INTRO
Urban indoor gardening faces significant challenges due to limited space and the complexities of traditional gardening practices. As cities grow denser, the integration of greenery becomes increasingly vital for enhancing the well-being of residents. This project explores innovative solutions that leverage advanced technologies, specifically 3D printing and artificial intelligence (AI), to create adaptable, user-friendly gardening systems. By addressing the limitations of existing methods, this research aims to transform urban indoor gardening into a more accessible and sustainable practice, ultimately fostering a deeper connection between city dwellers and nature.
The proposed solution leverages the power of 3D printing and AI to create a modular and adaptable gardening system tailored to urban living. By utilizing Figma for the UI design, I developed an intuitive interface that guides users through the gardening process, making it accessible even for those with limited gardening experience. The plant pots were designed using a 3D printer, allowing for customization to fit various urban spaces. Importantly, I chose to use biodegradable filament in the printing process, emphasizing sustainability and reducing environmental impact. This innovative approach not only enhances the aesthetic appeal of the pots but also ensures they are eco-friendly. The integration of AI further elevates the user experience by providing real-time monitoring and care recommendations, allowing users to engage with their plants in a more meaningful way.
