A 360-degree imagery-multisensor system for visualizing environmental parameters in architecture and urban spaces

A 360-degree imagery-multisensor system for visualizing environmental parameters in architecture and urban spaces

Blog Article

This research has designed a 360-degree imagery-multisensor system aiming to capture and visualize environmental parameters in architecture and urban spaces.Unlike existing tools, this system enables simultaneous recording of both imagery and non-imagery environmental data, including lighting, thermal, air quality, sound, and physical space parameters, within a 360-degree field of view.Lighting conditions are captured using panoramic high dynamic range imagery, complemented by a 360-degree array of sensors measuring illuminance levels and spectral power distribution.

Thermal and air quality conditions are recorded Brush Guards using 360-degree thermal imagery, combined with hygrometers and air particle meters.Sound levels are also monitored across the full 360-degree field.The system is built using 3D printing technologies and Raspberry Pi computers, equipped with various sensor modules.

Custom DULSE RICE CAKES UNSALTED Python scripts enable real-time data capture, processing, and visualization.This cost-effective, easy-to-manufacture, programmable, and customizable innovation is aimed at students and educators in design and architecture, as well as building engineers.Furthermore, integrating imagery and sensor data supports the development of immersive virtual and augmented reality applications, offering new opportunities for education and the exploration of effective design solutions.