Domain: Embedded & IOT

Problem Statements, Statement Description

ID: EEI001. Working model of Drone using remote model

Create a functional drone model that can be controlled remotely using a wireless transmitter and receiver. The drone should be capable of stable flight, maneuvering, and performing basic aerial maneuvers.

ID: EEI002. Voice-Controlled Mobile Robot for Task Execution

This project focuses on designing a robot that can move and perform tasks based on voice commands. Equipped with a microcontroller and a voice recognition module, the robot will interpret spoken instructions and translate them into precise movements. It will be capable of navigating various environments, responding to directional commands, and executing specific actions as instructed by the user. The project aims to integrate robust motor control and reliable voice recognition to create an interactive and responsive robotic system.

ID: EEI003. Automated Departmental Monitoring System

Develop a GUI-interface monitoring system to control and monitor lights, fans, and leaking taps within a department. The system should automatically cut off water leakage if left unattended and help reduce electricity and water usage through real-time alerts and controls.

ID: EEI004. Customizable Real-Time Bell System

Create a GPS-based, real-time integrated department bell system with Wi-Fi connectivity. The system should feature customizable bell timings, time adjustments through the cloud, and alarm functionalities. It should provide flexible, accurate bell schedules and notifications for departmental use.

ID: EEI005. Smart Irrigation System for Precision Farming

Develop a smart irrigation system that utilizes sensors and IoT technology to monitor soil moisture levels and weather conditions. This system will provide real-time data to farmers, enabling them to make informed decisions on irrigation scheduling, thus optimizing water usage and enhancing crop yield. Expected Solution: A smart irrigation module integrated with moisture sensors and a mobile application to provide farmers with timely irrigation alerts and recommendations based on real-time data.

ID: EEI006. Develop a device for tracking the movement of the sun for the movement of the solar panels, increasing their efficiency

The problem statement is to develop a cost-effective, non-electrical device that can accurately track the sun’s movement and adjust the orientation of solar panels to maintain optimal exposure. This device should be reliable, easy to install, and capable of operating without external power sources

Domain: Communication

Problem Statements, Statement Description

ID: ECM001. Wireless Sensor Network with Non-IP Communication

Design a system that acquires the info communicated by 4 different sensors from a short distance within a few meters of distance without using the ip based communication device.NOTE : Bluetooth,zigbee etc.

ID: ECM002. Low-Cost Signal Jammer with Integrated Mobile Phone Detection for Examination Halls

This project aims to design an affordable signal jammer specifically for use in examination halls or during departmental events to prevent the unauthorized mobile phone usage. The system will target specific frequency bands to ensure minimal disruption outside the intended area. Additionally, an integrated detection system will identify the location of active mobile phones, allowing for real-time monitoring and enforcement of rules. The design will focus on balancing cost-effectiveness with operational efficiency, ensuring compliance with legal and ethical standards.

Domain: Image Processing

Problem Statements, Statement Description

ID: EIP001. Image Processing-Based Cheating Detection System

Develop a copy and cheating monitoring system using image processing technology to detect dishonest activities during examinations. The system should analyze images in real-time to identify suspicious behavior, ensuring the integrity of the examination process.

ID: EIP002. Image-Based Document Analysis System

The objective is to develop a sophisticated system capable of analyzing documents such as answer sheets, extracting and processing information accurately. It will feature advanced document analysis capabilities to interpret layouts, extract marks, and automatically populate Excel sheets. Additionally, the system will create a structured tables and ensure high accuracy across diverse document formats and fonts, focusing on reliable and precise text extraction and data organization.

ID: EIP003. Early Warning System for Glacial Lake Outburst Floods (GLOFs)

The project aims to create an Early Warning System (EWS) for Glacial Lakes (GLOFs) using remote sensing data, IoT sensors, and advanced analytics. The system will monitor lake changes, identify potential outbursts and use machine learning algorithms to improve safety, reduce economic losses, and contribute to resilient infrastructure planning in glacial regions.

Domain: Software

Problem statement, Statement description

ID: ESW001. Laboratory Record Management

Develop a comprehensive laboratory record management website that maintains a detailed list of present components, newly bought items, and components lent to students. The system should streamline inventory tracking, borrowing processes, and overall record management for improved efficiency and organization.

ID: ESW002. SAP Points Calculator and Management

Design a software solution for calculating and validating SAP (Scholastic Assessment Program) points for students. This system should manage the entire process, including point allocation, validation, and record-keeping, ensuring accurate and efficient tracking of students' academic performance and progress.

ID: ESW003. Develop a website for the ECE Department

Design a Responsive Website with the Technology Stack(Frontend: HTML5, CSS3, JavaScript (with React or Angular for more interactive UIs), Backend: Node.js (Express), Python (Django/Flask), or PHP (Laravel), Database: MySQL, PostgreSQL, or MongoDB, Authentication: JWT, OAuth for secure login, Hosting: AWS, DigitalOcean, or Heroku). Which includes Students & Staffs database, Achievements, Recent Updates.

ID: ESW004. Develop a ML Model-based solution to refine CAPTCHA

The challenge involves teams developing a passive solution using AI/ML to analyze environmental parameters to differentiate between bots and humans. The solution should capture environmental details through browser context and use ML models to protect backend APIs from DoS/DDoS vulnerabilities. The solution must meet several requirements, including defining environmental parameters to differentiate between bots and humans, compliant with a JavaScript framework, developing a pluggable backend ML model to analyze front-end capture of environmental or human interaction data, adhering to UIDAI's core privacy policies, and demonstrating both frontend and backend design, corresponding code, and ML model. Once accepted, the solution will be used by UIDAI to protect all backend APIs from DoS/DDoS-based vulnerabilities.