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<title>Internship Report</title>
<link>http://dspace.daffodilvarsity.edu.bd:8080/handle/123456789/56</link>
<description/>
<pubDate>Mon, 06 Jul 2026 07:27:34 GMT</pubDate>
<dc:date>2026-07-06T07:27:34Z</dc:date>
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<title>Empirical Study on Network System Administration with  Mikrotik Platform</title>
<link>http://dspace.daffodilvarsity.edu.bd:8080/handle/123456789/17440</link>
<description>Empirical Study on Network System Administration with  Mikrotik Platform
Biswas, Sajib
An extensive summary of my network system administration internship experience is given in this report, with particular attention to the usage of MikroTik as a platform for network infrastructure design, configuration, and management. By providing practical experience in setting routers, switches, and firewalls to enable safe and effective data transfer inside an organizational setup, the internship sought to close the knowledge gap between theory and practice. The study describes the design of MikroTik devices, their use in contemporary networking systems, and the basic ideas of network system administration. I was introduced to a variety of network design topics throughout my internship, such as traffic management, VLAN setup, IP addressing, subnetting, and troubleshooting network problems. I was able to comprehend sophisticated networking features like Quality of Service (QoS), Virtual Private Networks (VPNs), and network security measures by using MikroTik's RouterOS. The report also outlines certain projects and activities completed during the internship, including network topology configuration, firewall deployment to reduce security risks, and bandwidth optimization to improve network performance. These assignments highlighted how crucial it is to keep up a strong and expandable network infrastructure in order to satisfy organizational demands.
Internship Report
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<pubDate>Thu, 30 Jan 2025 00:00:00 GMT</pubDate>
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<dc:date>2025-01-30T00:00:00Z</dc:date>
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<title>Empirical Study On Isp Operation And Maintenance With Mikrotik</title>
<link>http://dspace.daffodilvarsity.edu.bd:8080/handle/123456789/17439</link>
<description>Empirical Study On Isp Operation And Maintenance With Mikrotik
Islam, Rafiqul
This study's primary goal is to clarify how to set up and maintain a network and bandwidth using the network management software Mikrotik. The goal is to become the most appealing and trustworthy online retailer for customers. The Mikrotik router's design is created by Winbox. This system acts as a successful example and is subjected to incremental testing afterall the services have been deployed. The Winbox platform's use of a Mikrotik router includes a number of tasks, such as network design, analysis, and troubleshooting. It can also be used for network security, PPPoE deployment, VPN and tunneling, network monitoring, and consultancy. Furthermore, it provides capabilities like firewalls, bridges, DNS, NAT, ARP, and a number of other features. By using cnPilot access points for Wi-Fi with cnMaestro management, network management and maintenance costs can be decreased while user comfort is increased.
Internship Report
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<pubDate>Tue, 30 Jan 2024 00:00:00 GMT</pubDate>
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<dc:date>2024-01-30T00:00:00Z</dc:date>
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<title>Automation of Traffic Congestion Reduction  Management System</title>
<link>http://dspace.daffodilvarsity.edu.bd:8080/handle/123456789/17236</link>
<description>Automation of Traffic Congestion Reduction  Management System
Foysal, Jarif; Shanto, MD Emam Hossain
In this project, built an intelligent traffic congestion management system with an ESP32 board. Traffic signal timings are changed in realtime by the system based on vehicle density data captured using 8 such IR sensor modules placed across various lanes of the road. The intelligent modification of green time duration (i.e., 10, 15, or 20 seconds) for the green lights are programmed according to different traffic conditions in order to prevent traffic jam and improve the flow of traffic. It has 4 traffic light modules that manage signal directions and it also counts with a 16x2 LCD display that has an I2C driver for real status updates. Power is supplied using two 3.7 V batteries, and the output voltage is reduced to 5 V by an MP1584 buck converter with good power efficiency. Supporting components in form of jumper wires, male-female headers, power switch and veroboard make it easy to connect the hardware. It is mounted on a white PVC board, which serves as a stable base for the device. At the conclusionof each traffic cycle, signal timings are sent over Wi-Fi to a Google Sheet by the ESP32 and stored in the cloud for analysis. It's in real time, so when there are no cars on the block, there are quicker transit times because the signals are computerized and intelligent." The presented solution is a scalable and low-energy cost way of traffic management promoting urban mobility. The use of cloud analytics also enables the monitoring tracking of trends over time of traffic flow patterns contributing to future urban development planning decisions. It is also possible to further develop the system, by integrating functionality such as pedestrian detection or emergency vehicle prioritization. The system is equipped with remote monitoring feature allowing intelligent and dynamic way of city traffic control, enabling its deployment on different types of cities ranging from small towns to mega cities.
Internship Report
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<pubDate>Thu, 30 Oct 2025 00:00:00 GMT</pubDate>
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<dc:date>2025-10-30T00:00:00Z</dc:date>
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<title>Development of an IoT Based Portable Health Monitoring System</title>
<link>http://dspace.daffodilvarsity.edu.bd:8080/handle/123456789/14160</link>
<description>Development of an IoT Based Portable Health Monitoring System
Yasmin, Syada Shorifa; Islam, Atikul
The proliferation of Internet of Things (IoT) technology has ushered in a new era of healthcare, enabling real-time monitoring and management of patient health. This project focuses on the development of an IoT-based health monitoring system designed to remotely track vital parameters such as heart rate, blood pressure, blood oxygen levels, and body temperature. The system comprises wearable sensors, a data acquisition module, and a cloud-based platform for data storage, analysis, and visualization. The proposed system aims to empower individuals to proactively manage their health by providing timely insights into their physiological conditions. By leveraging IoT and cloud computing technologies, the system facilitates remote patient monitoring, early detection of health anomalies, and efficient healthcare resource allocation. The project encompasses the design, implementation, and evaluation of the IoT-based health monitoring system, with a focus on data privacy, security, and user experience.
Project
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<pubDate>Mon, 30 Sep 2024 00:00:00 GMT</pubDate>
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<dc:date>2024-09-30T00:00:00Z</dc:date>
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