Your search keyword '"Mamun, Muntasir"' showing total 11 results

1. Photogrammetry for Digital Twinning Industry 4.0 (I4) Systems

Author

Alhamadah, Ahmed, Mamun, Muntasir, Harms, Henry, Redondo, Mathew, Lin, Yu-Zheng, Pacheco, Jesus, Salehi, Soheil, and Satam, Pratik

Subjects

Computer Science - Computer Vision and Pattern Recognition, Electrical Engineering and Systems Science - Image and Video Processing

Abstract

The onset of Industry 4.0 is rapidly transforming the manufacturing world through the integration of cloud computing, machine learning (ML), artificial intelligence (AI), and universal network connectivity, resulting in performance optimization and increase productivity. Digital Twins (DT) are one such transformational technology that leverages software systems to replicate physical process behavior, representing the physical process in a digital environment. This paper aims to explore the use of photogrammetry (which is the process of reconstructing physical objects into virtual 3D models using photographs) and 3D Scanning techniques to create accurate visual representation of the 'Physical Process', to interact with the ML/AI based behavior models. To achieve this, we have used a readily available consumer device, the iPhone 15 Pro, which features stereo vision capabilities, to capture the depth of an Industry 4.0 system. By processing these images using 3D scanning tools, we created a raw 3D model for 3D modeling and rendering software for the creation of a DT model. The paper highlights the reliability of this method by measuring the error rate in between the ground truth (measurements done manually using a tape measure) and the final 3D model created using this method. The overall mean error is 4.97\% and the overall standard deviation error is 5.54\% between the ground truth measurements and their photogrammetry counterparts. The results from this work indicate that photogrammetry using consumer-grade devices can be an efficient and cost-efficient approach to creating DTs for smart manufacturing, while the approaches flexibility allows for iterative improvements of the models over time.

Published

2024

2. HW-V2W-Map: Hardware Vulnerability to Weakness Mapping Framework for Root Cause Analysis with GPT-assisted Mitigation Suggestion

Author

Lin, Yu-Zheng, Mamun, Muntasir, Chowdhury, Muhtasim Alam, Cai, Shuyu, Zhu, Mingyu, Latibari, Banafsheh Saber, Gubbi, Kevin Immanuel, Bavarsad, Najmeh Nazari, Caputo, Arjun, Sasan, Avesta, Homayoun, Houman, Rafatirad, Setareh, Satam, Pratik, and Salehi, Soheil

Subjects

Computer Science - Cryptography and Security, Computer Science - Artificial Intelligence, Computer Science - Machine Learning

Abstract

The escalating complexity of modern computing frameworks has resulted in a surge in the cybersecurity vulnerabilities reported to the National Vulnerability Database (NVD) by practitioners. Despite the fact that the stature of NVD is one of the most significant databases for the latest insights into vulnerabilities, extracting meaningful trends from such a large amount of unstructured data is still challenging without the application of suitable technological methodologies. Previous efforts have mostly concentrated on software vulnerabilities; however, a holistic strategy incorporates approaches for mitigating vulnerabilities, score prediction, and a knowledge-generating system that may extract relevant insights from the Common Weakness Enumeration (CWE) and Common Vulnerability Exchange (CVE) databases is notably absent. As the number of hardware attacks on Internet of Things (IoT) devices continues to rapidly increase, we present the Hardware Vulnerability to Weakness Mapping (HW-V2W-Map) Framework, which is a Machine Learning (ML) framework focusing on hardware vulnerabilities and IoT security. The architecture that we have proposed incorporates an Ontology-driven Storytelling framework, which automates the process of updating the ontology in order to recognize patterns and evolution of vulnerabilities over time and provides approaches for mitigating the vulnerabilities. The repercussions of vulnerabilities can be mitigated as a result of this, and conversely, future exposures can be predicted and prevented. Furthermore, our proposed framework utilized Generative Pre-trained Transformer (GPT) Large Language Models (LLMs) to provide mitigation suggestions., Comment: 22 pages, 10 pages appendix, 10 figures, Submitted to ACM TODAES

Published

2023

3. A Deep Analysis of Transfer Learning Based Breast Cancer Detection Using Histopathology Images

Author

Mahmud, Md Ishtyaq, Mamun, Muntasir, and Abdelgawad, Ahmed

Subjects

Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning

Abstract

Breast cancer is one of the most common and dangerous cancers in women, while it can also afflict men. Breast cancer treatment and detection are greatly aided by the use of histopathological images since they contain sufficient phenotypic data. A Deep Neural Network (DNN) is commonly employed to improve accuracy and breast cancer detection. In our research, we have analyzed pre-trained deep transfer learning models such as ResNet50, ResNet101, VGG16, and VGG19 for detecting breast cancer using the 2453 histopathology images dataset. Images in the dataset were separated into two categories: those with invasive ductal carcinoma (IDC) and those without IDC. After analyzing the transfer learning model, we found that ResNet50 outperformed other models, achieving accuracy rates of 90.2%, Area under Curve (AUC) rates of 90.0%, recall rates of 94.7%, and a marginal loss of 3.5%., Comment: 7 pages, Accepted by 10th International Conference on Signal Processing and Integrated Networks (SPIN 2023)

Published

2023

4. MHfit: Mobile Health Data for Predicting Athletics Fitness Using Machine Learning

Author

Miah, Jonayet, Mamun, Muntasir, Rahman, Md Minhazur, Mahmud, Md Ishtyaq, Ahmed, Sabbir, and Nasir, Md Hasan Bin

Subjects

Computer Science - Machine Learning, Computer Science - Computers and Society

Abstract

Mobile phones and other electronic gadgets or devices have aided in collecting data without the need for data entry. This paper will specifically focus on Mobile health data. Mobile health data use mobile devices to gather clinical health data and track patient vitals in real-time. Our study is aimed to give decisions for small or big sports teams on whether one athlete good fit or not for a particular game with the compare several machine learning algorithms to predict human behavior and health using the data collected from mobile devices and sensors placed on patients. In this study, we have obtained the dataset from a similar study done on mhealth. The dataset contains vital signs recordings of ten volunteers from different backgrounds. They had to perform several physical activities with a sensor placed on their bodies. Our study used 5 machine learning algorithms (XGBoost, Naive Bayes, Decision Tree, Random Forest, and Logistic Regression) to analyze and predict human health behavior. XGBoost performed better compared to the other machine learning algorithms and achieved 95.2% accuracy, 99.5% in sensitivity, 99.5% in specificity, and 99.66% in F1 score. Our research indicated a promising future in mhealth being used to predict human behavior and further research and exploration need to be done for it to be available for commercial use specifically in the sports industry., Comment: 6, Accepted by 2nd International Seminar on Machine Learning, Optimization, and Data Science (ISMODE)

Published

2023

5. LCDctCNN: Lung Cancer Diagnosis of CT scan Images Using CNN Based Model

Author

Mamun, Muntasir, Mahmud, Md Ishtyaq, Meherin, Mahabuba, and Abdelgawad, Ahmed

Subjects

Electrical Engineering and Systems Science - Image and Video Processing, Computer Science - Computer Vision and Pattern Recognition, Computer Science - Machine Learning

Abstract

The most deadly and life-threatening disease in the world is lung cancer. Though early diagnosis and accurate treatment are necessary for lowering the lung cancer mortality rate. A computerized tomography (CT) scan-based image is one of the most effective imaging techniques for lung cancer detection using deep learning models. In this article, we proposed a deep learning model-based Convolutional Neural Network (CNN) framework for the early detection of lung cancer using CT scan images. We also have analyzed other models for instance Inception V3, Xception, and ResNet-50 models to compare with our proposed model. We compared our models with each other considering the metrics of accuracy, Area Under Curve (AUC), recall, and loss. After evaluating the model's performance, we observed that CNN outperformed other models and has been shown to be promising compared to traditional methods. It achieved an accuracy of 92%, AUC of 98.21%, recall of 91.72%, and loss of 0.328., Comment: 8, accepted by 10th International Conference on Signal Processing and Integrated Networks (SPIN 2023)

Published

2023

6. A Deep Analysis of Brain Tumor Detection from MR Images Using Deep Learning Networks.

Author

Mahmud, Md Ishtyaq, Mamun, Muntasir, and Abdelgawad, Ahmed

Subjects

*DEEP learning, *BRAIN tumors, *MAGNETIC resonance imaging, *CONVOLUTIONAL neural networks, *PATTERN recognition systems, *ARTIFICIAL intelligence

Abstract

Creating machines that behave and work in a way similar to humans is the objective of artificial intelligence (AI). In addition to pattern recognition, planning, and problem-solving, computer activities with artificial intelligence include other activities. A group of algorithms called "deep learning" is used in machine learning. With the aid of magnetic resonance imaging (MRI), deep learning is utilized to create models for the detection and categorization of brain tumors. This allows for the quick and simple identification of brain tumors. Brain disorders are mostly the result of aberrant brain cell proliferation, which can harm the structure of the brain and ultimately result in malignant brain cancer. The early identification of brain tumors and the subsequent appropriate treatment may lower the death rate. In this study, we suggest a convolutional neural network (CNN) architecture for the efficient identification of brain tumors using MR images. This paper also discusses various models such as ResNet-50, VGG16, and Inception V3 and conducts a comparison between the proposed architecture and these models. To analyze the performance of the models, we considered different metrics such as the accuracy, recall, loss, and area under the curve (AUC). As a result of analyzing different models with our proposed model using these metrics, we concluded that the proposed model performed better than the others. Using a dataset of 3264 MR images, we found that the CNN model had an accuracy of 93.3%, an AUC of 98.43%, a recall of 91.19%, and a loss of 0.25. We may infer that the proposed model is reliable for the early detection of a variety of brain tumors after comparing it to the other models. [ABSTRACT FROM AUTHOR]

Published

2023

7. A systematic review on cough sound analysis for Covid-19 diagnosis and screening: is my cough sound COVID-19?

Author

Santosh, KC, primary, Rasmussen, Nicholas, additional, Mamun, Muntasir, additional, and Aryal, Sunil, additional

Published

2022

8. Tracing a path to knowledge? Indicative user impacts of introducing a public transport map in Dhaka, Bangladesh

Author

Massachusetts Institute of Technology. Department of Urban Studies and Planning, Zegras, P. Christopher, Eros, Emily, Butts, Kuan, Resor, Elizabeth, Kennedy, Stephen, Ching, Albert, Mamun, Muntasir, Massachusetts Institute of Technology. Department of Urban Studies and Planning, Zegras, P. Christopher, Eros, Emily, Butts, Kuan, Resor, Elizabeth, Kennedy, Stephen, Ching, Albert, and Mamun, Muntasir

Abstract

The smartphone exemplifies the rhetorical smart city movement. This paper examines one potential use of smartphone technology—mapping public transportation services in a megacity of the Global South. We examine the potential user impacts of introducing a smartphone-generated and analogue-delivered schematic bus map in Dhaka, Bangladesh. After distributing the map, we used a web-based survey to investigate impacts on users’ knowledge, as measured by their stated understanding, navigation and perceptions of the system. While a small and biased sample, the results suggest that the map fills a knowledge gap, provides useful and valued information and may stimulate ‘exploration’ of the city and its bus system., Singapore. National Research Foundation (Singapore-MIT Alliance for Research and Technology Center. Future Urban Mobility Program)

Published

2016

9. Planning for sustainability of non motorised public transport in a developing city

Author

Rahman, Mamun Muntasir and Rahman, Mamun Muntasir

Abstract

Most large cities around the world are undergoing rapid transport sector development to cater for increased urbanization. Subsequently the issues of mobility, access equity, congestion, operational safety and above all environmental sustainability are becoming increasingly crucial in transport planning and policy making. The popular response in addressing these issues has been demand management, through improvement of motorised public transport (MPT) modes (bus, train, tram) and non-motorized transport (NMT) modes (walk, bicycle); improved fuel technology. Relatively little attention has however been given to another readily available and highly sustainable component of the urban transport system, non-motorized public transport (NMPT) such as the pedicab that operates on a commercial basis and serves as an NMT taxi; and has long standing history in many Asian cities; relatively stable in existence in Latin America; and reemerging and expanding in Europe, North America and Australia. Consensus at policy level on the apparent benefits, costs and management approach for NMPT integration has often been a major transport planning problem. Within this context, this research attempts to provide a more complete analysis of the current existence rationale and possible future, or otherwise, of NMPT as a regular public transport system. The analytical process is divided into three major stages. Stage 1 reviews the status and role condition of NMPT as regular public transport on a global scale- in developing cities and developed cities. The review establishes the strong ongoing and future potential role of NMPT in major developing cities. Stage 2 narrows down the status review to a case study city of a developing country in order to facilitate deeper role review and status analysis of the mode. Dhaka, capital city of Bangladesh, has been chosen due to its magnitude of NMPT presence. The review and analysis reveals the multisectoral and dominant role of NMPT in catering for the

Published

2013

10. Rehabilitation of the occlusal vertical dimension with an overlay removable partial denture—a case report

Author

Islam, Md Saiful, primary, Nizami, Md Zahedul Islam, primary, Begum, Aleya, primary, Ahmed, Rubaba, primary, and Al Mamun, Muntasir, primary

Published

2012

11. Analyzing Cough Sounds for the Evidence of Covid-19 using Deep Learning Models

Author

KC Santosh, Mamun, Muntasir, KC Santosh, and Mamun, Muntasir