Using Green Technology and Intelligent Control for Children's Health Camps: A Digitized System "KasabaKIAT"
Abstract
Knowing where innovative digital systems have been successfully integrated provides insight into their environmental and social benefits, including applications in children's health camp operations. This study examines the conceptual framework and challenges of implementing intelligent green control to enhance environmental safety and operational efficiency through data-driven management, health monitoring, and resource optimization. The approach is validated using regression and correlation analyses for predictive or adaptive eco-digital control. Data were collected through a shared database and an open web platform accessible to stakeholders such as camp administrators and health specialists. Using KasabaKIAT as the main data hub, regression relationships from its functional modules—including shared energy control data and health monitoring outputs—were analyzed. Correlation results from the development of green-technology-based control models were used to identify patterns of operational efficiency, environmental quality, children's health outcomes, and resource consumption. The empirical findings were organized into four analytical categories: environmental impact, energy management, children's health indicators, and intelligent system performance, demonstrating improvements in camp sustainability. Although the study is limited to pilot-scale testing, the results indicate that intelligent green systems could achieve more consistent performance by incorporating adaptive learning and renewable-energy-supported monitoring systems.