The Maldivian Islands are facing multiple challenges, including sea level rise, coastal erosion, and poor waste management. This research explores the development of a future-proof system using recycled plastic waste in order to protect the islands. The developed system includes an engineered artificial reef design, which is acting as wave breaking structure. This artificial reef is capable of withstanding extreme conditions, which occur more often as a result of global warming. Plastic waste will be recycled to construct the wave breaking structure, transforming the excessive waste problem into a solution. The system addresses a wide variety of problems, such as waste management, coastal erosion, and floods. It also creates awareness among tourists and local population, because it will make the island more attractive for eco-tourism and it will create more jobs on the island, which will affect daily lives of the local population. All together, the system offers protection to the coastal areas and preserves ecosystems. This pilot version of the sustainable and resilient system offers adaptability to other islands and incorporates traditional architecture for cultural preservation and future user needs. This leads to economic benefits, job opportunities, and increased
awareness of waste management and environmental conservation. This research is providing a strong foundation for the development and implementation of a future-proof system that contributes to the preservation and protection of the Maldivian Islands. By researching the possibilities of recycled plastic waste and integrating it into the designed system, a more sustainable and resilient future for the vulnerable islands and its communities is created.