Business & Process Innovation
Business & Process Innovation
Developing Cutting-Edge Web and Mobile Applications, Leveraging Innovation to Create Intuitive, Scalable, and User-Centric Solutions, That Drive Business Growth and Digital Transformation. The applications are designed to seamlessly integrate with existing systems, enhancing accessibility and engagement across platforms.
New Product Development project involve high uncertainty, iterative exploration, and evolving goals, which are not well supported by traditional project management tools. This project aims to design an NPD-specific dashboard that supports data-driven decision-making under changing conditions. Developed using Power BI and a MySQL database, the dashboard will integrate key metrics related to timelines, costs, risks, and resource allocation. The solution is intended to help managers improve project visibility, reduce risk, and optimize decision-making throughout the NPD lifecycle.
Engenie is a university-driven consulting initiative designed to connect academic engineering expertise with real-world industry needs. This project focused on preparing Engenie for a successful launch by addressing key operational challenges, including contract confusion, inefficient onboarding, and the lack of clear promotional materials. Through benchmarking research and close collaboration with the project supervisor, our team developed a comprehensive solution consisting of standardized, modular contract templates, audience-specific promotional posters, and targeted brand videos. Each deliverable was carefully designed to improve clarity, reduce legal and administrative risks, and communicate Engenie’s value to professors, students, technicians, and clients. Using an iterative, feedback-driven approach, we refined our solutions to ensure usability, scalability, and professional quality. The final prototype provides Engenie with a practical, ready-to-use toolkit that streamlines consulting engagements, enhances stakeholder engagement, and supports accessible, inclusive engineering collaboration.
Move It, Calculate It: Revolutionizing Relocations with Jason's Smart Moving App!)
Jason’s Moving Company faced operational inefficiencies in job scheduling, employee task assignment, and customer communication, which impacted service delivery. This project aims to streamline these operations by developing an automated Workplace Management System. The system will automate job assignments based on employee availability, send real-time notifications to keep management, employees, and customers informed, and provide accurate cost estimates to avoid discrepancies. The platform also includes features like a real-time employee management system, automated job scheduling, and integration with cost estimation algorithms. The solution is designed to improve operational efficiency, increase employee productivity, and enhance customer satisfaction by reducing delays and errors. Through an intuitive user interface and improved communication systems, Jason’s Moving will be able to meet customer expectations more effectively. The system is also built for scalability, ensuring it can grow with the company as its operations expand.
This project addresses key challenges in energy audits caused by complex building thermal anomalies, inconsistent inspection timing, and the limitations of manual evaluations. To improve accuracy, accessibility, and reliability, the project delivers a comprehensive database designed to support energy-efficient building inspections and renovations. The database compiles validated thermal anomaly patterns derived from real-world case studies and aligns with international standards, including ISO guidelines and the Ontario Building Code. It assists users in identifying energy loss issues and determining optimal conditions for conducting inspections such as Infrared Thermography and Blower Door Tests. Designed with a user-friendly interface, the system supports junior energy advisors by providing standardized guidance while also empowering non-expert homeowners, including those in remote and indigenous communities, to assess building performance independently. By combining practical case-based insights, standardized benchmarks, and accessible design, the project streamlines energy audits and enables informed, data-driven decision-making for diverse stakeholders.