document images. These masks are then used to train a detector, enhancing object detection and segmentation performance. The model's effectiveness is further amplified through several unsupervised training iterations, continuously refining its performance. This approach significantly advances document layout analysis, particularly precision and efficiency, without labels., Comment: ICDAR 2024 - Workshop

Published

2024

9. End-to-End Semi-Supervised approach with Modulated Object Queries for Table Detection in Documents

Author

Ehsan, Iqraa, Shehzadi, Tahira, Stricker, Didier, and Afzal, Muhammad Zeshan

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

Table detection, a pivotal task in document analysis, aims to precisely recognize and locate tables within document images. Although deep learning has shown remarkable progress in this realm, it typically requires an extensive dataset of labeled data for proficient training. Current CNN-based semi-supervised table detection approaches use the anchor generation process and Non-Maximum Suppression (NMS) in their detection process, limiting training efficiency. Meanwhile, transformer-based semi-supervised techniques adopted a one-to-one match strategy that provides noisy pseudo-labels, limiting overall efficiency. This study presents an innovative transformer-based semi-supervised table detector. It improves the quality of pseudo-labels through a novel matching strategy combining one-to-one and one-to-many assignment techniques. This approach significantly enhances training efficiency during the early stages, ensuring superior pseudo-labels for further training. Our semi-supervised approach is comprehensively evaluated on benchmark datasets, including PubLayNet, ICADR-19, and TableBank. It achieves new state-of-the-art results, with a mAP of 95.7% and 97.9% on TableBank (word) and PubLaynet with 30% label data, marking a 7.4 and 7.6 point improvement over previous semi-supervised table detection approach, respectively. The results clearly show the superiority of our semi-supervised approach, surpassing all existing state-of-the-art methods by substantial margins. This research represents a significant advancement in semi-supervised table detection methods, offering a more efficient and accurate solution for practical document analysis tasks., Comment: ICDAR-IJDAR 2024

Published

2024

10. Towards End-to-End Semi-Supervised Table Detection with Semantic Aligned Matching Transformer

Author

Shehzadi, Tahira, Sarode, Shalini, Stricker, Didier, and Afzal, Muhammad Zeshan

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

Table detection within document images is a crucial task in document processing, involving the identification and localization of tables. Recent strides in deep learning have substantially improved the accuracy of this task, but it still heavily relies on large labeled datasets for effective training. Several semi-supervised approaches have emerged to overcome this challenge, often employing CNN-based detectors with anchor proposals and post-processing techniques like non-maximal suppression (NMS). However, recent advancements in the field have shifted the focus towards transformer-based techniques, eliminating the need for NMS and emphasizing object queries and attention mechanisms. Previous research has focused on two key areas to improve transformer-based detectors: refining the quality of object queries and optimizing attention mechanisms. However, increasing object queries can introduce redundancy, while adjustments to the attention mechanism can increase complexity. To address these challenges, we introduce a semi-supervised approach employing SAM-DETR, a novel approach for precise alignment between object queries and target features. Our approach demonstrates remarkable reductions in false positives and substantial enhancements in table detection performance, particularly in complex documents characterized by diverse table structures. This work provides more efficient and accurate table detection in semi-supervised settings., Comment: ICDAR 2024

Published

2024

11. A Hybrid Approach for Document Layout Analysis in Document images

Author

Shehzadi, Tahira, Stricker, Didier, and Afzal, Muhammad Zeshan

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

Document layout analysis involves understanding the arrangement of elements within a document. This paper navigates the complexities of understanding various elements within document images, such as text, images, tables, and headings. The approach employs an advanced Transformer-based object detection network as an innovative graphical page object detector for identifying tables, figures, and displayed elements. We introduce a query encoding mechanism to provide high-quality object queries for contrastive learning, enhancing efficiency in the decoder phase. We also present a hybrid matching scheme that integrates the decoder's original one-to-one matching strategy with the one-to-many matching strategy during the training phase. This approach aims to improve the model's accuracy and versatility in detecting various graphical elements on a page. Our experiments on PubLayNet, DocLayNet, and PubTables benchmarks show that our approach outperforms current state-of-the-art methods. It achieves an average precision of 97.3% on PubLayNet, 81.6% on DocLayNet, and 98.6 on PubTables, demonstrating its superior performance in layout analysis. These advancements not only enhance the conversion of document images into editable and accessible formats but also streamline information retrieval and data extraction processes., Comment: ICDAR 2024

Published

2024

12. Sparse Semi-DETR: Sparse Learnable Queries for Semi-Supervised Object Detection

Author

Shehzadi, Tahira, Hashmi, Khurram Azeem, Stricker, Didier, and Afzal, Muhammad Zeshan

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

In this paper, we address the limitations of the DETR-based semi-supervised object detection (SSOD) framework, particularly focusing on the challenges posed by the quality of object queries. In DETR-based SSOD, the one-to-one assignment strategy provides inaccurate pseudo-labels, while the one-to-many assignments strategy leads to overlapping predictions. These issues compromise training efficiency and degrade model performance, especially in detecting small or occluded objects. We introduce Sparse Semi-DETR, a novel transformer-based, end-to-end semi-supervised object detection solution to overcome these challenges. Sparse Semi-DETR incorporates a Query Refinement Module to enhance the quality of object queries, significantly improving detection capabilities for small and partially obscured objects. Additionally, we integrate a Reliable Pseudo-Label Filtering Module that selectively filters high-quality pseudo-labels, thereby enhancing detection accuracy and consistency. On the MS-COCO and Pascal VOC object detection benchmarks, Sparse Semi-DETR achieves a significant improvement over current state-of-the-art methods that highlight Sparse Semi-DETR's effectiveness in semi-supervised object detection, particularly in challenging scenarios involving small or partially obscured objects., Comment: CVPR2024

Published

2024

13. Fertigation with alpha-tocopherol enhances morphological, physiological, and antioxidant responses in radish (Raphanus sativus L.) under drought stress

Author

Muhammad Shahbaz Chishti, Muhammad Shahbaz, Muhammad Kaleem, Saba Shafi, Anam Mehmood, Zhang Qingzhu, Musarat Mansha, Nimra Shehzadi, Shamsa Rana, Hina Shahid, Abeer Hashem, Alanoud Alfagham, and Elsayed Fathi Abd-Allah

Subjects

Antioxidant, Alpha-tocopherol, Water deficit, Growth traits, Osmolytes, Water use efficiency, Botany, QK1-989

Abstract

Abstract Water scarcity is a foremost environmental concern and is expected to hasten in the forthcoming years due to severe fluctuations in weather patterns worldwide. The present work was designed to explore the potential role of alpha-tocopherol (α-Toc), a form of vitamin E, on the morphological, physio-biochemical, and cellular antioxidant responses of two radish genotypes grown under drought conditions (38 ± 3% of field capacity). The individual and combined applications of α-Toc (100 ppm) were used as T0- Control, T1- Control + TF (TF-alpha-tocopherol), T2- Drought (D), and T3- D + TF with three replications. In general, drought conditions cause a marked reduction in, growth traits such as root length (RL), shoot dry weight (SDW), and shoot fresh weight (SFW). However, the sole and combined applications of α-Toc significantly enhanced the SDW, SFW, and RL in both radish genotypes. Drought stress causes a significant upsurge in hydrogen peroxide (H2O2) and lipid peroxidation (LPX) in leaves. At the same time, exogenous fertigation of α-Toc protects the membranes by reducing the level of LPX, enhancing antioxidants such as catalase (CAT) and peroxidase (POX) to scavenge the reactive oxygen species (ROS), and enhancing the osmolyte as total soluble proteins to maintain cell internal osmotic potential. Also, the α-Toc enhanced the photosynthetic pigments and significantly increased photosynthetic activity in the Early Milo (G2) as compared to Laal Pari (G1) genotype under drought, enhancing water use efficiency by maintaining transpiration rate and stomatal conductance. The α-Toc also regulates the beneficial inorganic ions (K+, Ca2+, and PO₄³⁻) in the shoots of both genotypes. Our present findings demonstrate the potential role of α-Toc in mitigating drought stress and infer that it can enhance plant growth under drought conditions.

Published

2025

14. Does economic policy uncertainty matter for a firm's leverage and speed of adjustment?

Author

Aftab, Muhammad, Shehzadi, Saman, and Qureshi, Fiza

Published

2024

15. Green Synthesis of Silver Nanoparticles Using Doxycycline: Evaluation of Antimicrobial Potential and Organ-specific Toxicity

Author

Yasmin Akhtar, Ayoub Rashid, Muhammad Atif, Sajjad Ullah, Kiran Shehzadi, Tabinda Ijaz, Muhammad Ikram Ullah, Muharib Alruwaili, Abualgasim Elgaili Abdalla, Khalid Abosalif, Bi Bi Zainab Mazhari, and Hasan Ejaz

Subjects

antimicrobial activity, ag-nps, toxicity, green method, candida albicans, candida tropicalis, Microbiology, QR1-502

Abstract

Silver nanoparticles (Ag-NPs) have wide applicability as antimicrobial, biomedical, and anti-cancer drug delivery systems. This study aimed to synthesize Ag-NPs using green methodology to assess their antimicrobial properties and toxicity. Ag-NPs were prepared using doxycycline, an antibiotic serving as a reducing and capping agent. The synthesized Ag-NPs were characterized by ultraviolet-visible spectrophotometry, X-ray diffraction, scanning electron microscopy, and Fourier-transform infrared spectrometry. The antimicrobial efficacy of doxycycline-mediated Ag-NPs was assessed on Candida species in vitro and for toxicity in male albino mice in vivo. The Ag-NPs showed a surface plasmon resonance at 411 nm, indicating a 90 nm average size and spherical shape. Toxicity was tested on mouse organs (liver, kidney, spleen, heart and stomach) using three Ag-NP doses (50, 100, 200 mg/kg) over 14 days. The synthesized Ag-NPs produced large inhibition zones against two well-known fungal species, C. albicans and C. tropicalis, demonstrating their antimicrobial potential. The Ag-NPs showed varying degrees of toxicity in different mouse organs, depending on the administered dose, with more pronounced adverse effects observed at higher concentrations. Periodic administration of Ag-NPs at low-dose volumes holds promise as a safe approach to their use as antimicrobial agents. Low-dose Ag-NPs are minimally toxic and show strong antimicrobial efficacy.

Published

2024

16. Microstructure evolution and mechanical response of hetero-induced SiCp addition in Al-6061 under high strain rate compressive loading

Author

Tahir Mehmood Bhatti, Yangwei Wang, Saeed Jamal, Mirza Muhammad Abu Bakar Baig, and Fatima Shehzadi

Subjects

Al-6061/SiC composites, hSiC, Dynamic compression, Strength, Microstructure, Mining engineering. Metallurgy, TN1-997

Abstract

Al/SiC composites having a high-volume fraction of SiC are eye-catching materials in the automobile and aerospace industries. However, their behavior under stringent environments i.e., under high strain rate compression is much different than quasi-static compression. For such conditions, the morphology, interfacial bonding, and the fraction of the SiC play a decisive role in achieving the high performance of the Al/SiC composites. Here, in this study, we reported that a transitional effect of de-bonding and intergranular crack in SiC has occurred in Al–SiC composites having SiC particle size >0.7 μm. Below the 0.7 μm, the diffusion of the Al dislocations is characterized on the boundary of SiC along with the strong interfacial bonding. To prove it, we have fabricated an Al6061/30 vol% SiC composite through powder metallurgy route and subsequently subjected to compression in the range of strain rate 0.001–2100 s−1. In support of our observations, the microstructure was characterized by optical microscopy, scanning electron microscopy, X-ray diffraction, electron backscattered diffraction, and transmission electron microscopy analysis. The result also revealed a positive strain rate sensitivity up to a strain rate of 1800 s−1, while for 2100 s−1, the flow stress decreased, which is the cause of adiabatic temperature rise, dynamic recrystallization in Al, and massive cracks and deboning in coarse SiC particles. We also characterized that the SiC having particle size 1–4 μm showed stacking fault and dislocation induced in the SiC due to strong interfacial bonding. A quantitate analysis of dislocation was also established by using the Williamson-Hall technique which further confirmed the dislocation activity and dynamic recrystallization in 2100 s−1, characterized by EBSD and TEM. Thus, this study enables our understating that using the fine SiC particles is promising for achieving the high performance of the Al/SiC composites for use in stringent environments.

Published

2024

17. Experimental and first-principles novel insights of atomic collapsed structure and composition-driven ω-precipitates

Author

Irfan Ali Abro, Zijiang Zhu, Lin Yang, Qunbo Fan, Fatima Shehzadi, and Shun Xu

Subjects

ωT.phase, ω.phase transition, Interface structures, HAADF-S/TEM, First-principles calculation, Mining engineering. Metallurgy, TN1-997

Abstract

A complex ω phase transition is often observed in titanium alloys; nevertheless, the underlying knowledge of ω-embrittlement are not yet fully understood and require deeper insight. In this study, the ωT and ωH phases, as well as their interfacial structures, have been systematically investigated to examine compositional partitioning and to estimate Z values. A combination of aberration-corrected HAADF-S/TEM advanced characterization techniques, together with first-principles density functional theory calculations were performed under various heat treatment conditions. The results revealed that the low-temperature ageing process suppresses ω-assisted secondary α precipitations at ωT/β interfaces, whereas high-temperature ageing process promotes ω-assisted secondary α precipitations at ωH/β interface, due to relatively higher concentrations of Mo and Al contents. The interfacial energies (γ{ωβ}) between β and ω phases increase with decreasing local compositions of Mo and Al, suggesting increased stability of the ω phase and decreased stability of the β phase. Furthermore, the formation energies of β and ω phases were computed with Mo content at different Al composition, results indicate that the ω phase transition process is affected by the reduced Al content. The observations of this work provide deeper understanding of the ω phase transition mechanism in titanium alloys.

Published

2024

18. Role of leaf micro-structural modifications in modulation of growth and photosynthetic performance of aquatic halophyte Fimbristylis complanata (Retz.) under temporal salinity regimes

Author

Muhammad Kaleem, Mansoor Hameed, Muhammad Sajid Aqeel Ahmad, Farooq Ahmad, Ummar Iqbal, Naila Asghar, Amina Ameer, Anam Mehmood, Nimra Shehzadi, Muhammad Shahbaz Chishti, Abeer Hashem, and Elsayed Fathi Abd-Allah

Subjects

Anatomical traits, Biomass, Halophytic sedge, Growth traits, Photosynthetic pigments, Wetlands, Medicine, Science

Abstract

Abstract Fimbristylis complanata is an aquatic halophytic sedge that thrives in salt-affected land, marshes, and water channels. Two ecotypes (HR-Rasool headworks ECe 19.45; SH- Sahianwala 47.49 dS m−1) of F. complanata were collected from two salt-affected wetlands of Punjab, Pakistan. Five rhizomes of each ecotype were grown in plastic pots in the Botanical garden research area and treated with three intensities of salt [0 mM (control), 200 mM (moderate), 400 mM (high) NaCl for three durations (0, 15 and 30 days). The pots were arranged using a completely randomized block design (CRD) with three replications. After each duration, sampling was done. The HR ecotype optimally performed better under moderate salt incubation and moderate to higher salt exposure. This ecotype had improved growth traits, including shoot fresh weight (SFW), shoot dry weight (SDW), leaf area (LA), root length (RL), leaf mass fraction (LMF), relative growth rate (RGR), and unit leaf area (ULA) at higher NaCl (400 mM) in comparison with control NaCl (0 mM). This improvement in growth occurs due to the accumulation of photosynthetic pigments, better photosynthesis, and water use efficiency (A/E). The leaf microstructure increased in HR ecotype as midrib (MrT), leaf blade (LTh), bulliform cells (BTh), and cortical cells (CcT) thicknesses to prevent water loss under salinity, increase aerenchymatous area (ArA) for efficient gas movements at moderate salt levels and less exposure time concerning absolute control (0 mM NaCl). The SH ecotype affirmed more tolerance to salt by securing higher biomass (SFW, SDW), increased growth traits (LA, RL, LMF, ULA), photosynthetic pigments (Chl a, b, Car), and maximum photosynthetic performance at high salt regimes and prolonged duration in comparison to control (0 mM NaCl). Additionally, increased MrT, LTh, BTh, ECA, abaxial and adaxial stomatal area, and density, broadened metaxylem and phloem area, large aerenchyma, more cortical cell thickness under moderate to high salt regimes under moderate to high salt levels and time. Overall, changes in morpho-physiological traits and leaf microstructures in both ecotypes are linked to salt tolerance under temporal salt regimes. Our findings suggest that both ecotypes of F. complanata can potentially rehabilitate the salt-affected wetlands.

Published

2024

19. Crafting optimal cardiovascular treatment strategy in Pythagorean fuzzy dynamic settings

Author

Mehwish Shehzadi, Hanan Alolaiyan, Umer Shuaib, Abdul Razaq, and Qin Xin

Subjects

pythagorean fuzzy set, dynamic aggregation operators, cardiovascular disease, Mathematics, QA1-939

Abstract

The prevalence of cardiovascular disease (CVD) is a major issue in world health. There is a compelling desire for precise and effective methods for making decisions to determine the most effective technique for treating CVD. Here, we focused on the urgent matter at hand. Pythagorean fuzzy dynamic settings are exceptionally proficient at capturing ambiguity because they can handle complex problem specifications that involve both Pythagorean uncertainty and periodicity. In this article, we introduced a pair of novel aggregation operators: The Pythagorean fuzzy dynamic ordered weighted averaging (PFDOWA) operator and the Pythagorean fuzzy dynamic ordered weighted geometric (PFDOWG) operator, and we proved various structural properties of these concepts. Using these operators, we devised a systematic methodology to handle multiple attribute decision-making (MADM) scenarios incorporating Pythagorean fuzzy data. Moreover, we endeavored to address a MADM problem, where we discerned the most efficacious strategy for the management of CVD through the application of the proposed operators. Finally, we undertook an exhaustive comparative analysis to evaluate the ability of the suggested methods in connection with several developed procedures, therefore demonstrating the reliability of the generated methodologies.

Published

2024

20. Fractional Milne-type inequalities for twice differentiable functions for Riemann–Liouville fractional integrals: Fractional Milne-type inequalities for twice differentiable functions...

Author

Haider, Wali, Budak, Hüseyin, and Shehzadi, Asia

Published

2024

21. Letter to the editor: “Age, preoperative tumor volume and widening of the internal acoustic meatus are independent factors associated with poor preoperative hearing in vestibular schwannoma patients – results of a single-center retrospective analysis”

Author

Irfan, Muhammad, Fatima, Misaal, and shehzadi, Maryam

Published

2024

22. Zinc and nitrogen mediate the regulation of growth, leading to the upregulation of antioxidant aptitude, physio-biochemical traits, and yield in wheat plants

Author

Shehzadi, Nimra, Mahmood, Athar, Kaleem, Muhammad, Chishti, Muhammad Shahbaz, Bashir, Humaira, Hashem, Abeer, Abd-Allah, Elsayed Fathi, Shahid, Hina, and Ishtiaq, Atiqa

Published

2024

23. A comprehensive study on Milne-type inequalities with tempered fractional integrals

Author

Haider, Wali, Budak, Hüseyin, Shehzadi, Asia, Hezenci, Fatih, and Chen, Haibo

Published

2024

24. Analysing Milne-type inequalities by using tempered fractional integrals

Author

Haider, Wali, Budak, Hüseyin, Shehzadi, Asia, Hezenci, Fatih, and Chen, Haibo

Published

2024

25. Retraction Note: Evaluation of toxicity potential of cobalt in wheat irrigated with wastewater: health risk implications for public

Author

Chen, Fu, Khan, Zafar Iqbal, Zafar, Asma, Ma, Jing, Nadeem, Muhammad, Ahmad, Kafeel, Mahpara, Shehzadi, Wajid, Kinza, Bashir, Humayun, Munir, Mudasra, Malik, Ifra Saleem, Ashfaq, Asma, Ugulu, Ilker, Dogan, Yunus, and Yang, Yongjun

Published

2025

26. Bridging the Performance Gap between DETR and R-CNN for Graphical Object Detection in Document Images

Author

Shehzadi, Tahira, Hashmi, Khurram Azeem, Stricker, Didier, Liwicki, Marcus, and Afzal, Muhammad Zeshan

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

This paper takes an important step in bridging the performance gap between DETR and R-CNN for graphical object detection. Existing graphical object detection approaches have enjoyed recent enhancements in CNN-based object detection methods, achieving remarkable progress. Recently, Transformer-based detectors have considerably boosted the generic object detection performance, eliminating the need for hand-crafted features or post-processing steps such as Non-Maximum Suppression (NMS) using object queries. However, the effectiveness of such enhanced transformer-based detection algorithms has yet to be verified for the problem of graphical object detection. Essentially, inspired by the latest advancements in the DETR, we employ the existing detection transformer with few modifications for graphical object detection. We modify object queries in different ways, using points, anchor boxes and adding positive and negative noise to the anchors to boost performance. These modifications allow for better handling of objects with varying sizes and aspect ratios, more robustness to small variations in object positions and sizes, and improved image discrimination between objects and non-objects. We evaluate our approach on the four graphical datasets: PubTables, TableBank, NTable and PubLaynet. Upon integrating query modifications in the DETR, we outperform prior works and achieve new state-of-the-art results with the mAP of 96.9\%, 95.7\% and 99.3\% on TableBank, PubLaynet, PubTables, respectively. The results from extensive ablations show that transformer-based methods are more effective for document analysis analogous to other applications. We hope this study draws more attention to the research of using detection transformers in document image analysis.

Published

2023

27. Object Detection with Transformers: A Review

Author

Shehzadi, Tahira, Hashmi, Khurram Azeem, Stricker, Didier, and Afzal, Muhammad Zeshan

Subjects

Computer Science - Computer Vision and Pattern Recognition

Abstract

The astounding performance of transformers in natural language processing (NLP) has motivated researchers to explore their applications in computer vision tasks. DEtection TRansformer (DETR) introduces transformers to object detection tasks by reframing detection as a set prediction problem. Consequently, eliminating the need for proposal generation and post-processing steps. Initially, despite competitive performance, DETR suffered from slow training convergence and ineffective detection of smaller objects. However, numerous improvements are proposed to address these issues, leading to substantial improvements in DETR and enabling it to exhibit state-of-the-art performance. To our knowledge, this is the first paper to provide a comprehensive review of 21 recently proposed advancements in the original DETR model. We dive into both the foundational modules of DETR and its recent enhancements, such as modifications to the backbone structure, query design strategies, and refinements to attention mechanisms. Moreover, we conduct a comparative analysis across various detection transformers, evaluating their performance and network architectures. We hope that this study will ignite further interest among researchers in addressing the existing challenges and exploring the application of transformers in the object detection domain. Readers interested in the ongoing developments in detection transformers can refer to our website at: https://github.com/mindgarage-shan/trans_object_detection_survey

Published

2023

28. Towards End-to-End Semi-Supervised Table Detection with Deformable Transformer

Author

Shehzadi, Tahira, Hashmi, Khurram Azeem, Stricker, Didier, Liwicki, Marcus, and Afzal, Muhammad Zeshan

Subjects

Computer Science - Computer Vision and Pattern Recognition, I.1.4, I.1.5

Abstract

Table detection is the task of classifying and localizing table objects within document images. With the recent development in deep learning methods, we observe remarkable success in table detection. However, a significant amount of labeled data is required to train these models effectively. Many semi-supervised approaches are introduced to mitigate the need for a substantial amount of label data. These approaches use CNN-based detectors that rely on anchor proposals and post-processing stages such as NMS. To tackle these limitations, this paper presents a novel end-to-end semi-supervised table detection method that employs the deformable transformer for detecting table objects. We evaluate our semi-supervised method on PubLayNet, DocBank, ICADR-19 and TableBank datasets, and it achieves superior performance compared to previous methods. It outperforms the fully supervised method (Deformable transformer) by +3.4 points on 10\% labels of TableBank-both dataset and the previous CNN-based semi-supervised approach (Soft Teacher) by +1.8 points on 10\% labels of PubLayNet dataset. We hope this work opens new possibilities towards semi-supervised and unsupervised table detection methods., Comment: ICDAR 2023

Published

2023

29. Investigation of biometabolites and novel antimicrobial peptides derived from promising source Cordyceps militaris and effect of non-small cell lung cancer genes computationally.

Author

Muhammad Afzal, Mai Abdel Haleem A Abusalah, Neelum Shehzadi, Muhammad Absar, Naveed Ahmed, Sarmir Khan, Yalnaz Naseem, Noshaba Mehmood, and Kirnpal Kaur Banga Singh

Subjects

Medicine, Science

Abstract

Mushrooms are considered one of the safe and effective medications because they have great economic importance due to countless biological properties. Cordyceps militaris contains bioactive compounds with antioxidant, antimicrobial and anti-cancerous properties. This study was projected to analyze the potentials of biometabolites and to extract antimicrobial peptides and protein from the C. militaris. An in-vitro analysis of biometabolites and antimicrobial peptides was performed to investigate their pharmacological potentials followed by quantification and characterization of extracted protein. Computational analysis on non-small cell lung cancer genes (NSCLC) was performed on quantified compounds to interpret the biometabolites from C. militaris that could be potential drug candidate molecules with high specificity and potency. A total of 34 compounds representing 100% of total detected constituents identified were identified using GCMS analysis and 20 compounds using LC-MS which showed strong biological activities. FT-IR spectroscopy manifest powerful instant peaks to have different bioactive components including carboxylic acid, phenols, amines and alkanes present in methanolic extract of C. militaris. In C. militaris, higher protein concentration was observed in 70% concentration of protein extract (500 μg/ml ± 0.025). The best antioxidant activity (% Radical scavenging activity) of methanolic extracts was 80a ± 0.03, antidiabetic activity was 37 ± 0.057 and anti-inflammatory activity was 40 ± 0.021 at 12 mg/ml. Antibacterial activity for different concentrations of Cordyceps protein and methanolic extracts was significantly (p < 0.05). Indolizine, 2-(4-methylphenyl) has most binding affinity (micromolar) and optimized properties to be selected as the lead inhibitor. It interacts favorably with the active site of RET gene of NSCLC and is neuroprotective and hepatoprotective.

Published

2025

30. Identification of potential inhibitors of shikimate kinase from Mycobacterium tuberculosis using in silico approach

Author

Isa, Mustafa Alhaji, Mohammed, Mohammed Mustapha, Ibrahim, Muhammad Musa, Gubio, Falmata Audu, Buba, Fatimah, and Shehzadi, Somia

Published

2024

31. Bio-preservatives and essential oils as an alternative to chemical preservatives in the baking industry: a concurrent review

Author

Islam, Fakhar, Saeed, Farhan, Imran, Ali, Shehzadi, Umber, Ali, Rehman, Nosheen, Farhan, Chauhan, Anamika, Asghar, Aasma, and Ojukwu, Moses

Published

2024

32. Comment on “a machine learning model for predicting the lymph node metastasis of early gastric cancer not meeting the endoscopic curability criteria”

Author

Irfan, Muhammad, Fatima, Misaal, and Shehzadi, Maryam

Published

2024

33. Multi-attribute decision-making using (p, q)-rung orthopair fuzzy Hamacher interactive aggregation operators

Author

Shahzadi, Gulfam, Siddique, Saba, Shehzadi, Hadiqa, and Deveci, Muhammet

Published

2024

34. Sparse Semi-DETR: Sparse Learnable Queries for Semi-Supervised Object Detection.

Author

Tahira Shehzadi, Khurram Azeem Hashmi, Didier Stricker, and Muhammad Zeshan Afzal

Published

2024

35. Enhanced Bank Check Security: Introducing a Novel Dataset and Transformer-Based Approach for Detection and Verification.

Author

Muhammad Saif Ullah Khan, Tahira Shehzadi, Rabeya Noor, Didier Stricker, and Muhammad Zeshan Afzal

Published

2024

36. UnSupDLA: Towards Unsupervised Document Layout Analysis.

Author

Talha Uddin Sheikh, Tahira Shehzadi, Khurram Azeem Hashmi, Didier Stricker, and Muhammad Zeshan Afzal

Published

2024

37. Towards End-to-End Semi-supervised Table Detection with Semantic Aligned Matching Transformer.

Author

Tahira Shehzadi, Shalini Sarode, Didier Stricker, and Muhammad Zeshan Afzal

Published

2024

38. A Hybrid Approach for Document Layout Analysis in Document Images.

Author

Tahira Shehzadi, Didier Stricker, and Muhammad Zeshan Afzal

Published

2024

39. Graph-Theoretic Robustness Analysis of Log Learning Learning Dynamics.

Author

Aqsa Shehzadi Akber and Hassan Jaleel

Published

2024

40. Emerging Trends in Cloud Computing Paradigm: An Extensive Literature Review on Cloud Security, Service Models, and Practical Suggestions

Author

Ali, Rao Faizan, Shehzadi, Amna, Jahankhani, Hamid, Hassan, Bilal, Masys, Anthony J., Editor-in-Chief, Bichler, Gisela, Advisory Editor, Bourlai, Thirimachos, Advisory Editor, Johnson, Chris, Advisory Editor, Karampelas, Panagiotis, Advisory Editor, Leuprecht, Christian, Advisory Editor, Morse, Edward C., Advisory Editor, Skillicorn, David, Advisory Editor, Yamagata, Yoshiki, Advisory Editor, Jahankhani, Hamid, editor, Bowen, Gordon, editor, Sharif, Mhd Saeed, editor, and Hussien, Osama, editor

Published

2024

41. Actual microstructure-based modeling and failure evolution of SiC and SiC+B₄C reinforced Al matrix composites

Author

Baig, Mirza Muhammad Abu Bakar, Wang, Yangwei, Li, Guoju, Bhatti, Tahir Mehmood, Jamal, Saeed, and Shehzadi, Fatima

Published

2025

42. Has machine paraphrasing skills approached humans? Detecting automatically and manually generated paraphrased cases

Author

Muneer, Iqra, Shehzadi, Aysha, Ashraf, Muhammad Adnan, and Nawab, Rao Muhammad Adeel

Published

2025

43. Synergistic effect of pre-induced dislocations and ZrB2 on mechanical and thermal properties of Al/SiC composite

Author

Bhatti, Tahir Mehmood, Wang, Yangwei, Abu Bakar Baig, Mirza Muhammad, Jamal, Saeed, Shehzadi, Fatima, and Abro, Irfan Ali

Published

2025

44. Resveratrol Synthesis, Metabolism, and Delivery: A Mechanistic Treatise

Author

Islam, Fakhar, primary, Shehzadi, Umber, additional, Saeed, Farhan, additional, Shabir Ahmad, Rabia, additional, Umair Arshad, Muhammad, additional, Sadiq Naseer, Muhammad, additional, Tariq, Fatima, additional, Ali, Rehman, additional, Khurshid, Sadaf, additional, Hussain, Ghulam, additional, Ahmad, Aftab, additional, Afzaal, Muhammad, additional, Akram, Rabia, additional, Tuncay Agar, Osman, additional, Imran, Ali, additional, and A.R. Suleria, Hafiz, additional

Published

2024

45. AKR1B10 and digestive tumors development: a review

Author

Yao Shen, Ailin Qiu, Xin Huang, Xiaosha Wen, Sundar Shehzadi, Yan He, Qian Hu, Jian Zhang, Dixian Luo, and Shenghui Yang

Subjects

AKR1B10, metabolism, mechanisms, review, digestive system tumors, Immunologic diseases. Allergy, RC581-607

Abstract

Aldo-keto reductase family 1 member B10 (AKR1B10) is a member of the AKR1B subfamily. It is mainly found in cytoplasm, and it is typically expressed in the stomach and intestines. Given that its expression is low or absent in other tissues, AKR1B10 is a potential diagnostic and therapeutic biomarker for various digestive system diseases. Here, we review recent research progress on AKR1B10 in digestive system tumors such as hepatocellular carcinoma, gastric carcinoma, colorectal carcinoma, pancreatic carcinoma, oral squamous cell carcinoma, laryngeal squamous cell carcinoma, cholangiocarcinoma, and nasopharyngeal carcinoma, over the last 5 years. We also discuss the current trends and future research directions for AKR1B10 in both oncological and non-oncological diseases to provide a scientific reference for further exploration of this gene.

Published

2024

46. The effect of ultrasound-assisted extraction process on techno-functional properties of protein from Moringa oleifera leaves

Author

Muhammad Kamran Khan, Hamna Mazhar, Umber Shehzadi, Muhammad Haseeb Ahmad, Muhammad Tahir Nadeem, Rabia Shabir Ahmad, Muhammad Imran, Waseem Khalid, Muhammad Imran Khan, Muhammad Zubair Khalid, Sulaiman Ali Alharbi, Mohammad Javed Ansari, and Emery Lenge Mukonzo

Subjects

Sonication, Moringa leaves, protein, yield, techno-functional properties, Food Chemistry, Agriculture, Food processing and manufacture, TP368-456

Abstract

Utilization of plant proteins for food development as an alternate source of animal proteins could lead to the sustainability of resources. The techno-functional characteristics of the protein isolated from Moringa oleifera leaves were compared with those of the protein extracted using the conventional solvent extraction technique. For this purpose, response surface statistical methodology was used to improve the parameters of ultrasound-assisted extraction (UAE), for instance, amplitude ranging from 25 to 75%, solute-to-solvent ratio from 1:10 to 1:30 g/ml, and pH from 9 to 13, for maximum protein yield. M. oleifera leaves produced an optimal protein yield of 28.93% with 75% amplitude of sonication, 13 pH and a solute-solvent ratio of 1:17. Under optimized conditions, the sonication for 15 min was suitable for obtaining approximately 128% more yield in comparison to the non-sonicated leaves. The proteins obtained from UAE also possessed superior techno-functional properties compared to non-sonicated samples, including water solubility, ability to hold fluids such as oil and water, and emulsifying and foaming capacities.

Published

2024

47. Soil resource heterogeneity promotes species richness only at a fine scale at the early restoration of karst abandoned farmland

Author

Xuman Guo, Jie Luo, Weixue Luo, Haohan Du, Yijie Zhao, Wenjing Tao, Zongfeng Li, Kiran Shehzadi, Jianping Tao, and Jinchun Liu

Subjects

Environmental science, Ecology, Plant ecology, Science

Abstract

Summary: The relationship between heterogeneity and plant diversity remains unclear in low-resource karst. We made in situ observations at different spatial scales within a fixed plot on abandoned farmland that had been enclosed for 4 years. Species richness was spatially scale dependent, while species evenness remained consistently low across all scales. Species diversity was positively related to resource heterogeneity only at a fine scale (1 m × 1 m), mainly driven by an increase in the species richness of non-dominant groups. Resource heterogeneity reduced overall plant growth at a large scale. However, it reduced the growth of the dominant families (Asteraceae and Poaceae) at a fine scale, but promoted it at a large scale. Our results suggest that soil resource heterogeneity exerts a scale-dependent positive impact on species richness during the early restoration of abandoned farmland by low resource availability and highlight the importance of fine-scale ecological information in karst areas.

Published

2024

48. Role of postbiotics in food and health: a comprehensive review

Author

Fakhar Islam, Faiza Azmat, Ali Imran, Maddalena Zippi, Wandong Hong, Fatima Tariq, Umber Shehzadi, Almeera Fatima, Mahpara Safdar, Hiba Ahmed, Mutiba Ijaz, Fariya Zeeshan, Rehman Ali, Mohd Asif Shah, and Hafiz A.R. Suleria

Subjects

Gut microbes, health benefits, postbiotics, mechanisms of action, Nutrition. Foods and food supply, TX341-641, Food processing and manufacture, TP368-456

Abstract

In the rapidly evolving gut and gastroenterological research field, postbiotics, a fermentation byproduct, are emerging as a cutting-edge alternative in the nutraceutical and pharmaceutical environment. These functional bioactive components, which include muropeptides, extracellular polymeric substances (EPS), teichoic acids, polysaccharides, cell-free supernatants, short-chain fatty acids, enzymes, bactericidal antibiotics, and vitamins, play an important role in immune system development. This review explores the intricate pathways through which gut microorganisms produce metabolites that contribute to the health-promoting properties of postbiotics. Postbiotics have a variety of appealing qualities, including anticancer, antibacterial, and immunological actions. Their multiple effects include influencing immunological responses, decreasing cancer cell growth, and preventing bacterial infections. Their presence in dairy and plant-based meals is noteworthy, as it provides a perfect matrix for fermentation and a varied range of antibacterial chemicals. This article delves into enhancing understanding of the concept of therapeutic properties of postbiotics in promoting human health.

Published

2024

49. Extend the emphasis to encompass sweet potatoes health advantages, industrial applications, and nutritional qualities

Author

Sana Noreen, Madiha Khan Niazi, Somia Shehzadi, Ali Ikram, Muhammad Tayyab Arshad, and Kodjo Théodore Gnedeka

Subjects

Sweet potato, health benefits, nutritional aspects, industrial applications, Nutrition. Foods and food supply, TX341-641, Food processing and manufacture, TP368-456

Abstract

Sweet potatoes (Ipomoea batatas L.) are a key food crop in tropical and subtropical regions, notably Asia, Africa, and the Pacific. Asia and Africa account for 95% of global production. Sweet potatoes’ tendrils, leaves, tubers, and stems are rich in vitamins, minerals, fats, carbs, and proteins. Research indicates that bioactive compounds such as β-carotene, anthocyanins, polyphenols, and phytochemicals can reduce cardiovascular disease risk and have antidiabetic, anti-inflammatory, antimicrobial, anticancer, anti-obesity, antioxidant, and hepatoprotective effects. Beyond food security, sweet potatoes can generate revenue through the creation of functional foods and beverages, such as sour starch, sweet potato curd, lacto-pickles, lacto-juice, acidophilus milk, soy sauce, and alcoholic drinks via solid-state or submerged fermentation. This article aims to comprehensively review the bio-processing of sweet potatoes into industrial products and their phytochemical and therapeutic profiles.

Published

2024

50. A novel study on the structure of left almost hypermodules

Author

Nabilah Abughazalah, Shehzadi Salma Kanwal, Mudsir Mehdi, and Naveed Yaqoob

Subjects

Left almost hypermodule, Homomorphism on left almost hypermodule, Regular relations, Science (General), Q1-390, Social sciences (General), H1-99

Abstract

The concept of left almost hypermodule evolves as a novel extension in the field of abstract algebra, specifically within the broader framework of hypermodules. The left almost hypermodule is characterized by a set endowed with two operations, evincing properties that extends across traditional module theory and hypermodules. This abstract intents to provide a succinct overview of salient attributes and prospective implications of the left almost hypermodule, stimulating further exploration of its properties and applications. The paper provides a new definition of hypermodule that acts on the left almost hyperring, referred to as left almost hypermodule (abbreviated as LA-hypermodule), and provides some examples of this new structure. We further examine the variations between hypermodules and left almost hypermodules. By using the concept of left almost polygroups, we explore the transition from left almost polygroup to a left almost hypermodule over left almost hyperring. Lastly, we observe the outcomes in connection to homomorphism and regular relations on left almost hypermodules.

Published

2024