A/2, Jahurul Islam Avenue
Jahurul Islam City, Aftabnagar
Dhaka-1212, Bangladesh
Dr. Mohammad Salah Uddin is an Associate Professor in the Computer Science and Engineering Department at the East West University Dhaka, Bangladesh. Before this, he worked as a researcher (Tradr - European project) at Sapienza University of Rome. After completing his B.Sc in Computer Science and Engineering from East West University in 2012, he joined as a Lecturer at Central Women’s University, Bangladesh. In October 2013, he enrolled in Sapienza University of Rome, Italy, to pursue his PhD Degree and received a PhD degree in Robotics in July 2017. His research mainly focuses on Heterogeneous Robotics systems, Task planning/Allocation for Multi-Robotics systems, IoT-Robotics, Sensors and Systems, Embedded Systems, Internet of Things, Computer Vision etc. He published several research papers in peer-reviewed conferences/journals from his research work. In 2018, He delivered a speech in Maker Faire Shenzhen 2018 as a forum speaker. He is an IEEE Robotics and Automation Society member and holds an IEEE professional membership. He also has some other National and International memberships.
Robotics
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Robotics is a branch of engineering that involves the conception, design, manufacture, and operation of robots. This field overlaps with electronics, computer science, artificial intelligence, mechatronics, nanotechnology and bio-engineering.Science-fiction author Isaac Asimov is often given credit for being the first person to use the term robotics in a short story composed in the 1940's. In the story, Asimov suggested three principles to guide the behavior of robots and smart machines. Asimov's Three Laws of Robotics, as they are called, have survived to the present:1. Robots must never harm human beings.2. Robots must follow instructions from humans without violating rule 1.3. Robots must protect themselves without violating the other rules.Source: Google |
Sensors and Systems
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Sensors are sophisticated devices that are frequently used to detect and respond to electrical or optical signals. A Sensor converts the physical parameter (for example: temperature, blood pressure, humidity, speed, etc.) into a signal which can be measured electrically. Let’s explain the example of temperature. The mercury in the glass thermometer expands and contracts the liquid to convert the measured temperature which can be read by a viewer on the calibrated glass tube.Source: Google |
Machine vision |
Machine vision (MV) is the technology and methods used to provide imaging-based automatic inspection and analysis for such applications as automatic inspection, process control, and robot guidance, usually in industry. Machine vision refers to many technologies, software and hardware products, integrated systems, actions, methods and expertise. Machine vision as a systems engineering discipline can be considered distinct from computer vision, a form of computer science. It attempts to integrate existing technologies in new ways and apply them to solve real world problems. The term is the prevalent one for these functions in industrial automation environments but is also used for these functions in other environments such as security and vehicle guidance.The overall machine vision process includes planning the details of the requirements and project, and then creating a solution. During run-time, the process starts with imaging, followed by automated analysis of the image and extraction of the required information.Source: Wikipedia |
Internet of things |
The "Internet of things" (IoT) is becoming an increasingly growing topic of conversation both in the workplace and outside of it. It's a concept that not only has the potential to impact how we live but also how we work. But what exactly is the "Internet of things" and what impact is it going to have on you, if any? There are a lot of complexities around the "Internet of things" but I want to stick to the basics. Lots of technical and policy-related conversations are being had but many people are still just trying to grasp the foundation of what the heck these conversations are about. |
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Uddin, M.S., Khan, M.S.H. (2024). SAHMS: Smart Animal Health Monitoring System. In: Mandal, J.K., Hinchey, M., Chakrabarti, S. (eds) Recent Advances in Artificial Intelligence and Smart Applications. RAAISA 2023. Innovations in Sustainable Technologies and Computing. Springer, Singapore. https://doi.org/10.1007/978-981-97-3485-6_19
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Uddin, M.S., Ghosh, D., Aurnab, A.A. (2024). Design a COVID-19 Vaccination Status Verification System Using Face Recognition for Bangladesh. In: Mandal, J.K., Hinchey, M., Chakrabarti, S. (eds) Recent Advances in Artificial Intelligence and Smart Applications. RAAISA 2023. Innovations in Sustainable Technologies and Computing. Springer, Singapore. https://doi.org/10.1007/978-981-97-3485-6_15
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Vasker, N., Uddin, M.S., Tahsin, M., Nafisa, A.T. (2024). EnDFUD: Enhanced Diabetic Foot Ulcer Detection with DETR and YOLOv5. In: Mandal, J.K., Hinchey, M., Chakrabarti, S. (eds) Recent Advances in Artificial Intelligence and Smart Applications. RAAISA 2023. Innovations in Sustainable Technologies and Computing. Springer, Singapore. https://doi.org/10.1007/978-981-97-3485-6_14
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Mohammad Salah Uddin and Md. Anishur Rahman. A Comparative Study of Machine Learning Algorithms for Enhanced Credit Default Prediction. In: Asirvatham, D., Gonzalez-Longatt, F.M., Falkowski-Gilski, P., Kanthavel, R. (eds) Evolutionary Artificial Intelligence. ICEASSM 2017. Algorithms for Intelligent Systems. Springer, Singapore. (Link)
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Mohammad Salah Uddin and Md Yeasin Munsi. JuLeDI: Jute Leaf Disease Identification Using Convolutional Neural Network. In: Inventive Communication and Computational Technologies. Ed. by G. Ranganathan, George A. Papakostas, and Álvaro Rocha. Singapore: Springer Nature Singapore, 2023, pp. 661–677. (Link)
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