Daily Archives: April 23, 2026

Authors: Mr. Karthiban R, Dhanushya S, Akash S, Bharath Raj P, Mathan Kumar J

Abstract: This project presents SecureLearn Browser, a secure browser integrated with a Learning Management System (LMS) to ensure examination integrity while supporting flexible learning. It follows a dual-mode architecture with Practice Mode and Exam Mode, each designed for different educational needs. Users access the system through a centralized login interface. After authentication, Practice Mode allows unrestricted access to course materials, including Full Stack Development and HTML modules, enabling self-paced learning without time or security restrictions. In contrast, Exam Mode enforces strict controls such as time limits, password protection, and browser lockdown to prevent navigation, screen capture, and application switching. Based on Safe Exam Browser (SEB) principles, the system creates a secure environment for assessments while maintaining a user-friendly space for learning. The integrated HTML course supports hands-on practice within the same platform. Overall, the system balances security and flexibility by providing a unified platform for both learning and examinations, eliminating the need for separate tools.

DOI: https://doi.org/10.5281/zenodo.19705480

 

Published by: vikaspatanker

Authors: Roshni Dhruv, Omi Navadiya, Reena Desai

Abstract: In the last few years, talk about IoT and 5G has left the boardrooms and landed in real places—factories, hospitals, city streets, even farms. This paper digs into that shift. We look at what actually happens when you put 5G’s speed and low latency together with IoT’s huge reach, and why that pairing matters much more than each alone. You’ll see real-world deployments, the tough problems people are running into, and a peek at what’s next—security issues that still keep folks up at night, plus some genuinely promising ideas with AI-powered networks and ambient sensing. We get into the details of enabling tech like edge computing, digital twins, and network slicing, right alongside new standards, economic outlooks, and the rules and regulations steering all of this. The point here isn’t to hype things up—it’s to spell out what’s actually going on, what’s working, what’s tricky, and why you should care.

DOI: https://doi.org/10.5281/zenodo.19703853

Published by: vikaspatanker

Authors: H. M. Pawar, Abhishek Kavthekar, Sanket Gaware, Kartik Chawan, Sunny Bhagawat

Abstract: Rapid urbanization and the continuous increase in vehicular traffic have made conventional traffic signal systems inefficient, leading to congestion, increased travel time, and higher fuel consumption. Traditional fixed-timing traffic lights fail to adapt to real-time traffic conditions, resulting in unnecessary delays even when certain lanes have minimal or no traffic.This project proposes a Sub-Smart Traffic Signal Control System, an intelligent yet cost-effective solution designed to optimize traffic flow using real-time data. The system utilizes sensors such as infrared (IR), ultrasonic, or camera-based modules to detect vehicle density on different lanes. Based on the collected data, the signal timing is dynamically adjusted, giving priority to lanes with higher traffic density while reducing idle time for less congested routes.Additionally, the system can be extended to include emergency vehicle detection, enabling automatic signal clearance for ambulances and fire services. The proposed solution aims to minimize traffic congestion, reduce fuel wastage, and improve overall road efficiency without the high infrastructure costs associated with fully smart traffic systems.The implementation demonstrates how a semi-automated (“sub-smart”) approach can significantly enhance traffic management in developing urban areas, making it a practical and scalable solution for modern cities.

Published by: vikaspatanker

Authors: Prakhar Kulshrestha, Tanmoy, Anoushka Das, Shubhradip

Abstract: This paper reviews the design and development of Ranger’s Bad Luck, an arcade-style 3D video game built using agile methodologies. The game incorporates real-time graphics, a physics engine, and immersive sound effects to enhance the player experience. This review evaluates the advantages, limitations, and technological choices made during development, while situating the project within the broader context of game design practices. The findings indicate that the integration of agile development methods and modern tools such as Unreal Engine and Blender enabled efficient prototyping and implementation, though limitations regarding performance and scalability remain.

Published by: vikaspatanker