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1. Machine learning approaches for improving atomic force microscopy instrumentation and data analytics

Author

Nabila Masud, Jaydeep Rade, Md. Hasibul Hasan Hasib, Adarsh Krishnamurthy, and Anwesha Sarkar

Subjects
atomic force microscopy, nanomechanical properties, artificial intelligence, machine learning, deep learning, Physics, QC1-999
Abstract

Atomic force microscopy (AFM) is a part of the scanning probe microscopy family. It provides a platform for high-resolution topographical imaging, surface analysis as well as nanomechanical property mapping for stiff and soft samples (live cells, proteins, and other biomolecules). AFM is also crucial for measuring single-molecule interaction forces and important parameters of binding dynamics for receptor-ligand interactions or protein-protein interactions on live cells. However, performing AFM measurements and the associated data analytics are tedious, laborious experimental procedures requiring specific skill sets and continuous user supervision. Significant progress has been made recently in artificial intelligence (AI) and deep learning (DL), extending into microscopy. In this review, we summarize how researchers have implemented machine learning approaches so far to improve the performance of atomic force microscopy (AFM), make AFM data analytics faster, and make data measurement procedures high-throughput. We also shed some light on the different application areas of AFM that have significantly benefited from applications of machine learning frameworks and discuss the scope and future possibilities of these crucial approaches.

Published
2024
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2. Molecular characterization of multidrug-resistant bacteria isolated from the external and internal parts of the housefly

Author

Fatema Tuz Zuhora, Md. Aoulad Hosen, Nazmi Ara Rumi, Md. Shajedur Rahman, Jahangir Alam, and Md. Hasibul Hasan

Subjects
houseflies, isolation, molecular characterization, pathogenic bacteria, multidrug resistance, Biotechnology, TP248.13-248.65
Abstract

House flies are mechanical vectors of food borne enteric pathogenic bacteria which may transfer isolates to human and produce diseases. In Bangladesh, there is very limited data on molecular characterization of drug-resistant bacteria from isolated house flies. The research was conducted to determine the pathogenic bacteria isolated from houseflies in different location in Dinajpur district of Bangladesh and their antibiogram study for a period of one year from June, 2019 to July, 2020. A total of 140 houseflies were randomly collected and submitted to bacteriology lab, Hajee Mohammad Danesh Science and Technology University for microbiological analysis. A group of cultural tests, biochemical tests were used to isolation and identification of isolates and further confirmed through molecular characterization by the presence of 16S rRNA gene E1, E2 and invA. Additionally, 14 commercially available antibiotics were used by karby-bauer disk diffusion technique for antibiogram study. Results showed that the most commonly isolated bacteria from houseflies' external surfaces were Escherichia coli 19.04%, Salmonella typhimurium 15.87%, and Pseudomonas spp. 7.93% from 63 isolates, while 42 isolates found 35.71%, 28.57%, and 14.28% respectively. PCR amplification bands of Escherichia coli, Salmonella typhimurium, and Pseudomonas spp. were 584bp, 284bp, and 1497bp. Almost all the isolates were highly resistant to erythromycin, gentamycin, bacitracin (100%), followed by kanamycin, methicillin (80%) whereas highly sensitive to ciprofloxacin, chloramphenicol, azithromycin (100%), followed by tetracycline, amoxicillin (85.71%). These pathogenic microorganisms at distinct sampling sites indicate house flies may transmit vector-borne pathogens to humans. Based on these findings, we recommend vector-borne disease-fighting medications and a sustainable house fly-control approach. We also suggest promoting hygiene and food safety protocol to distance food ingredient from flies in local markets. [ J Adv Biotechnol Exp Ther 2023; 6(3.000): 597-609]

Published
2023
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3. Seed Priming with Rhizospheric Bacillus subtilis: A Smart Strategy for Reducing Fumonisin Contamination in Pre-Harvest Maize

Author

Muhtarima Jannat, Shah Tasdika Auyon, Abu Sina Md. Tushar, Sadia Haque Tonny, Md. Hasibul Hasan, Mangal Shahi, Uday Rana Singha, Ayesha Sultana, Sabera Akter, and Md. Rashidul Islam

Subjects
Bacillus, maize, mycotoxin, fumonisin, Fusarium proliferatum, biological control, Medicine
Abstract

Maize, one of the most important cereal crops in Bangladesh, is severely contaminated by fumonisin, a carcinogenic secondary metabolite produced by Fusarium including Fusarium proliferatum. Biocontrol with Bacillus strains is an effective approach to controlling this F. proliferatum as Bacillus has proven antagonistic properties against this fungus. Therefore, the present study aimed to determine how native Bacillus strains can reduce fumonisin in maize cultivated in Bangladesh, where BDISO76MR (Bacillus subtilis) strains showed the highest efficacy both in vitro in detached cob and in planta under field conditions. The BDISO76MR strain could reduce the fumonisin concentration in detached cob at 98.52% over untreated control, by inhibiting the conidia germination and spore formation of F. proliferatum at 61.56% and 77.01%, respectively in vitro. On the other hand, seed treatment with formulated BDISO76MR showed higher efficacy with a reduction of 97.27% fumonisin contamination compared to the in planta cob inoculation (95.45%) over untreated control. This implies that Bacillus-based formulation might be a potential approach in mitigating fumonisin contamination in maize to ensure safe food and feed.

Published
2024
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4. Characterization of Vibrio spp. in environmental water samples collected from flood prone areas of Bangladesh and their antibiotic resistance profile

Author

Md. Aoulad Hosen, Fozol Korim Ovi, Harunur Rashid, MD. Hasibul Hasan, Md. Abdul Khalek, Mahmudul Hasan, Farhana Easmin, Nazmi Ara Rumi, and Mohammad Shariful Islam

Subjects
surface water, underground water, vibrio cholera, antibiotic sensitivity, Microbiology, QR1-502
Abstract

Last cholera epidemic has been recorded in Bangladesh between 1992–1993, while few sporadic localized outbreaks have been reported as recent as 2005. Serotype O1 of Vibrio cholera is considered as the principal causative agent which transmits through contaminated drinking water resulting that epidemic. Therefore, the objective of this research was to isolate V. cholera in 3 different water sources; River, pond and tube-well, in 5 different locations of Gazipur, Bangladesh, and to analyze their antibiogram study. A total of 45 water samples were randomly collected for the isolation and identification of Vibrio spp. Samples are then serially diluted in alkaline peptone water and streak on Thiosulfate Citrate Bile Salt Sucrose-TCBS agar for quantification of V. spp. For V. cholera isolation water samples were first enriched in nutrient broth at 37 °C for 16 hours followed by cultivation in selective media; TCBS agar at 37 °C for 24 hours. Yellow colonies on TCBS agar were screed as V. cholera and was confirmed by analyzing their biochemical characteristics like Catalase, Oxidase, MR, VP, Indole, Sugar fermentation. Following isolation antibiotic sensitivity test was performed on each V. cholera isolates to determine their antibiotic sensitivity profile. The results showed, out of 45 samples 12 contained V. cholera. Tube-well water has significantly lower concentration (log CFU/mL) of V. spp. than river and pond water (P < 0.05). Bacterial concentration doesn't deviate (P > 0.05) significantly in 5 different location the sample was collected from. All the 12 isolates were sensitive to Gentamicin and ciprofloxacin (100%), while Chloramphenicol (91.67%), Sulfamethoxazole (91.67%), Azithromycin (66.67%) showed high sensitivity. Isolates showed marginal sensitivity towards Tetracycline (33.33%), and Cephalexin (16.67%) and 100% resistance against antibiotics like Vancomycin, Penicillin, Erythromycin, and Nalidixic Acid. Based on these data we recommend using tube-well water instead of river and pond water for drinking purposes. Furthermore, we suggest selective use of sensitive antimicrobials listed here for therapeutics of cholera outbreak.

Published
2021
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5. Evaluating the cost of collection, processing, and application of face masks in hot-mix asphalt (HMA) pavements

Author

Carol Massarra, Md. Hasibul Hasan Rahat, George Wang, and Husam Sadek

Subjects
Asphalt pavements, Cost estimation, COVID-19, Face masks, Life cycle cost analysis (LCCA), Science (General), Q1-390, Social sciences (General), H1-99
Abstract

Human activities significantly contribution to the yearly generated plastic wastes. Moreover, the enormous increase in face masks and face shields caused by the emergence of the COVID-19 pandemic has doubled the generated plastic wastes. Although there is an added benefit of using plastic waste in construction, the cost associated with their application, specifically the face mask, has not been addressed. This paper presents a simplified and rapid estimation of the cost associated with the collection, processing, and application of face masks in hot-mix asphalt (HMA) pavements. Two scenarios, mask modified asphalt pavement and conventional asphalt pavement, are considered. The total cost is based on market price and prices from waste management facilities and plastic processing companies. Life Cycle Cost Analysis (LCCA) is used to evaluate the long-term costs of mask modified asphalt pavement and conventional asphalt pavement. Results show that no significant difference in initial total cost between the two scenarios for pavement sections with lengths less than 500m and the number of lanes less than 6. The difference in total cost begins with lengths greater than 500 m for 5 and 6 Lanes. Despite the higher initial costs for the mask modified asphalt pavement, the LCCA shows that there is a 29% maintenance cost reduction over the 40 years life cycle of the asphalt pavement. The use of LCCA shows the benefit of the selection of the most cost-effective strategy and how the use of mask modified asphalt pavement over the conventional asphalt pavement can save money over the life cycle of the asphalt and improve rutting and stiffens.

Published
2022
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6. Evaluation of nephroprotective and cytotoxic effect of ethanolic extract of Mikania scandens leaves by using alloxan-induced diabetic nephropathy mice

Author

Koushik Ahammed, Md. Hasibul Hasan Joardar, Maruf ul Islam, Md. Ben Yameen, S. M. Mushiur Rahman, and Rokshana Sharmin

Subjects
Mikania scandens, Diabetic, Nephroprotective, Cytotoxic, Medicine, Homeopathy, RX1-681
Abstract

Abstract Background Diabetic is one of the fundamental persuasive of diabetic nephropathy and significantly sparks off kidney diseases and end stage renal failure globally. Method The current research was carried out to evaluate hypoglycemic potential and nephroprotective effect of ethanolic extract of Mikania scandens leaves by using alloxan-induced diabetic nephropathy (DN) mice. The mice were intraperitoneally treated with (200 mg/kg) Mikania scandens leaves extract and standard (120 mg/kg) metformin HCL solution up to 22 days. During this treatment period, we collected blood for evaluation of different types of parameters such as blood glucose level body weight at 0, 15, 22th days, serum creatinine, uric acid, total protein were estimated at the end of the experiment (day 22). Result Mikania scandens leaves extract significantly (p

Published
2020
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7. Community engagement and public education in northwestern part of Bangladesh: A study regarding heritage conservation

Author

Md. Hasibul Hasan, Md. Arif Chowdhury, and Md. Abdul Wakil

Subjects
Bangladesh, Community engagement, Conservation, Education, Heritage, Tradition, Science (General), Q1-390, Social sciences (General), H1-99
Abstract

Heritage management is important to conserve the identity of history and culture, which can generate economic activity, enhance aesthetics, increase surrounding land value, and transfer knowledge from generation to generation. Bangladesh is a land that belongs to various forms of heritage, and Rajshahi city is not an exception with different cultural and natural heritage. Overpopulation growth, unplanned urbanization, poor infrastructure, and weak urban management are imposing risks on deteriorating heritage in current days. This study was conducted to rummage the involvement of community people in imperishability and management of heritage in the Rajshahi City Corporation of Bangladesh. To fulfill the objectives, 205 individual surveys, 3 Focus Group Discussions, and 10 Key Informant Interviews were conducted to ascertain public engagement and their visualization in respect to predicament of heritage, conservation, and the way for the future. Findings reveal that 95% of respondents thought that all the heritages express the identity of Rajshahi, where around 30% of people identified some heritages as directly or indirectly related to their family. Besides, 56.67% of people strongly expressed their views that they want to conserve their heritage through the development process, while 34.17% usually accept this argument. This research also shows a Strength, Weakness, Opportunity, and Threat (SWOT) matrix regarding heritage management, where a priority and decision matrix have been carried out to a certain internal and external factors for heritage conservation. This research thus expected to help different people from government, non-government and local people take action regarding different forms of heritage conservation in Bangladesh.

Published
2022
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8. Edge Detection Quantumized: A Novel Quantum Algorithm For Image Processing

Author

Shubha, Syed Emad Uddin, Islam, Mir Muzahedul, Sadi, Tanvir Ahahmed, Miraz, Md. Hasibul Hasan, and Mahdy, M. R. C.

Subjects
Quantum Physics, Electrical Engineering and Systems Science - Image and Video Processing, Mathematics - Numerical Analysis
Abstract

Quantum image processing is a research field that explores the use of quantum computing and algorithms for image processing tasks such as image encoding and edge detection. Although classical edge detection algorithms perform reasonably well and are quite efficient, they become outright slower when it comes to large datasets with high-resolution images. Quantum computing promises to deliver a significant performance boost and breakthroughs in various sectors. Quantum Hadamard Edge Detection (QHED) algorithm, for example, works at constant time complexity, and thus detects edges much faster than any classical algorithm. However, the original QHED algorithm is designed for Quantum Probability Image Encoding (QPIE) and mainly works for binary images. This paper presents a novel protocol by combining the Flexible Representation of Quantum Images (FRQI) encoding and a modified QHED algorithm. An improved edge outline method has been proposed in this work resulting in a better object outline output and more accurate edge detection than the traditional QHED algorithm., Comment: 10 pages, 9 figures and 15 equations

Published
2024

15. Machine learning approaches for improving atomic force microscopy instrumentation and data analytics.

Author

Masud, Nabila, Rade, Jaydeep, Hasib, Md. Hasibul Hasan, Krishnamurthy, Adarsh, and Sarkar, Anwesha

Subjects
SCANNING probe microscopy, ATOMIC force microscopy, DATA analytics, ARTIFICIAL intelligence, MACHINE learning, NANOMECHANICS
Abstract

Atomic force microscopy (AFM) is a part of the scanning probe microscopy family. It provides a platform for high-resolution topographical imaging, surface analysis as well as nanomechanical property mapping for stiff and soft samples (live cells, proteins, and other biomolecules). AFM is also crucial for measuring single-molecule interaction forces and important parameters of binding dynamics for receptor-ligand interactions or protein-protein interactions on live cells. However, performing AFM measurements and the associated data analytics are tedious, laborious experimental procedures requiring specific skill sets and continuous user supervision. Significant progress has been made recently in artificial intelligence (AI) and deep learning (DL), extending into microscopy. In this review, we summarize how researchers have implemented machine learning approaches so far to improve the performance of atomic force microscopy (AFM), make AFM data analytics faster, and make data measurement procedures high-throughput. We also shed some light on the different application areas of AFM that have significantly benefited from applications of machine learning frameworks and discuss the scope and future possibilities of these crucial approaches. [ABSTRACT FROM AUTHOR]

Published
2024
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16. Effect of Aerodynamics on Wind Turbine Design

Author

Masud, Mahadi Hasan, primary, Hemal, Md. Forhad Hossain, additional, Ahmed, Mim Mashrur, additional, Taki, Md. Fyruz Ibna Alam, additional, Himel, Md. Hasibul Hasan, additional, Ananno, Anan Ashrabi, additional, and Dabnichki, Peter, additional

Published
2024
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19. Environmental and Socio-economic Impact Assessment in Hazaribag Area of Dhaka for Tannery Relocation

Author

Ashik Iqbal, Md. Hasibul Hasan, M. Rasheduzzman, Shuva Ranjan Paul, and Rubaiya Hamid

Abstract

Purpose of the study: The objective of this study is to find out the tannery relocation’s impact on the surrounding environment, social, economic, livelihood conditions, and institutional and stakeholder perception in Hazaribag. Methodology: The methodological framework includes a field survey and Participatory Rural Appraisal (PRA) tools, i.e., Focus Group Discussion (FGD) and Key Informant Interview (KII). Main Findings: After the relocation, the surrounding environment, odour, and surface water condition have improved at a very satisfactory rate. Nevertheless, many tannery workers either become unemployed or transferred to their non-expertise field, and the economic and business condition of the area has decreased. Also, there are some conflicts between the owner and workers. After the relocation, the government has not properly managed the post-relocation situation in the brownfield. Research implications/limitations: The research findings will be helpful in planning the utilization of the brownfield. The study's limitations include reliance on respondents' perceptions and opinions and not conducting chemical analysis for water and environmental monitoring. Continuous monitoring of the change is needed to find the impact in the long run. Novelty/Originality of this study: Many studies were conducted on the impact of the Tannery in the Hazaribag area, and the Tannery was eventually relocated. The study fills a gap in the literature by presenting the scenario after the relocation to address the impact of relocation in Hazaribag, which is a significant observation for further development of the brownfield area.

Published
2023
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24. Energy consumption behavior analysis and investigation of submersible pumping system efficiency in different bore well at Barind trac of Bangladesh.

Author

Hossain, Md. Sanowar, Islam, Mohammad Rofiqul, Roy, Tamal Krishna, Mallik, Noor Imani, Hasan, Md. Sabit, and Himel, Md. Hasibul Hasan

Subjects
SUBMERSIBLE pumps, CONSUMPTION (Economics), ENERGY consumption, BEHAVIORAL assessment, LIFE cycle costing, PUMPING machinery, OCEANOGRAPHIC submersibles, SUBMERSIBLES
Abstract

The groundwater level is declining day by dy and remains under 30 ft. in most of the places in the Barind tract of Bangladesh throughout the year, therefore it is mandatory to use submersible pumps in that location. In this work, the energy consumption behavior and life cycle cost elements of submersible pumping system have been studied in different areas of Rajshahi division. It is found that the efficiency of the running pumps is reduced by 20-40% more than that of lab test results of the new pumps. Moreover, it has been found that the energy consumption cost of the submersible pump is almost 64% of the total life cycle cost. In the present work, the performance of a 15 HP submersible pumping system has also been studied at the laboratory scale by varying bore well diameter. It has been found that the submersible pump shows a maximum effic8-inch in 8-inch bore well (51 %) than that of 10-inch (49%) and 12-inch bore well (48%). It has been observed that the drawdown increases and efficiency decrease significantly with increasing bore well diameter. [ABSTRACT FROM AUTHOR]

Published
2023
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25. THE EFFECT OF STEEL SLAG POWDER ON HMA STABILITY

Author

Md. Hasibul Hasan Rahat, Ajoy Karmakar, and Md. Amin-Uzz-Zaman Madani

Subjects
General Medicine
Abstract

The goal of the study is to evaluate the improvements of the stability of the hot mix asphalt (HMA) after the addition of ground steel slag. Steel slag was grounded into finer 75µm particles at Bangladesh Road Research Laboratory (BRRL). Then the ground steel slag powder was added to asphalt binder for penetration and softening point tests. Three modified HMA mixes were prepared with 20%, 30% and 40% of steel slag powder and 2% of cement for the Marshall test with a control mix containing 2% of cement only. The Marshall stability result shows increased stability and decreased flow. Marshall stability reached to maximum at the level of 30% of steel slag powder. The flow values obtained showed a slightly decreasing pattern with the increase in steel slag. The density of the mixes slightly decreases with the increase of steel slag content in the asphalt binder. It was found that the ground steel slag has a negligible effect on air voids (Va), voids in mineral aggregate (VMA), and voids filled with asphalt (VFA). A designed mix was also achieved the best possible result for all parameters in this experiment setup. Ground steel slag can be used in HMA and asphalt pavement construction, which can result in reduced maintenance work and minimize the frequency of rehabilitation and contributes to economic and environmental development.

Published
2022
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27. Exploring influential factors of CO2 emissions in China’s cities using machine learning techniques

Author

kun xiang, Haofei Yu, Hao Du, Md Hasibul Hasan, Siyi Wei, and Xiangyun Xiang

Abstract

Investigating the factors that exert an influence on CO2 emissions represents a critical undertaking for the formulation of effective policies aimed at reducing such emissions. Numerous past studies have attempted to explore the potential relationships between CO2 emissions and a variety of potential influencing factors. However, many of these investigations have been constrained by the inability to fit large sample datasets, as well as by the limitations of conventional research methods in addressing non-linear relationships. The aforementioned insufficiencies have resulted in a situation wherein a restricted set of factors can be examined in tandem within a singular model. This restriction has impeded the comprehensive investigation of multiple variables and their potential interrelationships. To bridge these research gaps, this research employed machine learning models to fit voluminous datasets concerning urban CO2 emissions and socioeconomic factors. This research also incorporated explainable techniques to disentangle the intricate relationships between the factors under investigation. The results demonstrated that urban fiscal structure, urban energy consumption, urban land use, and urban capital accumulation represented the primary factors driving urban CO2 emissions. The ALE test was employed to discern the specific relationships between these factors and CO2 emissions, ultimately revealing that almost all of these factors positively impacted CO2 emissions as their values rise. In both univariate and bivariate ALE tests, Expenditures on Science and Technology had emerged as a highly influential feature in terms of its impact on urban CO2 emissions. While the interaction effects elicited by Expenditures on Science and Technology had the potential to curb urban CO2 emissions in several ways, this research identified that these effects may be constrained. The relationship identified between urban socio-economic development and CO2 emissions also indicated that achieving low-carbon development in urban areas necessitates optimal resource allocation and the transformation of energy consumption structures. Furthermore, each city needs to tailor its low-carbon development pathway to its distinct characteristics.

Published
2023
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30. The Novel Insight into the Emergence of Monkeypox: Old Disease, New Fears?

Author

Mohammad Ali Zinnah, Md. Masudur Rahman, Tanjila Hasan, Shobhan Das, Fahima Khatun, Md Hasibul Hasan, Ruenruetai Udonsom, and Md Bashir Uddin

Subjects
virology
Abstract

Monkeypox virus (MPXV), causing zoonotic diseases in humans, is a member of Orthopoxvirus under Poxviridae family. The virus was first reported in monkeys in 1959 in Denmark and in humans in 1970 in the Congo. Outside Africa, the virus first appeared in the USA in 2003 and since then occurred sporadically. The virus reemerged in 2017 and now spreading globally. African wild rodent mammals are thought to be the reservoir of MPXV. Exotic trade of animals and international travel favors the dissemination of MPXV. Genetic analysis shows two clades of the MPXV. Smallpox vaccine shows cross-protection and people who never in contact with Orthopoxvirus affected more than exposed ones. Fever, muscle pain, headache, and vesicle formation are the dominant clinical sign. Guarnieri-like inclusions and Ballooning degenerations are important pathognomic lesion of MPXV. It may produce case fatality rate up to 11%. Genetic materials alterations may favor the reemergence of the virus. The continuing occurrence over 73437 cases in 109 countries shows that MPXV can spread among humans competently and can be a serious issue of global public health concern. Here, we summarize the existing knowledge about re-emergence and insights into MPXV which will be of useful to curb its occurrence.

Published
2022

33. Characterization of Vibrio spp. in environmental water samples collected from flood prone areas of Bangladesh and their antibiotic resistance profile

Author

Nazmi Ara Rumi, Md. Abdul Khalek, Fozol Korim Ovi, Harunur Rashid, Mahmudul Hasan, Farhana Easmin, Md. Hasibul Hasan, Mohammad Shariful Islam, and Md. Aoulad Hosen

Subjects
vibrio cholera, Microbiology (medical), Veterinary medicine, Flood myth, biology, surface water, underground water, biology.organism_classification, Microbiology, antibiotic sensitivity, QR1-502, Vibrio, Antibiotic resistance, Environmental water, Environmental science
Abstract

Last cholera epidemic has been recorded in Bangladesh between 1992–1993, while few sporadic localized outbreaks have been reported as recent as 2005. Serotype O1 of Vibrio cholera is considered as the principal causative agent which transmits through contaminated drinking water resulting that epidemic. Therefore, the objective of this research was to isolate V. cholera in 3 different water sources; River, pond and tube-well, in 5 different locations of Gazipur, Bangladesh, and to analyze their antibiogram study. A total of 45 water samples were randomly collected for the isolation and identification of Vibrio spp. Samples are then serially diluted in alkaline peptone water and streak on Thiosulfate Citrate Bile Salt Sucrose-TCBS agar for quantification of V. spp. For V. cholera isolation water samples were first enriched in nutrient broth at 37 °C for 16 hours followed by cultivation in selective media; TCBS agar at 37 °C for 24 hours. Yellow colonies on TCBS agar were screed as V. cholera and was confirmed by analyzing their biochemical characteristics like Catalase, Oxidase, MR, VP, Indole, Sugar fermentation. Following isolation antibiotic sensitivity test was performed on each V. cholera isolates to determine their antibiotic sensitivity profile. The results showed, out of 45 samples 12 contained V. cholera. Tube-well water has significantly lower concentration (log CFU/mL) of V. spp. than river and pond water (P < 0.05). Bacterial concentration doesn't deviate (P > 0.05) significantly in 5 different location the sample was collected from. All the 12 isolates were sensitive to Gentamicin and ciprofloxacin (100%), while Chloramphenicol (91.67%), Sulfamethoxazole (91.67%), Azithromycin (66.67%) showed high sensitivity. Isolates showed marginal sensitivity towards Tetracycline (33.33%), and Cephalexin (16.67%) and 100% resistance against antibiotics like Vancomycin, Penicillin, Erythromycin, and Nalidixic Acid. Based on these data we recommend using tube-well water instead of river and pond water for drinking purposes. Furthermore, we suggest selective use of sensitive antimicrobials listed here for therapeutics of cholera outbreak.

Published
2021
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34. Using Plastic Wastes in Construction: Opportunities and Challenges

Author

Md. Hasibul Hasan Rahat, Dr. Carol Massarra, and Dr. George C. Wang

Abstract

Urbanization and the evolution of people's lifestyles have a significant impact on the quantity of waste that is generated and dumped each year. In addition, due to the emergence of the Covid-19 pandemic, the use of masks has increased significantly, and the amount of plastic waste generation worldwide has doubled. These wastes have had a negative impact on the environment and have attracted the attention of many departments. Faced with both increasing amounts of generated plastic wastes and the growing interest of sustainability, the construction sectors must take an advantage using recycled plastic wastes in construction applications to reduce the negative impacts of the generated plastic wastes, while meeting future infrastructure demand. This study conducts a comprehensive analysis of the opportunities and challenges of plastic waste application in the construction industry. In this context the objective of the study is to (i) explore the most used plastic wastes in construction industry, (ii) explore potential application of plastic waste in construction industry, (iii) explore potential application of COVID-19 plastic waste in construction industry, (iv) outline challenges and opportunities involving the applications, and (v) Provide recommendations for advanced research required for plastic waste application in construction industry. It is concluded that the use of plastic waste in construction will significantly improve environmental sustainability, reduce the construction cost, improve the performance of construction, and serve as a reliable supply of construction materials. Finally, to overcome challenges areas for further research are also suggested.

Published
2022
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35. A Comparative Study on Traffic Volume and Temporal Variation of Different Types of Vehicles in Mohakhali, Khilgaon and Jatrabari Flyover

Author

S. M. Sabbir, Abdur Rafee Ahmed, Md. Hasibul Hasan, and Tanbir Islam Robin

Subjects
Flyover, traffic, transportation, congestion, roadway
Abstract

Bangladesh is a developing country with huge population. As the country has excessive population, we have shortage of land for accommodation and transportation. We don’t have sufficient roadway for several vehicles and the existing roads are quite narrow to maintain a huge amount of vehicles. The government has planned to build new flyovers with an aim to increase mobility and facilitate the city habitants with a reliable transport network free from the perennial traffic congestion in Dhaka as well as others busiest cities of the country. The transportation specialist think that flyovers are able to save the cities from several transport problems. Seven flyovers have been constructed in the capital of Bangladesh. The three major flyovers in Dhaka city are- Mohakhali, Khilgaon and Jatrabari-Gulistan flyover. After constructing these three flyovers, the habitants of the city are facing less transportation problems as compared to past days. Several surveys and analysis were performed to achieve the temporal variation (weekday-day; weekday-night ; weekend-day and weekend-night ) to access how far the objectives have been met through the construction of these flyovers. From the assessment of traffic flow Mohakhali Flyover is the most useful flyover as compared to Khilgaon and Jatrabari flyover. In this flyover almost 36.396 % of vehicles passing above grade among all vehicles at grade and above grade on weekdays and 62.67% of vehicles passing above grade among at grade and above grade on weekend. Jatrabari Flyover performed too much close which almost 28.269 % of vehicles passed above grade among all vehicles at grade and above grade at weekdays and 50.64% of vehicles passing above grade among at grade and above grade at weekend. However, Khilgaon flyover performed very poorly and it is used by small amount of vehicles. Overall analysis has revelated the traffic volume in the above of these Flyover and determined the temporal variation of different types of vehicles. In Mohakhali flyover the highest flow of Vehicles are for microbus/car/jeep which is around (62 to 50) % both weekdays and weekends. In khilgaon flyover highest flow of vehicles are for motorcycle which is around (48 to 30) % both weekdays and weekend. Jatrabari flyover shows in weekend highest flow of Vehicles are for Motorcycle which is around 32% but in weekdays car\jeep are dominating. According to study, firstly the amount of private transports (car, bicycle) are much higher than public transport. Secondly, it has been shown that there are some discrepancies in performances between the flyovers and the roads. The factors are low maintenance service, footpaths are controlled by hawker on road and illegal car parking, sound pollution etc. are most abusive problems in the access road of this flyover. We believe the result from this research will be helpful in understand the traffic volume in those flyover location and it can be helpful for further studies in relevant topic., {"references":["https://civilmint.com/flyover","A case study of Mohakhali flyover. Department of URP, Bangladesh University of Engineering and Technology (BUET), Dhaka, Bangladesh","Moslem Uddin, M. (2006). \"Assessment of Khilgaon flyover under seismic load\", Department of Civil Engineering, Bangladesh University of Engineering and Technology (BUET), Dhaka, Bangladesh","https://dailyasianage.com/news/23063/khilgaon-flyover-extension-opens-today","https://www.thedailystar.net/news/jatrabari-flyover-opens-today","Chandra, S., Kumar, V., & Sikdar, P. K. (1995). Dynamic PCU and estimation of capacity of urban roads. Indian Highways, 23(4).","Sikdar, S. C. P. (2000). Factors affecting PCU in mixed traffic Situations. Road & Transport Research, 9(3), 40.","Central Road Research Institute, (1988), \"Capacity of Roads in Urban Areas\", Project sponsored by Ministry Surface Transport, September, 1988.","Chandra, S., & Prasad, N. V. (2004). Capacity of multilane urban roads under mixed traffic conditions. In Highway Research Bulletin, Indian Roads Congress (Vol. 75, pp. 97-103).","Arkatkar, S. S. (2011). Effect of intercity road geometry on capacity under heterogeneous traffic conditions using microscopic simulation technique. International Journal of Earth Sciences and Engineering, 4(6), 375-380."]}

Published
2022
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36. Numerical Investigation of Finned-tube Heat Exchanger with Circular, Elliptical & Rectangular Tubes

Author

Md. Hasibul Hasan and Dipayan Mondal

Subjects
Materials science, 020401 chemical engineering, 020209 energy, Heat exchanger, 0202 electrical engineering, electronic engineering, information engineering, Tube (fluid conveyance), 02 engineering and technology, Mechanics, 0204 chemical engineering
Abstract

A three dimensional numerical study has been conducted on finned-tube heat exchanger with multiple rows of tubes using ANSYS (Fluent). The objective of this study is to numerically investigate finned tube heat exchanger with different type of tubes such as circular, elliptical and rectangular tubes. As circular tubes has much pressure drop so elliptical and rectangular tubes has been introduced in order to reduce pressure drop. As well as heat transfer has also been examined. The finite volume based CFD code ANSYS Fluent 16.2 is used to calculate the flow and temperature fields and by applying SIMPLEC algorithm. At low velocity of air and water, nothing significant occurred for the combination of tubes. At high velocity in maximum tube combination there was heat transfer (HT) enhancement and pressure drop reduction when compared with circular tubes only in case of air. When the combinations of circular, elliptical and rectangular tubes has been compared with circular tube heat exchanger (CTHX) heat transfer reduces as well as pressure drop (PD) also reduces for air. In case of water vapor HT and PD behaves the same. When those combinations has been compared with elliptical tube HX, for air in some cases heat transfer remains same and on other case it increases. For pressure drop in case of air, in some cases it reduces and on other cases it reduces. For elliptical tube HX for the fluid water vapor HT and PD both remains same or reduces. This work has not been with conducted any numerical simulation on rectangular Heat exchanger reason behind it there isn’t any existence of this kind of heat exchanger. However, it could be numerically conducted to examine the results between those combination and rectangular heat exchanger.

Published
2020
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40. Use of COVID-19 single-use face masks to improve the rutting resistance of asphalt pavement

Author

George Wang, Jie Li, Mohammad Saberian, Md. Hasibul Hasan Rahat, Carol Massarra, Chelsea Buckhalter, Jodi Farrington, Tony Collins, and Jeffrey Johnson

Subjects
Environmental Engineering, Masks, Environmental Chemistry, COVID-19, Humans, Pollution, Waste Management and Disposal, Pandemics, Plastics, Hydrocarbons
Abstract

Today, the world faces an enormous increase in plastic waste pollution caused by the emergence of the COVID-19 pandemic. Plastic pollution has been already one of the greatest threats to our planet before the Coronavirus outbreak. The disposal of millions of personal protective equipment (PPE) in the form of face masks has significantly contributed to the generation of plastic waste and has exacerbated plastic pollution. In an attempt to mitigate pollution caused by the excess PPE waste, an innovative way was developed in this research to reduce pandemic-generated wastes by using the shredded face mask (SFM) fibers as an additive to hot mix asphalt (HMA) to enhance rutting resistance. Rutting or permanent deformation is one of the major distresses of asphalt pavement. Since the SFM behaves as a semi-liquid between 115.5 and 160 °C, which is in the range of HMA mixing and paving temperature, it can function as a binding agent to glue the aggregates. When the pavement is cooled down to ambient temperature, the hardened SFM can provide stability and stiffness to HMA. Based on the results of this study, the modified mixes exhibited excellent resistance to permanent deformation under the Asphalt Pavement Analyzer (APA), as rutting depth values were reduced from 3.0 mm to 0.93 mm by increasing the SFM content from 0% to 1.5%. From the rutting test results and premature distress mechanism study, the appropriate addition of SFM modifiers could improve the high-temperature properties of HMA that can be used to strengthen high-compression and shearing zones in the pavement structure.

Published
2021

41. Community engagement and public education in northwestern part of Bangladesh: A study regarding heritage conservation

Author

Md. Arif Chowdhury, Md Hasibul Hasan, and MD ABDUL WAKIL

Subjects
Multidisciplinary
Abstract

Heritage management is important to conserve the identity of history and culture, which can generate economic activity, enhance aesthetics, increase surrounding land value, and transfer knowledge from generation to generation. Bangladesh is a land that belongs to various forms of heritage, and Rajshahi city is not an exception with different cultural and natural heritage. Overpopulation growth, unplanned urbanization, poor infrastructure, and weak urban management are imposing risks on deteriorating heritage in current days. This study was conducted to rummage the involvement of community people in imperishability and management of heritage in the Rajshahi City Corporation of Bangladesh. To fulfill the objectives, 205 individual surveys, 3 Focus Group Discussions, and 10 Key Informant Interviews were conducted to ascertain public engagement and their visualization in respect to predicament of heritage, conservation, and the way for the future. Findings reveal that 95% of respondents thought that all the heritages express the identity of Rajshahi, where around 30% of people identified some heritages as directly or indirectly related to their family. Besides, 56.67% of people strongly expressed their views that they want to conserve their heritage through the development process, while 34.17% usually accept this argument. This research also shows a Strength, Weakness, Opportunity, and Threat (SWOT) matrix regarding heritage management, where a priority and decision matrix have been carried out to a certain internal and external factors for heritage conservation. This research thus expected to help different people from government, non-government and local people take action regarding different forms of heritage conservation in Bangladesh.

Published
2021

42. Characterization of

Author

Md Aoulad, Hosen, Fozol Korim, Ovi, Harunur, Rashid, Md Hasibul, Hasan, Md Abdul, Khalek, Mahmudul, Hasan, Farhana, Easmin, Nazmi Ara, Rumi, and Mohammad Shariful, Islam

Subjects
surface water, underground water, antibiotic sensitivity, Research Article, Vibrio cholera
Abstract

Last cholera epidemic has been recorded in Bangladesh between 1992–1993, while few sporadic localized outbreaks have been reported as recent as 2005. Serotype O1 of Vibrio cholera is considered as the principal causative agent which transmits through contaminated drinking water resulting that epidemic. Therefore, the objective of this research was to isolate V. cholera in 3 different water sources; River, pond and tube-well, in 5 different locations of Gazipur, Bangladesh, and to analyze their antibiogram study. A total of 45 water samples were randomly collected for the isolation and identification of Vibrio spp. Samples are then serially diluted in alkaline peptone water and streak on Thiosulfate Citrate Bile Salt Sucrose-TCBS agar for quantification of V. spp. For V. cholera isolation water samples were first enriched in nutrient broth at 37 °C for 16 hours followed by cultivation in selective media; TCBS agar at 37 °C for 24 hours. Yellow colonies on TCBS agar were screed as V. cholera and was confirmed by analyzing their biochemical characteristics like Catalase, Oxidase, MR, VP, Indole, Sugar fermentation. Following isolation antibiotic sensitivity test was performed on each V. cholera isolates to determine their antibiotic sensitivity profile. The results showed, out of 45 samples 12 contained V. cholera. Tube-well water has significantly lower concentration (log CFU/mL) of V. spp. than river and pond water (P < 0.05). Bacterial concentration doesn't deviate (P > 0.05) significantly in 5 different location the sample was collected from. All the 12 isolates were sensitive to Gentamicin and ciprofloxacin (100%), while Chloramphenicol (91.67%), Sulfamethoxazole (91.67%), Azithromycin (66.67%) showed high sensitivity. Isolates showed marginal sensitivity towards Tetracycline (33.33%), and Cephalexin (16.67%) and 100% resistance against antibiotics like Vancomycin, Penicillin, Erythromycin, and Nalidixic Acid. Based on these data we recommend using tube-well water instead of river and pond water for drinking purposes. Furthermore, we suggest selective use of sensitive antimicrobials listed here for therapeutics of cholera outbreak.

Published
2021

43. A Systematic Review on the Chronological Development of Bangla Sign Language Recognition Systems

Author

Mohammad Sajid Shahriar, Krishna Das, Sabbir Ahmed, Md. Hasibul Hasan, Ayesha Khatun, and Md. Sakibul Islam

Subjects
Class (computer programming), business.industry, Computer science, Process (engineering), media_common.quotation_subject, Sign language, computer.software_genre, language.human_language, Metadata, Market research, Bengali, Gesture recognition, language, Conversation, Artificial intelligence, business, computer, Natural language processing, media_common
Abstract

Despite sign language being the primary medium of conversation with deaf and dumb (DD) individuals, it is hard to grasp for any class of people, making communication immensely challenging. Bengali being one of the most spoken languages globally, significant research works on Bangla Sign Language (BdSL) have come to light to deal with this challenge. In recent years, researchers from diverse backgrounds have proposed solutions to automate the process of BdSL recognition. In this literature review, we have explored the trends of research on BdSL by comparing incorporated features and evaluation results of systems between 2002-2021 and techniques applied on different existing and new datasets. We have also collected and combined metadata from datasets of all BdSL Alphabets and numerics used so far. The literature findings of this paper indicate that most proposed models perform well on images containing static and single-handed signs but, performance falls significantly in complex backgrounds. Moreover, we focused on identifying insights and similarities of the existing system, finding research gaps and propose possible future directions. We expect this article will draw the attention of more researchers into this domain and this is the first identifiable academic literature review of BdSL recognition systems to the best of our knowledge.

Published
2021
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44. Bio-Based Polymers: Farm to Industry. Volume 3: Emerging Trends and Applications

Author

Ram K. Gupta, Anurag Tiwari, Rajendra Kumar Singh, Sarbaranjan Paria, Poulami Karan, Bhanu Bhusan Khatua, Zohreh Niazi, Elaheh K. Goharshadi, Aminur Rahman, Kamrul Hasan, Abu Bin Imran, Omer Suat Taskin, Neslihan Yuca, Mayankkumar L. Chaudhary, Rutu Patel, Niharika Maley, Md. Hasibul Hasan, Mehedi Hasan Jihad, Md. Abu Bin Hasan Susan, Jonathan Tersur Orasugh, Lesego Tabea Temane, Suprakas Sinha Ray, Dipankar Chattopadhyay, Sresha Sarkar, Debashmita Mandal, Adrija Ghosh, Muhammad Sohail Bashir, Ahsanullah Unar, Umair Azhar, Fuzhou Wang, Rajat Chakraborty, Apurba Das, Anindita Deka, Pintu Barman, Ram K. Gupta, Anurag Tiwari, Rajendra Kumar Singh, Sarbaranjan Paria, Poulami Karan, Bhanu Bhusan Khatua, Zohreh Niazi, Elaheh K. Goharshadi, Aminur Rahman, Kamrul Hasan, Abu Bin Imran, Omer Suat Taskin, Neslihan Yuca, Mayankkumar L. Chaudhary, Rutu Patel, Niharika Maley, Md. Hasibul Hasan, Mehedi Hasan Jihad, Md. Abu Bin Hasan Susan, Jonathan Tersur Orasugh, Lesego Tabea Temane, Suprakas Sinha Ray, Dipankar Chattopadhyay, Sresha Sarkar, Debashmita Mandal, Adrija Ghosh, Muhammad Sohail Bashir, Ahsanullah Unar, Umair Azhar, Fuzhou Wang, Rajat Chakraborty, Apurba Das, Anindita Deka, and Pintu Barman

Published
2024

45. Improved Variable Step Length A* Search Algorithm for Path Planning of Mobile Robots

Author

Md. Razu Ahmed and Md. Hasibul Hasan

Subjects
0209 industrial biotechnology, Mathematical optimization, Systems simulation, Computer science, Process (computing), Order (ring theory), Mobile robot, 02 engineering and technology, 020901 industrial engineering & automation, Search algorithm, Path (graph theory), 0202 electrical engineering, electronic engineering, information engineering, Robot, 020201 artificial intelligence & image processing, Motion planning
Abstract

The use of Mobile Robots in diverse sectors are increasing day by day. Nowadays, mobile robots are widely used in industrial sectors, but real-time path planning and collision free path tracking raises more challenging issues. A good path planning process for these mobile robots is needed in order for them to perform better. In path planning problems, the $A^{\ast}$ algorithm has been widely investigated and applied, but the cost and efficiency of the path is not completely taken into consideration. This algorithm has been tweaked and improved in a number of ways to facilitate path planning. Taking into account the variable-step-length $A^{\ast}$ search algorithm, which can take steps longer than one. This method uses a fixed step length and produces a better path than the $A^{\ast}$ Search algorithm. However, if the step length can be modified in the process as required, a more optimal direction can be obtained. As a result, this paper proposes an improved updated variable-step-length based $A^{\ast}$ algorithm that can update or change step length. This algorithm will efficiently find a path with a shorter length. In order to check the feasibility and efficiency of the proposed system, simulation and practical experiments are carried out. The findings show that the improved $A^{\ast}$ algorithm will increase the planned route’s safety and efficiency while also reducing the robot’s movement time in difficult terrain.

Published
2021
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46. Home Automation System Using Gesture Pattern & Voice Recognition For Paralyzed People

Author

Azm Ehtesham Chowdhury, Md. Lizur Rahman, Syed Abrab Mahmood, Md. Hasibul Hasan, Md. Iftekhar Uddin, and Sadat Hasan Shehab

Subjects
Computer science, business.industry, 0211 other engineering and technologies, Home automation system, 02 engineering and technology, Electrical devices, Facial recognition system, Task (project management), 03 medical and health sciences, 0302 clinical medicine, Home automation, Human–computer interaction, 030225 pediatrics, 021105 building & construction, Task analysis, business, Gesture
Abstract

Paralyzed people face a lot of challenges and difficulties in their regular activities. Even a simple task such as controlling electrical devices also very difficult for them. This study's primary purpose is to develop a cost-effective home automation system based on the human-centered design (HCD) that could reduce some people's difficulties. The proposed approach takes voice or gesture as input and performs necessary actions according to the information. The proposed system helps all paralyzed people except quadriplegia operate the room appliances without regular attention from a caretaker or nurse.

Published
2020
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47. Bayesian Optimization Based ANN Model for Short Term Wind Speed Forecasting in Newfoundland, Canada

Author

Md. Hasibul Hasan Hasib, Hasan Mahmud, Habibur Rahaman, T. M. Rubaith Bashar, Arifin Nur Alif, and Mohammad Munem

Subjects
Hyperparameter, Mathematical optimization, Wind power, Artificial neural network, Mean squared error, Computer science, business.industry, Deep learning, Bayesian optimization, Wind speed, Support vector machine, Artificial intelligence, business, Physics::Atmospheric and Oceanic Physics
Abstract

Wind power capacity around the world is increasing day by day, but the production of wind energy greatly depends on the wind speed, where the wind speed has stochastic nature over time. In this paper, an artificial neural network (ANN) technique to forecast wind speed for the next hour in Newfoundland, Canada is proposed. As, deep learning models are combined with different hyperparameters, in our study, the selection of important hyperparameters are conducted by applying the Bayesian optimization algorithm. The wind speed forecasting performance of the proposed model is compared with other recognized models like support vector machine (SVM), random forest (R.F.) and decision tree (D.T.), where it is observed that our proposed model performs better than the other models in terms of mean absolute error (M.A.E.) and root mean squared error (R.M.S.E.). The proposed Bayesian optimized artificial neural network is fed with five input features and delivers M.A.E. and R.M.S.E. of 1.09 and 1.45.

Published
2020
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48. Evaluation of nephroprotective and cytotoxic effect of ethanolic extract of Mikania scandens leaves by using alloxan-induced diabetic nephropathy mice

Author

S. M. Mushiur Rahman, Maruf ul Islam, Md. Hasibul Hasan Joardar, Koushik Ahammed, Md. Ben Yameen, and Rokshana Sharmin

Subjects
Cytotoxic, 030303 biophysics, lcsh:Medicine, lcsh:RX1-681, Nephroprotective, Nephropathy, Diabetic nephropathy, 03 medical and health sciences, chemistry.chemical_compound, Diabetic, 0302 clinical medicine, lcsh:Homeopathy, Alloxan, Diabetes mellitus, medicine, 030223 otorhinolaryngology, General Environmental Science, 0303 health sciences, Creatinine, Kidney, Traditional medicine, biology, business.industry, lcsh:R, biology.organism_classification, medicine.disease, medicine.anatomical_structure, chemistry, Mikania scandens, General Earth and Planetary Sciences, Uric acid, business
Abstract

Background Diabetic is one of the fundamental persuasive of diabetic nephropathy and significantly sparks off kidney diseases and end stage renal failure globally. Method The current research was carried out to evaluate hypoglycemic potential and nephroprotective effect of ethanolic extract of Mikania scandens leaves by using alloxan-induced diabetic nephropathy (DN) mice. The mice were intraperitoneally treated with (200 mg/kg) Mikania scandens leaves extract and standard (120 mg/kg) metformin HCL solution up to 22 days. During this treatment period, we collected blood for evaluation of different types of parameters such as blood glucose level body weight at 0, 15, 22th days, serum creatinine, uric acid, total protein were estimated at the end of the experiment (day 22). Result Mikania scandens leaves extract significantly (p 50. The plant has high LC50 dose thus cytotoxicity has ensued at massive amount and safe to administer. Conclusion Lowering of serum creatinine, uric acid and total protein recommend that the ethanolic extract of Mikania scandens possess potent nephroprotective activity and assure the traditional avail of this plant in the management of diabetes nephropathy.

Published
2020
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49. BlockChain based Fertilizer Distribution System

Author

Md. Ezazul Islam, Md. Tarif Hosen, Md. Hasibul Hasan, and Sabbir Ahmed

Subjects
Supply chain management, Smart contract, Computer science, Process (engineering), business.industry, Supply chain, 020206 networking & telecommunications, 02 engineering and technology, Agricultural engineering, Monitoring and evaluation, engineering.material, Management information systems, Agriculture, 020204 information systems, 0202 electrical engineering, electronic engineering, information engineering, engineering, Fertilizer, business
Abstract

To ensure the soil fertility and crop production fertilizer is the key concern for the agriculture system. Currently, in Bangladesh, the fertilizer distribution system follows the pen and paper-based process which is not involving any digitalization. Following this manual process, the main issue is ensuring the supply and availability of the fertilizers to the farmer doorstep. In this paper, we have proposed a framework with the use of blockchain technology-based fertilizer distribution supply chain management process. The tamper-proof data storage, retrieval, and user management system guarantee persistent monitoring and evaluation process with the strong management information system which employs precise reference information that can be associated with the board.

Published
2020
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50. Salinity Intrusion in Southwest Coastal Bangladesh: An Insight from Land Use Change

Author

Maruf Billah, Md. Arif Chowdhury, Md. Hasibul Hasan, and Mohammad Jobayer Hossain

Subjects
Upstream (petroleum industry), Government, Geography, Land use, business.industry, Agriculture, Agricultural land, Environmental resource management, Land use, land-use change and forestry, Livelihood, business, Natural (archaeology)
Abstract

Coastal areas are considered as one of the important hubs of natural properties and people, where different forms of natural and man-made calamities alter the standard of resources. Salinity is an emerging issue in coastal areas for which land use changes appear to have impacts on livelihood in coastal areas of Bangladesh. Following the statement, this research was conducted to understand the relationship between salinity intrusion and land use changes in the perspective of different forms of land use pattern. This study was done in Bagerhat district through image classification from 1980 to 2018 and 27 Key Informant Interviews (KIIs) were done to understand the land use dynamic. This research stated that agricultural land was decreased around 303 km2 (7.97 km2/year) from 1980 to 2018 in Bagerhat district while aquaculture is increasing dramatically at the rate of 486 km2 (12.78 km2/year). Along with natural event induced salinity intrusion, people’s perception identified poor water management and upstream intervention as reasons behind the consequence of saline water intrusion induced land use change. This study will help the government, non-government authorities and local representatives to initiate necessary steps regarding sustainable land use management in coastal areas of Bangladesh.

Published
2020
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