IT Use Cases:

IT-20250427

Exploring Resources for Elderly Living in the Community and Use of Electronic Health Record

by Sansila Sunwar Texas Woman’s University, 04/27/2025

The purpose of this project is to recognize the potential resources and solution to elderly living in the community and use of electronic health record (EHR) to improve services. All the articles mainly focus on how to enhance the adoption of health information technology, and the electronic methods or simply a digitalization of the health field for upgrading the health facilities.

The proposed approach for the topic of elderly living in the community, and Diabetes is to recognize the potential resources and solution to elderly living in the community and use of electronic health record (EHR) to improve services. Health care facilities utilizing this Health Information technology approach can be expected to increase in the quality of health facilities provided to the patient along with decreasing the cruciality among the old patient.

IT-20250426

A Digital Business Plan for Paw’s Boutique

by Gudiguntla Suryateja, Chukwuasia Madike, Dhaval Kalsariya, Md Ismail Siddiqui, and Vijay Nagallapati, Westcliff University, 04/26/2025

This project presents the design and strategic development of Paw’s Boutique, an e-commerce platform specializing in fashionable and ethically sourced pet apparel. The study explores the key components required to build and operate a sustainable online retail business, including product selection, pricing strategies, revenue models, and ethical supplier partnerships. The platform’s revenue model consists of three streams: one-time product purchases, subscription-based fashion boxes, and affiliate product sales through a content-driven blog.

The project also examines operational and technological considerations necessary for a modern e-commerce business. This includes the implementation of a technology stack supporting secure payment gateways, inventory management systems, and customer relationship management (CRM) tools. Additionally, the research highlights the importance of cybersecurity, data privacy, and ethical practices in maintaining customer trust and protecting brand reputation.

Marketing strategies emphasize emotional brand positioning, social media engagement, influencer partnerships, and data-driven email campaigns to attract and retain customers. The project further integrates innovative technologies such as AI-powered product recommendation systems and chatbot-based customer support to enhance user experience.

IT-20250425

Business Plan for FitQuest Virtual, a Holistic E-Commerce Platform

by Jasmin Patel, Twisha Patel, Md Shahidur, Ankita Sharad, and Yuvam Patel, Westcliff University, 04/25/2025

This project presents the business plan for FitQuest Virtual, a holistic e-commerce platform designed to provide integrated health, fitness, and wellness solutions through a digital marketplace. The platform offers a variety of products and services, including virtual fitness programs, wellness coaching, digital fitness resources, and related health products. The goal of FitQuest Virtual is to create an accessible and engaging environment that promotes healthier lifestyles while leveraging modern e-commerce technologies.

The business model includes diversified revenue streams such as subscription-based fitness programs, one-time product purchases, and premium wellness services. The project also evaluates key operational components including cost estimation, marketing strategies, supply chain management, and customer relationship management to ensure long-term sustainability and growth. Additionally, the plan emphasizes the importance of effective technology management and IT infrastructure, highlighting secure e-commerce platforms, scalable system architecture, and digital service delivery. Ethical considerations, staff training, and responsible data management are addressed to ensure compliance and customer trust.

The project further proposes innovative techniques for e-commerce program management and process improvements to enhance operational efficiency and user experience.

IT-20250421

A Scalable Digital Learning Platform for Creators and Learners

by Md Jobaer Ahmed, Rumana Akther Nipa, Tazul Islam Bappy, and Sicong Wang, Westcliff University, 04/21/2025

This project proposes the development of a scalable digital learning platform designed to connect creators and learners through an innovative online marketplace. The platform operates under a dual-sided business model (C2B and B2C), allowing content creators to offer digital courses, learning materials, and specialized knowledge while enabling learners to access high-quality educational resources in a flexible and accessible environment.

The project outlines the platform’s core products and services, supported by a robust technology management and infrastructure framework to ensure scalability, reliability, and secure operations. Key business components including marketing strategy, supply chain management, and customer relationship management are explored to support sustainable growth and user engagement. The platform also addresses important operational factors such as sourcing digital content, fulfillment strategies, and effective service delivery.

In addition, the study examines implementation challenges, ethical considerations, and cybersecurity measures essential for protecting user data and maintaining platform integrity. The integration of artificial intelligence technologies is proposed to enhance operational efficiency, improve content recommendations, and personalize learning experiences. Overall, the project demonstrates how a technology-driven digital learning ecosystem can create value for both creators and learners while supporting scalable and secure e-commerce education services.

IT-20240627

Ayurveda Healthcare Portal Case Study

by Amar Dave, Dhanush Chanda, Ian Chuang, and Kanad Bhagat, Westcliff University, 06/27/2024

This project proposes the development of an Ayurvedic Healthcare Portal, an online platform designed to support the growing global interest in Ayurveda, a traditional system of holistic medicine originating in India. The portal aims to provide users with access to Ayurvedic knowledge, natural remedies, and personalized wellness guidance based on individual body types (doshas) and health imbalances. By integrating traditional Ayurvedic principles with modern digital technology, the platform seeks to promote preventive healthcare, balanced lifestyles, and natural healing practices.

The portal will offer a range of services including expert guidance on Ayurvedic treatments, access to high-quality herbal supplements, natural cosmetic products, and wellness accessories. It will also feature interactive community tools that encourage user engagement, knowledge sharing, and collaboration among practitioners and users worldwide. These features will help build a global community dedicated to holistic health and sustainable well-being.

Technologically, the platform will be built using a modern web technology stack, including HTML, CSS, and JavaScript, supported by cloud-based infrastructure to ensure scalability, reliability, and accessibility for users across different regions. Advanced cybersecurity measures will be implemented to protect user data and maintain privacy. By combining traditional healthcare knowledge with modern IT infrastructure, the Ayurvedic Healthcare Portal aims to deliver reliable digital healthcare support, enhance user experience, and promote the global adoption of Ayurvedic wellness practices.

IT-20240626

Enhancing FedEx Supply Chain Management System

by Twisha Patel, Washington Silva, Chukwuebuka Ozueigbo, and Siva Teja Vejandla, Westcliff University, 06/26/2024

This project explores the enhancement of the FedEx Supply Chain Management System through the integration of partial automation and blockchain-based smart contracts. The goal is to improve operational efficiency, transparency, and reliability in logistics and supply chain operations. The study begins with the concept development phase, which includes system needs analysis, stakeholder identification, and the definition of system boundaries. Functional and non-functional requirements are evaluated to determine the most suitable technological solutions for improving supply chain performance.

The proposed system incorporates automated processes and smart contracts to streamline logistics operations, reduce manual intervention, and increase transaction transparency among supply chain stakeholders. A detailed system architecture and decision analysis framework are presented to guide the implementation of the enhanced system. The project also addresses risk management, cost and profitability analysis, and system design considerations, including functional analysis, component design, and system integration strategies.

During the engineering development phase, testing and evaluation strategies are introduced to ensure system reliability, performance, and scalability. The post-development phase outlines implementation plans, prototype deployment, operational support, and monitoring mechanisms for real-world application. Overall, the project demonstrates how integrating emerging technologies such as automation and blockchain-based smart contracts can strengthen supply chain management systems, improve operational visibility, and support more efficient and secure logistics operations for large-scale organizations like FedEx.

IT-20240625

A Comprehensive Ticketing System for International Events

by Chinmay Joshi, Renu Dighe, Suryateja Guidiguntla, and Sindhu Lakshminarayana, Westcliff University, 06/25/2024

This project focuses on the development of a comprehensive ticketing system for international events, designed to support large-scale event management with improved efficiency, scalability, and user accessibility. The system aims to provide a secure and integrated platform that enables event organizers, vendors, and attendees to manage event registration, ticket sales, payment processing, and customer support through a unified digital environment. The study begins with a detailed analysis of key stakeholders, system boundaries, and operational needs, followed by functional and non-functional requirements to guide system development.

The proposed solution evaluates multiple technology options—including custom-built, off-the-shelf, open-source, and hybrid platforms—before selecting the most suitable architecture based on performance, cost, scalability, and security considerations. The system architecture incorporates web servers, application servers, database management systems, mobile applications, and integrated payment gateways to support reliable ticket distribution and transaction management. Additional components such as reporting tools, analytics dashboards, and customer support systems enhance operational transparency and decision-making.

Risk management, system integration strategies, and testing methodologies are included to ensure system reliability and performance. The project also outlines implementation, deployment, and post-development support plans, including monitoring, maintenance, and user training. Overall, this project demonstrates how a scalable, technology-driven ticketing platform can streamline event management processes, enhance user experience, and support secure global ticket sales for international events.

IT-20240623

Alexa Development with AI Integration

by Henrique Nagassima, Hannan Nadeem, Terry Ng, and Shaker Morshed, Westcliff University, 06/23/2024

This project explores the development of an Alexa-based intelligent system with integrated artificial intelligence (AI) to enhance the capabilities of voice-enabled digital assistants. The system aims to improve user interaction, automation, and smart service delivery through advanced AI integration. The project follows a structured systems engineering lifecycle, including concept development, engineering design, and post-development implementation phases. The initial phase focuses on identifying key stakeholders, defining system boundaries, and conducting a comprehensive needs and requirements analysis to ensure the system aligns with user expectations and operational goals.

The project evaluates alternative system solutions and applies decision analysis techniques to determine the most effective architecture and design framework. Functional and non-functional requirements are developed to support intelligent voice interaction, system scalability, and efficient operations. The engineering development phase emphasizes system architecture design, component development, configuration management, and system integration to ensure seamless communication among system components.

Testing and evaluation processes—including developmental testing, operational testing, and human factors testing—are conducted to verify system performance, usability, and reliability. The final phase addresses production, deployment, maintenance, and system upgrades to ensure long-term operational sustainability. Overall, this project demonstrates how integrating AI technologies with voice assistant platforms like Alexa can improve automation, enhance user experience, and support scalable intelligent systems in modern digital environments.

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