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1. Exploring diffusion bonding of niobium and its alloys with tungsten and a molybdenum alloy for high-energy particle target applications

Author

Griesemer, Tina, Ximenes, Rui Franqueira, Ahdida, Claudia, Izquierdo, Gonzalo Arnau, Santillana, Ignacio Aviles, Callaghan, Jack, Dumont, Gerald, Dutilleul, Thomas, Terricabras, Adria Gallifa, Höll, Stefan, Jacobsson, Richard, Kyffin, William, Mamun, Abdullah Al, Mazzola, Giuseppe, Fontenla, Ana Teresa Pérez, De Frutos, Oscar Sacristan, Esposito, Luigi Salvatore, Sgobba, Stefano, and Calviani, Marco

Subjects
Condensed Matter - Materials Science, Physics - Applied Physics
Abstract

Particle-producing targets in high-energy research facilities are often made from refractory metals, and they typically require dedicated cooling systems due to the challenging thermomechanical conditions they experience. However, direct contact of water with target blocks can induce erosion, corrosion, and embrittlement, especially of tungsten (W). One approach to overcoming this problem is cladding the blocks with tantalum (Ta). Unfortunately, Ta generates high decay heat when irradiated, raising safety concerns in the event of a loss-of-cooling accident. This study explored the capacity of niobium (Nb) and its alloys to form diffusion bonds with W and TZM (a molybdenum alloy with titanium and zirconium). This is because the Beam Dump Facility (BDF), a planned new fixed-target installation in CERN's North Area, uses these target materials. The bonding quality of pure Nb, Nb1Zr, and C103 (a Nb alloy with 10% hafnium and 1% titanium) with TZM and W obtained using hot isostatic pressing (HIP) was evaluated. The effects of different HIP temperatures and the introduction of a Ta interlayer were examined. Optical microscopy indicated promising bonding interfaces, which were further characterized using tensile tests and thermal-diffusivity measurements. Their performance under high-energy beam impact was validated using thermomechanical simulations. C103 exhibited higher interface strengths and safety factors than Ta2.5W, positioning it as a potential alternative cladding material for the BDF production target. The findings highlight the viability of Nb-based materials, particularly C103, for improving operational safety and efficiency in fixed-target physics experiments; however, considerations regarding the long half-life of 94Nb require further attention.

Published
2024

6. AR-GAN: Generative Adversarial Network-Based Defense Method Against Adversarial Attacks on the Traffic Sign Classification System of Autonomous Vehicles

Author

Salek, M Sabbir, Mamun, Abdullah Al, and Chowdhury, Mashrur

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Artificial Intelligence, Computer Science - Cryptography and Security, Computer Science - Machine Learning
Abstract

This study developed a generative adversarial network (GAN)-based defense method for traffic sign classification in an autonomous vehicle (AV), referred to as the attack-resilient GAN (AR-GAN). The novelty of the AR-GAN lies in (i) assuming zero knowledge of adversarial attack models and samples and (ii) providing consistently high traffic sign classification performance under various adversarial attack types. The AR-GAN classification system consists of a generator that denoises an image by reconstruction, and a classifier that classifies the reconstructed image. The authors have tested the AR-GAN under no-attack and under various adversarial attacks, such as Fast Gradient Sign Method (FGSM), DeepFool, Carlini and Wagner (C&W), and Projected Gradient Descent (PGD). The authors considered two forms of these attacks, i.e., (i) black-box attacks (assuming the attackers possess no prior knowledge of the classifier), and (ii) white-box attacks (assuming the attackers possess full knowledge of the classifier). The classification performance of the AR-GAN was compared with several benchmark adversarial defense methods. The results showed that both the AR-GAN and the benchmark defense methods are resilient against black-box attacks and could achieve similar classification performance to that of the unperturbed images. However, for all the white-box attacks considered in this study, the AR-GAN method outperformed the benchmark defense methods. In addition, the AR-GAN was able to maintain its high classification performance under varied white-box adversarial perturbation magnitudes, whereas the performance of the other defense methods dropped abruptly at increased perturbation magnitudes.

Published
2023

13. Few-Shot Point Cloud Semantic Segmentation via Contrastive Self-Supervision and Multi-Resolution Attention

Author

Wang, Jiahui, Zhu, Haiyue, Guo, Haoren, Mamun, Abdullah Al, Xiang, Cheng, and Lee, Tong Heng

Subjects
Computer Science - Computer Vision and Pattern Recognition
Abstract

This paper presents an effective few-shot point cloud semantic segmentation approach for real-world applications. Existing few-shot segmentation methods on point cloud heavily rely on the fully-supervised pretrain with large annotated datasets, which causes the learned feature extraction bias to those pretrained classes. However, as the purpose of few-shot learning is to handle unknown/unseen classes, such class-specific feature extraction in pretrain is not ideal to generalize into new classes for few-shot learning. Moreover, point cloud datasets hardly have a large number of classes due to the annotation difficulty. To address these issues, we propose a contrastive self-supervision framework for few-shot learning pretrain, which aims to eliminate the feature extraction bias through class-agnostic contrastive supervision. Specifically, we implement a novel contrastive learning approach with a learnable augmentor for a 3D point cloud to achieve point-wise differentiation, so that to enhance the pretrain with managed overfitting through the self-supervision. Furthermore, we develop a multi-resolution attention module using both the nearest and farthest points to extract the local and global point information more effectively, and a center-concentrated multi-prototype is adopted to mitigate the intra-class sparsity. Comprehensive experiments are conducted to evaluate the proposed approach, which shows our approach achieves state-of-the-art performance. Moreover, a case study on practical CAM/CAD segmentation is presented to demonstrate the effectiveness of our approach for real-world applications., Comment: ICRA 2023

Published
2023

14. Energy and Time Based Topology Control Approach to Enhance the Lifetime of WSN in an economic zone

Author

Hossain, Tanvir, Haque, Md. Ershadul, Mamun, Abdullah Al, Hoque, Samiul Ul, and Fahim, Al Amin

Subjects
Computer Science - Networking and Internet Architecture, Computer Science - Computer Vision and Pattern Recognition, Computer Science - Information Theory
Abstract

An economic zone requires continuous monitoring and controlling by an autonomous surveillance system for heightening its production competency and security. Wireless sensor network (WSN) has swiftly grown popularity over the world for uninterruptedly monitoring and controlling a system. Sensor devices, the main elements of WSN, are given limited amount of energy, which leads the network to limited lifespan. Therefore, the most significant challenge is to increase the lifespan of a WSN system. Topology control mechanism (TCM) is a renowned method to enhance the lifespan of WSN. This paper proposes an approach to extend the lifetime of WSN for an economic area, targeting an economic zone in Bangladesh. Observations are made on the performance of the network lifetime considering the individual combinations of the TCM protocols and comparative investigation between the time and energy triggering strategy of TCM protocols. Results reveal the network makes a better performance in the case of A3 protocol while using the topology maintenance protocols with both time and energy triggering methods. Moreover, the performance of the A3 and DGETRec is superior to the other combinations of TCM protocols. Hence, the WSN system can be able to serve better connectivity coverage in the target economic zone., Comment: 14 pages, 10 figures

Published
2022

16. CAM/CAD Point Cloud Part Segmentation via Few-Shot Learning

Author

Wang, Jiahui, Zhu, Haiyue, Guo, Haoren, Mamun, Abdullah Al, Prahlad, Vadakkepat, and Lee, Tong Heng

Subjects
Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Artificial Intelligence, Computer Science - Computer Vision and Pattern Recognition
Abstract

3D part segmentation is an essential step in advanced CAM/CAD workflow. Precise 3D segmentation contributes to lower defective rate of work-pieces produced by the manufacturing equipment (such as computer controlled CNCs), thereby improving work efficiency and attaining the attendant economic benefits. A large class of existing works on 3D model segmentation are mostly based on fully-supervised learning, which trains the AI models with large, annotated datasets. However, the disadvantage is that the resulting models from the fully-supervised learning methodology are highly reliant on the completeness of the available dataset, and its generalization ability is relatively poor to new unknown segmentation types (i.e. further additional novel classes). In this work, we propose and develop a noteworthy few-shot learning-based approach for effective part segmentation in CAM/CAD; and this is designed to significantly enhance its generalization ability and flexibly adapt to new segmentation tasks by using only relatively rather few samples. As a result, it not only reduces the requirements for the usually unattainable and exhaustive completeness of supervision datasets, but also improves the flexibility for real-world applications. As further improvement and innovation, we additionally adopt the transform net and the center loss block in the network. These characteristics serve to improve the comprehension for 3D features of the various possible instances of the whole work-piece and ensure the close distribution of the same class in feature space., Comment: 7 pages, 5 figures

Published
2022

17. R2: Heuristic Bug-Based Any-angle Path-Planning using Lazy Searches

Author

Lai, Yan Kai, Vadakkepat, Prahlad, Mamun, Abdullah Al, Xiang, Cheng, and Lee, Tong Heng

Subjects
Computer Science - Robotics
Abstract

R2 is a novel online any-angle path planner that uses heuristic bug-based or ray casting approaches to find optimal paths in 2D maps with non-convex, polygonal obstacles. R2 is competitive to traditional free-space planners, finding paths quickly if queries have direct line-of-sight. On large sparse maps with few obstacle contours, which are likely to occur in practice, R2 outperforms free-space planners, and can be much faster than state-of-the-art free-space expansion planner Anya. On maps with many contours, Anya performs faster than R2. R2 is built on RayScan, introducing lazy-searches and a source-pledge counter to find successors optimistically on contiguous contours. The novel approach bypasses most successors on jagged contours to reduce expensive line-of-sight checks, therefore requiring no pre-processing to be a competitive online any-angle planner., Comment: Rejected, and replaced with new prototype with same name

Published
2022

18. Ecological and evolutionary processes involved in shaping microbial habitat generalists and specialists in urban park ecosystems

Author

Shuzhen Li, Xue Yan, Mamun Abdullah Al, Kexin Ren, Christopher Rensing, Anyi Hu, Andrey N. Tsyganov, Yuri Mazei, Alexey Smirnov, Natalia Mazei, and Jun Yang

Subjects
microbial communities, urban ecosystems, prokaryote, microeukaryote, microbial interactions, microbial diversity, Microbiology, QR1-502
Abstract

ABSTRACT Microbiomes are integral to ecological health and human well-being; however, their ecological and evolutionary drivers have not been systematically investigated, especially in urban park ecosystems. As microbes have different levels of tolerance to environmental changes and habitat preferences, they can be categorized into habitat generalists and specialists. Here, we explored the ecological and evolutionary characteristics of both prokaryotic and microeukaryotic habitat generalists and specialists from six urban parks across five habitat types, including moss, soil, tree hole, water, and sediment. Our results revealed that different ecological and evolutionary processes maintained and regulated microbial diversity in urban park ecosystems. Under ecological perspective, community assembly of microbial communities was mainly driven by stochastic processes; however, deterministic processes were higher for habitat specialists than generalists. Microbial interactions were highly dynamic among habitats, and habitat specialists played key roles as module hubs in intradomain networks. In aquatic interdomain networks, microeukaryotic habitat specialists and prokaryotic habitat specialists played crucial roles as module hubs and connectors, respectively. Furthermore, analyzing evolutionary characteristics, our results revealed that habitat specialists had a much higher diversification potential than generalists, while generalists showed shorter phylogenetic branch lengths as well as larger genomes than specialists. This study broadens our understanding of the ecological and evolutionary features of microbial habitat generalists and specialists in urban park ecosystems across multi-habitat.IMPORTANCEUrban parks, as an important urban greenspace, play essential roles in ecosystem services and are important hotspots for microbes. Microbial diversity is driven by different ecological and evolutionary processes, while little is currently known about the distinct roles of ecological and evolutionary features in shaping microbial diversity in urban park ecosystems. We explored the ecological and evolutionary characteristics of prokaryotic and microeukaryotic habitat generalists and specialists in urban park ecosystems based on a representative set of different habitats. We found that different ecological and evolutionary drivers jointly maintained and regulated microbial diversity in urban park microbiomes through analyzing the community assembly process, ecological roles in hierarchical interaction, and species diversification potential. These findings significantly advance our understanding regarding the mechanisms governing microbial diversity in urban park ecosystems.

Published
2024
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34. Generalized Iterative Super-Twisting Sliding Mode Control: A Case Study on Flexure-Joint Dual-Drive H-Gantry Stage

Author

Wang, Wenxin, Ma, Jun, Cheng, Zilong, Li, Xiaocong, Mamun, Abdullah Al, and Lee, Tong Heng

Subjects
Electrical Engineering and Systems Science - Systems and Control, Computer Science - Robotics
Abstract

Mechatronic systems are commonly used in the industry, where fast and accurate motion performance is always required to guarantee manufacturing precision and efficiency. Nevertheless, the system model and parameters are difficult to be obtained accurately. Moreover, the high-order modes, strong coupling in the multi-axis systems, or unmodeled frictions will bring uncertain dynamics to the system. To overcome the above-mentioned issues and enhance the motion performance, this paper introduces a novel intelligent and totally model-free control method for mechatronic systems with unknown dynamics. In detail, a 2-degree-of-freedom (DOF) architecture is designed, which organically merges a generalized super-twisting algorithm with a unique iterative learning law. The controller solely utilizes the input-output data collected in iterations such that it works without any knowledge of the system parameters. The rigorous proof of convergence ability is given and a case study on flexture-joint dual-drive H-gantry stage is shown to validate the effectiveness of the proposed method., Comment: 7 pages, 8 figures

Published
2021

35. Adaptive Fractional-Order Sliding Mode Controller with Neural Network Compensator for an Ultrasonic Motor

Author

Chen, Xiaolong, Liang, Wenyu, Zhao, Han, and Mamun, Abdullah Al

Subjects
Electrical Engineering and Systems Science - Systems and Control
Abstract

Ultrasonic motors (USMs) are commonly used in aerospace, robotics, and medical devices, where fast and precise motion is needed. Remarkably, sliding mode controller (SMC) is an effective controller to achieve precision motion control of the USMs. To improve the tracking accuracy and lower the chattering in the SMC, the fractional-order calculus is introduced in the design of an adaptive SMC in this paper, namely, adaptive fractional-order SMC (AFOSMC), in which the bound of the uncertainty existing in the USMs is estimated by a designed adaptive law. Additionally, a short memory principle is employed to overcome the difficulty of implementing the fractional-order calculus on a practical system in real-time. Here, the short memory principle may increase the tracking errors because some information is lost during its operation. Thus, a compensator according to the framework of Bellman's optimal control theory is proposed so that the residual errors caused by the short memory principle can be attenuated. Lastly, experiments on a USM are conducted, which comparative results verify the performance of the designed controller., Comment: 9 pages, 9 figures

Published
2021

36. The Multiscale Maximum Change Algorithm for Subsurface Characterization

Author

Mamun, Abdullah Al, Ali, Alsadig, Al-Mamun, Abdullah, Pereira, Felipe, Rahunanthan, Arunasalam, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Gervasi, Osvaldo, editor, Murgante, Beniamino, editor, Rocha, Ana Maria A. C., editor, Garau, Chiara, editor, Scorza, Francesco, editor, Karaca, Yeliz, editor, and Torre, Carmelo M., editor

Published
2023
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37. IoT-Based Smart Health Monitoring System: Design, Development, and Implementation

Author

Mamun, Abdullah Al, Alam, Md. Nahidul, Hasan, Zahid, Das, Adittya Narayan, Angrisani, Leopoldo, Series Editor, Arteaga, Marco, Series Editor, Panigrahi, Bijaya Ketan, Series Editor, Chakraborty, Samarjit, Series Editor, Chen, Jiming, Series Editor, Chen, Shanben, Series Editor, Chen, Tan Kay, Series Editor, Dillmann, Rüdiger, Series Editor, Duan, Haibin, Series Editor, Ferrari, Gianluigi, Series Editor, Ferre, Manuel, Series Editor, Hirche, Sandra, Series Editor, Jabbari, Faryar, Series Editor, Jia, Limin, Series Editor, Kacprzyk, Janusz, Series Editor, Khamis, Alaa, Series Editor, Kroeger, Torsten, Series Editor, Li, Yong, Series Editor, Liang, Qilian, Series Editor, Martín, Ferran, Series Editor, Ming, Tan Cher, Series Editor, Minker, Wolfgang, Series Editor, Misra, Pradeep, Series Editor, Möller, Sebastian, Series Editor, Mukhopadhyay, Subhas, Series Editor, Ning, Cun-Zheng, Series Editor, Nishida, Toyoaki, Series Editor, Oneto, Luca, Series Editor, Pascucci, Federica, Series Editor, Qin, Yong, Series Editor, Seng, Gan Woon, Series Editor, Speidel, Joachim, Series Editor, Veiga, Germano, Series Editor, Wu, Haitao, Series Editor, Zamboni, Walter, Series Editor, Zhang, Junjie James, Series Editor, Hossain, Md. Sazzad, editor, Majumder, Satya Prasad, editor, Siddique, Nazmul, editor, and Hossain, Md. Shahadat, editor

Published
2023
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44. Relic DNA confounds the results of DNA-based study on microeukaryotic succession in aquatic biofilms

Author

Mamun Abdullah Al, Huihuang Chen, Xue Yan, Kexin Ren, Yuanyuan Xue, Jeff Shimeta, Markus Majaneva, David M. Wilkinson, and Jun Yang

Subjects
Propidium monoazide (PMA), Microeukaryotes, Environmental DNA, Microbial community, Subtropical reservoir, Ecology, QH540-549.5
Abstract

High-throughput sequencing has revolutionized the DNA sequence-based study of microbial community and diversity on an unprecedented scale. Relic DNA is widespread in the natural aquatic environment; however, the extent to which such DNA can bias the sequence-based analysis of living microeukaryotic communities is unclear. Here, we conducted a 30-day field-control experiment investigating biofilm succession of microeukaryotic communities on glass slides and polyurethane foam units (PFUs) in a subtropical urban reservoir, using DNA-based approach. The propidium monoazide (PMA) dye was used to distinguish living and relic DNA sequences. Our results showed that microeukaryotic community succession in biofilms was time and substratum dependent, which was correlated with changing environmental conditions, nutrients and microalgae. Most importantly, relic DNA has a significant influence on the estimation of beta diversity and turnover in community composition, importantly its presence masked the successional patterns of different microbial taxa. We found strong deterministic processes dominating microeukaryotic succession on glass slides and PFUs biofilms. Depending on substrate and the presence and absence of relic DNA sequences, contrasting community assembly mechanisms were observed. In the presence of relic DNA, our results showed that 0.53–3.15 % of dispersal limitation, and 13.16 % of homogeneous selection processes were overestimated, while 1.06–3.68 % of homogenizing dispersal, 2.11–10.53 % of undominated and 2.10–10.52 % of heterogeneous selection processes were underestimated. This study provides significant insights into the value of removing relic DNA when designing DNA-based studies to characterize microeukaryotic communities and raise questions about some ecological interpretations in molecular microbial ecology which have not accounted for the effects of relic DNA.

Published
2024
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45. Data-Driven Predictive Control Towards Multi-Agent Motion Planning With Non-Parametric Closed-Loop Behavior Learning

Author

Ma, Jun, Cheng, Zilong, Wang, Wenxin, Mamun, Abdullah Al, de Silva, Clarence W., and Lee, Tong Heng

Subjects
Computer Science - Multiagent Systems, Computer Science - Robotics, Electrical Engineering and Systems Science - Systems and Control
Abstract

In many specific scenarios, accurate and effective system identification is a commonly encountered challenge in the model predictive control (MPC) formulation. As a consequence, the overall system performance could be significantly weakened in outcome when the traditional MPC algorithm is adopted under those circumstances when such accuracy is lacking. This paper investigates a non-parametric closed-loop behavior learning method for multi-agent motion planning, which underpins a data-driven predictive control framework. Utilizing an innovative methodology with closed-loop input/output measurements of the unknown system, the behavior of the system is learned based on the collected dataset, and thus the constructed non-parametric predictive model can be used to determine the optimal control actions. This non-parametric predictive control framework alleviates the heavy computational burden commonly encountered in the optimization procedures typically in alternate methodologies requiring open-loop input/output measurement data collection and parametric system identification. The proposed data-driven approach is also shown to preserve good robustness properties. Finally, a multi-UAV system is used to demonstrate the highly effective outcome of this promising development.

Published
2020

46. Detecting Parkinson's Disease From an Online Speech-task

Author

Rahman, Wasifur, Lee, Sangwu, Islam, Md. Saiful, Antony, Victor Nikhil, Ratnu, Harshil, Ali, Mohammad Rafayet, Mamun, Abdullah Al, Wagner, Ellen, Jensen-Roberts, Stella, Little, Max A., Dorsey, Ray, and Hoque, Ehsan

Subjects
Electrical Engineering and Systems Science - Audio and Speech Processing, Computer Science - Computers and Society, Computer Science - Machine Learning, Computer Science - Sound, Statistics - Machine Learning
Abstract

In this paper, we envision a web-based framework that can help anyone, anywhere around the world record a short speech task, and analyze the recorded data to screen for Parkinson's disease (PD). We collected data from 726 unique participants (262 PD, 38% female; 464 non-PD, 65% female; average age: 61) -- from all over the US and beyond. A small portion of the data was collected in a lab setting to compare quality. The participants were instructed to utter a popular pangram containing all the letters in the English alphabet "the quick brown fox jumps over the lazy dog..". We extracted both standard acoustic features (Mel Frequency Cepstral Coefficients (MFCC), jitter and shimmer variants) and deep learning based features from the speech data. Using these features, we trained several machine learning algorithms. We achieved 0.75 AUC (Area Under The Curve) performance on determining presence of self-reported Parkinson's disease by modeling the standard acoustic features through the XGBoost -- a gradient-boosted decision tree model. Further analysis reveal that the widely used MFCC features and a subset of previously validated dysphonia features designed for detecting Parkinson's from verbal phonation task (pronouncing 'ahh') contains the most distinct information. Our model performed equally well on data collected in controlled lab environment as well as 'in the wild' across different gender and age groups. Using this tool, we can collect data from almost anyone anywhere with a video/audio enabled device, contributing to equity and access in neurological care.

Published
2020

47. Longitudinal association between caesarean section birth and cardio?vascular risk profiles among adolescents in Australia

Author

Begum, Tahmina, Fatima, Yaqoot, Anuradha, Satyamurthy, Hasan, Md, and Mamun, Abdullah Al

Subjects
Cesarean section -- Complications and side effects, Teenagers -- Health aspects, Youth -- Health aspects, Cardiovascular diseases -- Risk factors, Health
Abstract

: Objective: To examine the association of cesarean section (C?section) with cardiovascular disease (CVD) risk biomarkers among Australian children. Methods: The Longitudinal Study of Australian Children (LSAC) birth cohort was prospectively followed for body mass index (BMI) trajectory, and then linked with CVD risk indicators of children; waist circumference (WC), systolic blood pressure (SBP), blood glucose, high?density lipoprotein (HDL), triglyceride (TG), fat mass index (FMI) and composite metabolic syndrome (CMetS) score. Multivariable linear regression analysis was done to assess the association of C?sections with CVD risk biomarkers. Results: Of 1,874 study children, 30% had C?sections; the mean age (SD) was 11.50 (0.50) years, and 49% were female. Against the vaginally?born cohort, Caesarean?born children showed a higher Z? score for five of the seven CVD risk indicators in regression analysis; WC (0.15; p=0.003), SBP (0.16; p=0.003), inverse HDL (0.15; p=0.003), FMI (0.12; p=0.004), and CMetS (0.45; p=0.004) score. Children with accelerated BMI trajectory had higher CMetS scores for both the delivery types while the C?section cohort showed statistical association only (1.69; p=0.006) Conclusion: C?section was independently associated with increased CVD risk profiles of children, further increased with high BMI trajectory. Implication for public health: The chronic disease risk of C?sections should be discussed with families to reduce clinically unrequired C?sections., Cardiovascular (CVDs) diseases are the major cause of death and disabilities for all world regions.[sup.1,2] Globally, in 2019, around 18.6 million people died from CVDs, and the disability?adjusted life years [...]

Published
2022
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49. Agro-Entrepreneurial Intention among University Students: A Study under the Premises of Theory of Planned Behavior

Author

Che Nawi, Noorshella, Mamun, Abdullah Al, Hassan, Ariezal Afzan, Wan Ibrahim, Wan Suzanna Aafanii Adeeba, Mohamed, Amaal Fadhlini, and Permarupan, P. Yukthamarani

Abstract

This study empirically examines how graduate students' attitude, subjective norm, perceived behavioral control, knowledge, and acceptance of agro-business influence student intention to start agro-entrepreneurship and the moderating effect of gender and faculty on the relationship among the factors based on the Theory of Planned Behavior. The study adopted the cross-sectional design from 300 public university students. The results of the study revealed that attitude toward agro-entrepreneurship, perceived behavioral control, and acceptance of agro-entrepreneurial exert a positive and significant effect on agro-entrepreneurial intention among university students. Moreover, the gender-based multiple group analysis revealed that male graduate students accept more agro-business than female students. Thus, policy makers can facilitate the promotion of agro-entrepreneurship among graduate students. Based on Theory of Planned Behavior, this study improves our understanding on university students' agro-entrepreneurial intention in Malaysia. Finally, the discussion, recommendations and conclusion of the study are discussed in the research paper.

Published
2022
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50. The aid effectiveness agenda in Bangladesh

Author

Mamun, Abdullah-Al, Downing, Gareth, and Dastgir, Shabbir

Subjects
338.91, HB Economic Theory, JZ International relations
Abstract

The effectiveness of aid is a matter of much controversy. In response, the aid effectiveness agenda, developed through numerous conferences and declarations since the 2000s, has been promoted as a potential solution to problems identified with previous aid regimes. This investigation aims to analyse the aid effectiveness agenda in Bangladesh, a leading aid recipient country. Particular emphasis has been given to the development of aid policies, how they have been implemented and the contributions they have made to aid effectiveness. The study applies the top-down public policy implementation approach to develop the conceptual framework. This research adopts qualitative methodology and case study strategy. It opts thematic analysis technique to analyse sixty six in-depth interviews and numerous policy documents, many of which have not been accessed by previous studies. Key findings include: both Government and donors have not shown sufficient commitment to implement the agenda; more focus has been given to initiatives with a high visibility at international events than to outcomes; most initiatives are project-based and have not been institutionalised; there is insufficient understanding (or even awareness) of the aid effectiveness agenda among Government officials; donors are reluctant to change their systems and procedures; top-down policy implementation approach of both Government and the donors has remained relatively unsuccessful. The study shows the shift from aid to development effectiveness agenda has negatively impacted country level activities and the implementation of the agenda is currently in limbo. The reasons for this are complex, including problems with donors, recipients and with the agenda. Problems with donors include political agendas and interests, preference of own policies and procedures and a lack of respect for recipient leadership. Issues with recipients include poor leadership, weak policy implementation and a fear of losing funding. Problems identified with the agenda are the legally non-binding nature and the shift from aid to development effectiveness.

Published
2020

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