Bachelor of Computer applications
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Item MOBILE APPLICATION FOR VOLUNTEER MANAGEMENT(ASST. PROF. RAJLAKSHMI R. METRI, 2026) A. SAIKIRAN; ADNEY JOSE COLACO; AMIT SHAKYA; SHEGHEN CRISTO FERNANDES; PRASHANT GURAVVolunteering is an important activity that helps in addressing social needs in areas such as education, healthcare, conservation, and community development. However, most volunteer programs still use manual and disorganized management systems, resulting in inefficiencies in coordination, lack of communication, and lack of accountability. These issues affect the effectiveness of the operation and the volunteers’ engagement and satisfaction levels. The project showcases the design and development of a secure, scalable, and user-friendly volunteer management application that improves coordination between volunteers, organizers, and administrators. The application incorporates necessary features such as role-based login, event creation and management, volunteer application, real-time chat, push notifications, verification systems, ratings, reporting, and administrative moderation. The application is developed using a Flutter mobile client, Node.js/Express server, and PostgreSQL database, offering a centralized and organized digital platform. The proposed application aims to improve efficiency, transparency, and accountability in volunteer operations while maintaining human values of service and community engagement. The application offers a sustainable and scalable solution to contemporary volunteer management issues by organizing core operations and facilitating real-time communication.Item Mobile Application for On - Demand Ride Booking(ASST. PROF. MILDRED LEMOS, 2026) ANAIZA ANNORA FERNANDES; BELICIA FERNANDES; PRAGNA KEDLAYA; SAILI PRABHUDESSAI; SAMEEAH SHAIKHThe Goa Rides application is a comprehensive digital platform for on-demand transportation specially developed for increasing transparency, reliability and efficiency of auto-rickshaw and bike taxi services within Goa. The app has been tailored to allow only the two-wheeler and three-wheeler vehicles which are auto, electric auto, bike or electric bike. This focused approach ensures specialization in local mobility needs as well as aligning with the Goa's traditional transportation ecosystem. The main aim of the system is to create an organized, customer centric, and secure digital interface which can bridge the customers with qualified native riders. With real-time ride booking feature integration interactive map-based location visibility rider type selection options and transparent rider information display, the application increases coordination between riders and commuters. The system solves common transport difficulties such as lack of ordered booking mechanisms, ride availability visibility limitations, fare uncertainties, over charging risks, communication gaps, among others. Through a compact booking process workflow endowed with intuitive interface design, short distance and inexpensive travel solutions seeking residents, both tourists within state get convenience by application. Besides customer-oriented features, the Goa Rides application is focusing on a rider module which targets at employing local drivers. Riders can register through meeting certain document requirements to ensure their credibility and reliability. After that they will have a personalized dashboard showing information about their working time, estimated income per day and ride requests procedure (accepting or declining). The platform utilizes ratings alongside feedback system thus making it possible for quality of services to be improved as well as trust between riders as well as clients to be enhanced. Other features include easy-to-use, pre-saved locations, ride history details, help desk for logging complaints or reaching out for assistance and much more efficiency is added in the process for mobility solutions, electric vehicle alternatives are also offered. In summary, elaboration of the Goa Rides application serves as the real implementation of mobile technology in creating a systematic, secure, scalable digital transportation solution focused primarily on specific local transport needs systems.Item Door – To – Door Garbage Collection Smart Reporting System(ASST. PROF. TRACY ALMEIDA, 2026) ASTHA AMIT NEVGI; BLAZE D’SA; CLEDWYN FERNANDES; SURAJ ANIL CHAVAN; VALLEN MASHIAThe "Door-To-Door Garbage Collection Smart Reporting System" was initiated to address the critical digital divide in rural waste management, where approximately 70% of village panchayats in Goa still rely on inefficient, manual, paper-based tracking systems. These traditional methods lack the transparency and real-time data necessary to manage the increasing waste volumes and low segregation compliance effectively. To solve this, our team developed a comprehensive full-stack ecosystem using the MERN stack (MongoDB, Express, React, Node.js) and React Native. The methodology involved creating a four-tier architecture: a Public Website for citizen registration and complaints, an Administrative Panel for Panchayat oversight, a Super-Admin Dashboard for subscription management, and a Labour Mobile App that utilizes QR scanning and GPS geofencing to automate attendance and verify collection proof in real-time. Our study observed that integrating operational attendance with bin collection significantly improves field accountability and data accuracy. We concluded that providing a transparent, public-facing dashboard and digital grievance tracking encourages higher community engagement and segregation compliance. This scalable system provides a robust framework for modernizing rural sanitation, transforming waste management from a manual chore into a data-driven service.Item Mobile Application for Doctor Appointment Booking(ASST. PROF. ROHIT HUNDRE, 2026) Casintra Fernandes; Crysler Ferlon Sunny Afonso; Rutvik Sadanand Devidas; Saideep Santosh Dessai; Upparapalli AmrithaWhen we looked around our local clinics in Goa, we noticed something very common — most doctor appointments are still handled manually. Patients usually call the clinic or visit in person just to book a slot. Many times, they have to wait in long queues without knowing exactly when their turn will come. In some situations, appointments are given first to familiar people or those who personally know the staff. This makes the process slow and sometimes unfair. Even though there are many medical booking apps available today, very few private doctors from Goa are active on those platforms. Most of these apps mainly focus on large cities. Because of this, people in Goa do not have a proper digital system that connects them with local private doctors in a simple and reliable way. To overcome this issue, we developed Mobile Application for Doctor Appointment Booking, a mobile application designed specifically for booking doctor’s appointment in Goa. The idea behind GoDoc is simple — to make appointment booking clear, fair, and easy for both doctors and patients. In this application, doctors can register themselves, add details about their clinic, set their available timings, and manage appointment requests. Patients can search for doctors nearby, check available time slots, book appointments, upload medical reports if needed, and even give feedback after their visit. An admin verifies doctor registrations before their profiles become visible to patients, which helps maintain authenticity and trust. GoDoc is built using Flutter and Firebase to ensure smooth performance and secure data handling. The overall goal of this project is not just to create an app, but to improve the appointment experience for local people and reduce unnecessary waiting time at clinics. Through this project, we aim to introduce a simple digital solution that can bring better organization and transparency to private healthcare services in Goa.Item Web-based: human resources management system(ASST. PROF. TRACY ALMEIDA, 2026) VIPUL ANKUSH MAYEKAR; RAVNEET RAJU FAL DESAI; ROHIT RAJESH NAIK; PAVAN SANTOSH PEDNEKAR; PRATHAM PANDURANG BHATHuman Resource Management plays a vital role in the effective functioning of any organization. Traditional HR systems in many small and medium-sized organizations rely on manual record-keeping, spreadsheets, and paper-based processes, which often result in errors, data redundancy, lack of transparency, and delays in decision-making. These limitations highlight the need for an automated and centralized solution. This project presents the design and development of a Human Resources Management System (HRMS) that automates core HR operations through a secure and scalable web-based platform. The system integrates essential functionalities such as employee management, attendance tracking, leave management, payroll processing, report generation, and audit logging. By centralizing employee data and implementing structured workflows, the system improves operational efficiency and reduces administrative workload. A key feature of the proposed HRMS is the implementation of Role-Based Access Control (RBAC), which ensures that users such as Super Admin, HR, Manager, and Employee have access only to authorized functionalities. Secure authentication mechanisms and middleware validation are used to protect sensitive data such as salary details and employee records. The system is developed using modern web technologies with a modular architecture consisting of frontend, backend, and relational database components. The proposed system enhances accuracy, transparency, and reliability in HR operations while maintaining data integrity and security. The HRMS provides a practical and scalable digital solution that can be adapted to the needs of small and medium-sized organizations, thereby improving workforce management and organizational productivity.Item Mobile Application for Telecommunication Services Management(ASST. PROF. RAJLAKSHMI METRI, 2026) Jonathan Morais; Haden Pereira; Janus Ria Teixeira; Alton Xavier Rodrigues; Leah FernandesThe increasing dependence on telecommunication services such as Broadband, DTH, and CCTV has created a need for efficient systems to manage customer services, complaints, technician coordination, and billing processes. This study was initiated to address the limitations of traditional manual and semi digital service management methods, which often result in delays, lack of transparency, and reduced customer satisfaction. The objective of this project is to design and analyze a mobile based solution for telecommunication services management. An iterative development methodology was adopted to design the system architecture and functional modules. The proposed system was developed using Flutter and Dart for mobile application development. Firebase Authentication was used for secure user login and role based access control, MongoDB was used for data storage, and Botpress was integrated to provide chatbot support for frequently asked questions. System analysis was carried out using activity diagrams, use case diagrams, and class diagrams to represent system behavior and structure. The study demonstrates that a centralized mobile application can improve service coordination, reduce manual effort, and enhance transparency in complaint handling and billing processes. Although developed as a dummy academic project, the proposed system successfully meets its objectives and provides a scalable foundation for real world implementation.Item Spaced Themed NFT MarketPlace(ASST. PROF. ROHIT HUNDRE, 2026) Fobal Oliveira; Gladson Romario Braganza; Godfrey Cletus Rebello; Cayden Azavedo; Jesha FernandesThis project focuses on the development of a Space-Themed NFT Marketplace, a webbased platform designed to support the creation, buying, selling, and exploration of NFTs inspired by space-related elements such as planets, galaxies, rockets, and astronauts. NFTs are unique digital assets secured using blockchain technology, which ensures transparency and ownership verification. The objective of this project was to design a beginner-friendly NFT marketplace with a visually engaging space-themed interface. The system combines modern web technologies with blockchain platforms such as Ethereum to support NFT minting and secure transactions. Core functionalities include user authentication, NFT creation, gallery display, buying and selling NFTs. During the design and development process, attention was given to simplifying complex features commonly found in existing NFT platforms. Many available marketplaces offer advanced trading options but can be difficult for new users to navigate. By introducing a themed and user-focused interface, this project aims to improve accessibility and encourage creative participation in digital art trading. This project was developed for academic purposes to gain practical experience in blockchain integration, NFT technology, and web application development. It demonstrates how combining technical functionality with creative design can enhance user experience in digital asset marketplaces.Item Currency Detection App for the Visually Impaired(ASST. PROF. ANVI NAIK, 2026) DANIEL MARK FERNANDES; JOSHUA DAVID CRASTO; MCKENZIE CHRISTO PEREIRA; MILROY ADRIEL FERNANDES; SEAN ROSARIO D’SILVAThe increased reliance on digital technologies has also led to the development of many new opportunities for creating technologies that can improve accessibility for the visually impaired. In this project, the development of a mobile application that helps users recognize currency notes and coins through real-time image processing has been presented. This application utilizes the YOLO algorithm for accurate recognition of the currency, ensuring the efficient execution of the model with the help of TensorFlow Lite. This application, developed with React, has been designed with accessibility as a primary feature. This application has been integrated with features such as TalkBack, allowing users to navigate the application with the help of gestures, providing users with accurate and timely feedback through the audio output. This application has been designed with the aim of promoting accessibility for the visually impaired. In addition to the technical aspect, the project also focuses on usability, reliability, and practical application. It should be noted that the system operates efficiently on current Android-based gadgets. It provides real-time operation without the need to maintain a constant internet connection. Testing was conducted to ensure the accuracy of the detection process under normal usage. Through the integration of intelligent detection systems and usability principles, the application provides a reliable and accessible tool that plays a vital role in the development of assistive technologies.Item Web Application for Fitness Tracking(ASST. PROF. ANVI NAIK, 2026) NITIN AJIT NAIK; VAIGAN FERNANDES; ANAS SHAH; CAYDEN VALANKO DIAS; STANCIO NORONHA“Web Application for Fitness Tracking” was developed to simplify and enhance the way individuals manage their fitness routines and dietary habits. The system provides users with personalized calorie calculations, structured workout tracking, customized diet planning, and real-time progress monitoring within a single integrated platform. By allowing users to record exercises, set fitness goals, and monitor nutritional intake, the application promotes consistency and informed decision-making. With a strong focus on usability and data accuracy, the platform ensures secure user authentication and organized profile management. Interactive dashboards visually present workout history, calorie consumption, and performance trends, enabling users to clearly understand their progress over time. The system dynamically updates recommendations based on user inputs such as age, weight, height, and fitness objectives, ensuring tailored guidance for goals like weight loss, muscle gain, or maintenance. Built using a modern web-based architecture with a responsive frontend and a secure backend supported by a structured database, the prototype emphasizes reliability, scalability, and user engagement. The overall objective of the application is to reduce manual tracking efforts, increase motivation through visualization and automation, and create a dependable digital environment where users can confidently manage and improve their health and fitness journey.Item MOBILE APPLICATION TO ASSIST INDIVIDUALS WITH PARTIAL DISABILITY(ASST. PROF. VICIBILA ANTAO, 2026) ELSTAL SALVADOR FERNANADES; FLANN PLESTON CRASTO; JERICO FERNANDES; NASIR NAFEES SAYED; VELRON CARVALHOThe Mobile Application to Assist Individuals with Partial Disability was created to Support Partially Disabled people. This application is designed to assist the partially disabled individuals to engage in their daily life and take part in their communities with a lot of ease. It also provides user and institution-based onboarding, enables users to authenticate with profiles, is a real-time chat, and provides a curated workflow to submit and approve events. Accessibility features are also provided as high-contrast mode and adjustable text scaling which allows the user to customize their experience. Our front-end was Flutter and Firebase was used as our backend. The prototype demonstrates the simplicity of the sign-up process, real-time synchronization, and administrative features that ensure quality of content and safety of users. In general, the application is designed to reduce obstacles, establish a level of trust and provide an inclusive environment in which users, institutions, and administrators may engage and share opportunities without fear.Item LOCATION-BASED MOBILE APPLICATION FOR AUTOMOTIVE AND HOME SERVICES(ASST.PROF. VICIBILA ANTAO, 2026) AIDAN VIVIAN BRITTO; MAVERICK JORGE FERNANDES; NOEL ANTHONY FERNANDES; PIYUSH SANJAY NAIK; LEROY ERNESTO FALEIROA Location-Based Mobile Application for Automotive and Home Services app was created by our team to facilitate the process of locating trustworthy and timely assistance for pressing home and car problems. The app offers real-time service provider availability, secure customer profiles, category-based service discovery for plumbers, mechanics, and other professionals, as well as live tracking of a service request's progress from acceptance to completion. The interface dynamically filters out inactive providers with an emphasis on user trust, guaranteeing that clients only see experts who are available and prepared to respond. The prototype, which uses a Flutter frontend and Firebase backend, features an interactive map view for location based discovery, a clean user interface that displays business hours and ratings, and a dynamic service list that verifies provider availability in real-time. The application's overall goals are to lessen friction in emergency situations, increase consumer confidence through transparency, and establish a trustworthy environment where clients and nearby service providers can interact with confidence.Item RFID Enabled Quick Medical Information Retrieval System(ASST. PROF. ANKITA FALLDESSAI, 2026) ANDREA VIRGINA RODRIGUES; JUVEN CHAIM D’SILVA; JUVENCY SANYA FERNANDES; NIVEDITHA PANICKER; SWAGI LOURDES COUTINHOHealthcare institutions require fast, reliable, and secure access to patient medical records to ensure accurate diagnosis and effective treatment. Traditional paper-based record management systems are often inefficient, prone to human error, and time-consuming, especially during emergencies where immediate access to patient history is critical. The proposed system presents a smart healthcare solution that integrates RFID technology with cloud-based data management and a mobile application platform to streamline patient identification and medical record access. Each patient is assigned a unique RFID card, enabling quick identification and instant retrieval of medical history. The system ensures secure, role-based access for administrators, doctors, and patients, thereby maintaining data privacy and integrity. The solution leverages real-time cloud synchronization to store and update patient records efficiently. Medical professionals can access, update, and manage patient information seamlessly, while patients can securely view their medical history through a mobile interface. The system reduces paperwork, minimizes record retrieval time, enhances operational efficiency, and improves the overall quality of healthcare service delivery. This project demonstrates the practical application of IoT and cloud computing technologies in modern healthcare environments and provides a scalable, secure, and cost-effective alternative to conventional record management systems.Item Smart Crowd Detection and Management System(ASST. PROF. ANKITA FALLDESSAI, 2026) DIAS CHRIS FRANCO; MEVIN QUADROS; SAHEEL SHAIKH; SAIESHWAR MALKARNEKAR; YASH SATISH BHANDARICrowd crushes and stampedes are tragic yet preventable incidents. The tragedy during the RCB celebration at M. Chinnaswamy Stadium highlighted the consequences of inadequate crowd monitoring. Smart Crowd Detection and Management System is designed to address this issue through an AI- powered, real-time surveillance system. The system uses a Raspberry Pi 5 integrated with a camera module to run two AI models: YOLOv11n for crowd counting and density estimation, and YOLOv8 Pose for fall detection. When abnormal conditions such as overcrowding or falls are detected, the system instantly alerts security personnel through a Flutter-based mobile application. Alerts include geolocation data via Google Maps and automated voice calls using Twilio. The solution is real-time, cost-effective, scalable, and suitable for deployment in public venues such as stadiums, railway stations, malls, and festivals.