GreenSweep transforms conventional methods to generate cleaner, more sustainable landscapes while addressing the urgent problems associated with urban trash management. Significant dangers to public health, environmental integrity, and community well-being are present in many cities due to inefficient procedures, unlawful dumping, and consistently unclean areas.
Conventional waste management systems frequently have trouble adjusting to shifting trash patterns, which causes responses to be delayed, services to be provided inconsistently, and problems to be missed. Moreover, the absence of real-time citizen interaction in current systems impedes the efficient identification and settlement of issues.
By enabling citizens to actively participate in garbage management through its user-friendly mobile application, GreenSweep closes this vital gap. GreenSweep improves communal life by maximising government cleaning services and supplying local authorities with up-to-date field data. Users can report problems like overflowing dustbins in real-time.
Furthermore, the incorporation of blockchain technology results in an open incentive system that stimulates proactive engagement and ecologically friendly behaviour. GreenSweep provides a comprehensive approach to managing urban garbage by utilising blockchain-based incentive systems, geo-tracking, and optimised route planning. This approach promotes more sustainable, healthy, and clean urban environments for all.
Blockchain integration and front-end contract presentation presented difficulties for GreenSweep. One of the biggest challenges was getting blockchain data to work with the front-end UI. The platform strives to streamline user interface aspects, improve contract visibility, and expand blockchain integration in order to improve the overall user experience. Users will have a smooth and satisfying experience as a result of this improved functionality and usability. In the future scope of GreenSweep, we are committed to tackling these difficulties by expanding the integration of blockchain technology and improving the visibility of contracts on the frontend. This entails fine-tuning user interface components, introducing more user-friendly features for contract interaction, and optimising data retrieval and processing procedures.
Tracks Applied (1)
Polygon
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