Abstract
UDaMaS (Universal Daylight Managing System), is a user-centered responsive system for built scenarios that can reorient sunlight to improve light conditions in specific urban environments.This on-going research is based on developing more efficient energy/light supply methods through IoT (internet of things) and data mining based on the improved relationship with technology.A user centered responsive multi-agent system using norm emergence is proposed for controlling the efficiency of sunlight reoriented society of mirror robots. Society of robots will make decisions about which users to serve, depending on the users' requests through the UdaMas app.
Highlights
The motivation behind said proposal was to use the intentional stance as an abstraction mechanism for representing the properties of complex systems
In the same way we use the intentional stance to describe humans, it might be useful to describe the programming of machines
The system’s algorithm is a self-organized multiagent system so every patio is mapped as the agent system’s environment and a number of agents are placed in all the patios, equal to the number of dynamic mirror “tentacles” installed in them
Summary
Natural light can improve economic, health, and quality aspects. The use of specific design techniques and careful orientation can optimize the availability of daylight. In 1996, Soler (Soler, 1996) already proposed the idea of a light shelf dependent used as a potential daylight device. As soon as the first ideas of bioclimatic houses [3] appeared, enhancing the possibilities of reusing sunlight was considered. Light tubes and light shelves have been industry-standardized to improve light conditions, proving that sunlight redirection is a feasible method (Mingozzi, 1996) (Kontadakis, 2017). Hybrid systems such as Wang’s et al (Wang, 2013) optical collector for solar optic fiber lighting have been proposed
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