LC 00751: verschil tussen versies
Geen bewerkingssamenvatting |
Geen bewerkingssamenvatting |
||
Regel 1: | Regel 1: | ||
When retro-fitting existing buildings to make them “smart”, deployment and maintenance costs may be strong barrier to adoption. In this context zero zero wire devices (wireless communication + energy harvesting) represent a powerful solution to overcome these barriers. In the report {{Cite|resource=Bestand:Smart buildings wireless.pdf|name=Wireless communication for Smart Buildings|dialog=process-file-dialog}} we presented several wireless technologies, that could be a part of the technological mix needed to achieve zero wire devices. Two of them are for us the most promising technologies: BLE 5 and LoRa. They are new to the building sector but also the most promising in two different submarkets: the residential/small buildings in one hand and the large buildings in the other hand. | |||
{{Light Context | |||
|Supercontext=PR SSM 00127 | |Supercontext=PR SSM 00127 | ||
|Topcontext=PR SSM 00127 | |Topcontext=PR SSM 00127 |
Huidige versie van 4 mei 2021 om 11:07
When retro-fitting existing buildings to make them “smart”, deployment and maintenance costs may be strong barrier to adoption. In this context zero zero wire devices (wireless communication + energy harvesting) represent a powerful solution to overcome these barriers. In the report Wireless communication for Smart Buildings we presented several wireless technologies, that could be a part of the technological mix needed to achieve zero wire devices. Two of them are for us the most promising technologies: BLE 5 and LoRa. They are new to the building sector but also the most promising in two different submarkets: the residential/small buildings in one hand and the large buildings in the other hand.
Referenties
- Wireless communication for Smart Buildings, INCASE, 1 juni 2017.