Affiliations 

  • 1 ITC-CNR, Construction Technologies Institute-National Research Council of Italy, Via Lombardia 49-20098 San Giuliano M.se, Italy. francesco.salamone@itc.cnr.it
  • 2 ITC-CNR, Construction Technologies Institute-National Research Council of Italy, Via Lombardia 49-20098 San Giuliano M.se, Italy. belussi@itc.cnr.it
  • 3 ITC-CNR, Construction Technologies Institute-National Research Council of Italy, Via Lombardia 49-20098 San Giuliano M.se, Italy. danza@itc.cnr.it
  • 4 NEAPOLI SDN BHD 894646-M Environmental Design and Engineering, D-8-5, Megan Avenue 1, 189 Jalan Tun Razak, 50400 Kuala Lumpur, Malaysia. theodore@neapoli.com.my
  • 5 ITC-CNR, Construction Technologies Institute-National Research Council of Italy, Via Lombardia 49-20098 San Giuliano M.se, Italy. ghellere@itc.cnr.it
  • 6 ITC-CNR, Construction Technologies Institute-National Research Council of Italy, Via Lombardia 49-20098 San Giuliano M.se, Italy. meroni@itc.cnr.it
Sensors (Basel), 2017 May 04;17(5).
PMID: 28471398 DOI: 10.3390/s17051021

Abstract

The article describes the results of the project "open source smart lamp" aimed at designing and developing a smart object able to manage and control the indoor environmental quality (IEQ) of the built environment. A first version of this smart object, built following a do-it-yourself (DIY) approach using a microcontroller, an integrated temperature and relative humidity sensor, and techniques of additive manufacturing, allows the adjustment of the indoor thermal comfort quality (ICQ), by interacting directly with the air conditioner. As is well known, the IEQ is a holistic concept including indoor air quality (IAQ), indoor lighting quality (ILQ) and acoustic comfort, besides thermal comfort. The upgrade of the smart lamp bridges the gap of the first version of the device providing the possibility of interaction with the air exchange unit and lighting system in order to get an overview of the potential of a nearable device in the management of the IEQ. The upgraded version was tested in a real office equipped with mechanical ventilation and an air conditioning system. This office was occupied by four workers. The experiment is compared with a baseline scenario and the results show how the application of the nearable device effectively optimizes both IAQ and ILQ.

* Title and MeSH Headings from MEDLINE®/PubMed®, a database of the U.S. National Library of Medicine.