Integration of Environmental Sensors with BIM: case studies using Arduino, Dynamo, and the Revit API
Copyright policy )Integration of Environmental Sensors with BIM: case studies using Arduino, Dynamo, and the Revit API
Este estudio investiga la posibilidad de conectar sensores ambientales como de luz, humedad, o dióxido de carbono con un modelo de información de un edificio (siglas BIM en inglés). Un caso base fue creado en Rhino; usando Grasshopper and Firefly, donde un simple modelo digital respondió a niveles de luz detectados por un foto resistor en una tarjeta Arduino. El caso de estudio fue duplicado usando Revit Architecture, una herramienta popular en BIM, y Dynamo, un ambiente de programación gráfica, en una creativa aplicación. Un segundo caso de estudio siguió un procedimiento similar implementando Revit API directamente en vez de usar Dynamo. Entonces el proceso fue revertido para demostrar que no solamente la información podría ser enviada desde sensores para cambiar el modelo tridimensional, pero cambios en los parámetros de un modelo tridimensional podrían afectar un modelo físico mediante el uso de actuadores. Se espera que esos modelos virtuales puedan ser usados como base para probar sistemas de fachadas inteligentes antes de la construcción de modelos físicos de tamaño real.
This paper investigates the feasibility of connecting environmental sensors such as light, humidity, or CO2 receptors to a building information model (BIM). A base case was created in Rhino; using Grasshopper and Firefly, a simple digital model responded to lighting-levels detected by a photoresistor on an Arduino board. The case study was duplicated using Revit Architecture, a popular BIM software, and Dynamo, a visual programming environment, in an innovative application. Another case study followed a similar procedure by implementing the Revit API directly instead of using Dynamo. Then the process was reversed to demonstrate that not only could data could be sent from sensors to change the 3D model, but changes to parameters of a 3D model could effect a physical model through the use of actuators. It is intended that these virtual/physical prototypes could be used as the basis for testing intelligent façade systems before constructing full size mock-ups.
Peer reviewed
- University of California System United States
Environmental sensors, building information model, visual scripting, Sensores ambientales, intelligent facades, codificación virtual, BIM, fachadas inteligentes, modelos de información de edificios, Dynamo
Environmental sensors, building information model, visual scripting, Sensores ambientales, intelligent facades, codificación virtual, BIM, fachadas inteligentes, modelos de información de edificios, Dynamo
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