Discover the journey behind our passion for a sustainable future through AI and technology.
Climate resilience requires innovative, technology-driven systems that enable meaningful change and global contributions. By leveraging advancements in human and machine intelligence, we engage societies in build resilience against climate challenges while fostering inclusive solutions.
These systems not only mitigate risks but also create opportunities for collaboration across borders, ensuring that technological progress aligns with environmental and social needs. Scalable and adaptable, such approaches empower communities, industries, and policymakers to drive long-term impact, reinforcing the critical role of technology in shaping a sustainable and climate-resilient future.
We began volunteering in communities near us. We were awarded the Youth Corps Service Week 2018 grant and engaged seniors in MacPherson in an intergenerational carnival.
VolunteerSG is our digital volunteerism hub that partners with over 100 social impact organisations in Singapore and Asia. This platforms not only provides opportunites for volunteering, but ways to be more connected with the social fabric, such as skills-based workshops, community tours!
During the COVID-19 pandemic, TinkerThings evolved and adapted its volunteer opportunities to ensure continued community engagement. We leveraged online platforms to support seniors' well-being through virtual activities and digital literacy programs. These efforts helped maintain social connections and provided essential support during a time of increased isolation.
TinkerThings is a highest tier grant awardee of the Youth Action Challenge (YAC), empowering youth through interdisciplinary projects and intergenerational community engagement initiatives.
Our facilities are designed with sustainability and innovation at their core. They are solar-powered, aligning with our commitment to a greener future.
We integrate data-driven decision-making through a network of IoT sensors that monitor key environmental factors, such as soil moisture, temperature, and air quality. This allows for real-time adjustments, ensuring optimal conditions while conserving resources.
By leveraging AI-powered analytics, we transform collected data into meaningful insights, enabling us to take impactful actions, from improving compost efficiency to optimising plant growth. These efforts contribute to a measurable impact, reinforcing our dedication to sustainability and evidence-based practices.
The institution-based facility focuses on a data-centric approach to regenerative systems. The IoT backbone supports real-time monitoring and automation of composting and the edible garden.
The campus facility centers on hands-on sustainability action, empowering students and stakeholders to drive regenerative practices. Equipped with IoT technology, it supports collaborative efforts in real-time monitoring, composting, and sustainable gardening, fostering residential communities committed to environmental stewardship.