The need for smart, multipurpose household gadgets is constantly increasing, driven by consumer expectations for improved convenience and security. This study introduces Lampon Pro, a revolutionary smart lighting system that addresses the limits of traditional bulbs by including a variety of sophisticated capabilities. Lampon Pro combines flexible lighting control, remote operation, and an integrated fire alarm system, making it appropriate for a wide range of locations, including homes, educational institutions, and industrial sectors. The development process began with a detailed market research and assessment of customer demands using the Kano model, which identified important desirable features such as flexibility, sustainability, and safety. These insights were subsequently transformed into technical specifications using Quality Function Deployment (QFD), ensuring that they met user expectations. The system's basic functionality is powered by an Arduino-based control unit, which allows for real-time lighting adjustment and fire detection using heat sensors. Stress research and simulations proved the design's structural integrity and reliability. A cost analysis, including a Bill of Materials (BOM) and break-even analysis, shows that Lampon Pro can offer competitive price while providing more functionality than existing market alternatives. This study demonstrates Lampon Pro's potential to reinvent smart lighting solutions by offering varied, energy-efficient, and safe lighting options to modern consumers.