Summary
Following the trends of the creation of the “The Internet of Things” (IoT) and the rapid penetration of SSL based lighting, it is
very advantageous to connect the luminaires in buildings to the Internet.
OpenAIS aims at setting the leading standard for inclusion of lighting for professional applications in to IoT, with a focus on
office lighting. This will enable a transition from the currently existing closed and command oriented lighting control systems
to an open and service oriented system architecture. Openness and service orientation will create an eco-system of
suppliers of interoperable components and a market for apps that exploit the lighting system to add value beyond the lighting
function. Added value can e.g. be related to more efficient use of the building, reduction of carbon footprint and increased
comfort and wellbeing. In addition, IoT will facilitate smooth and effective interaction of the lighting system with other
functions in a building such as e.g. HVAC, security and access control. Extensibility and security of the system architecture
are important aspects and will be guaranteed.
The OpenAIS project will define the requirements and use cases for offices in 2020, define the best open system
architecture, identify existing ICT components to be used and develop additional components. The system will be validated
by a pilot installation in a real office setting. After the OpenAIS project, the Consortium will pursue standardization of the
system architecture, aiming at the creation of the leading standard for Internet connected lighting.
The project brings together a strong collaboration of the leading lighting companies Zumtobel, Tridonic, and Philips and the
major players in IoT technology ARM, NXP and Imtech. Consortium partner Johnson Controls represents the end user and
academic knowledge on ICT and system architecture is present through TU/e and TNO-ESI. During the project, the
Consortium will seek close cooperation with the IoT community.
very advantageous to connect the luminaires in buildings to the Internet.
OpenAIS aims at setting the leading standard for inclusion of lighting for professional applications in to IoT, with a focus on
office lighting. This will enable a transition from the currently existing closed and command oriented lighting control systems
to an open and service oriented system architecture. Openness and service orientation will create an eco-system of
suppliers of interoperable components and a market for apps that exploit the lighting system to add value beyond the lighting
function. Added value can e.g. be related to more efficient use of the building, reduction of carbon footprint and increased
comfort and wellbeing. In addition, IoT will facilitate smooth and effective interaction of the lighting system with other
functions in a building such as e.g. HVAC, security and access control. Extensibility and security of the system architecture
are important aspects and will be guaranteed.
The OpenAIS project will define the requirements and use cases for offices in 2020, define the best open system
architecture, identify existing ICT components to be used and develop additional components. The system will be validated
by a pilot installation in a real office setting. After the OpenAIS project, the Consortium will pursue standardization of the
system architecture, aiming at the creation of the leading standard for Internet connected lighting.
The project brings together a strong collaboration of the leading lighting companies Zumtobel, Tridonic, and Philips and the
major players in IoT technology ARM, NXP and Imtech. Consortium partner Johnson Controls represents the end user and
academic knowledge on ICT and system architecture is present through TU/e and TNO-ESI. During the project, the
Consortium will seek close cooperation with the IoT community.
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More information & hyperlinks
Web resources: | https://cordis.europa.eu/project/id/644332 |
Start date: | 01-01-2015 |
End date: | 30-06-2018 |
Total budget - Public funding: | 10 748 188,50 Euro - 7 893 553,00 Euro |
Cordis data
Original description
Following the trends of the creation of the “The Internet of Things” (IoT) and the rapid penetration of SSL based lighting, it isvery advantageous to connect the luminaires in buildings to the Internet.
OpenAIS aims at setting the leading standard for inclusion of lighting for professional applications in to IoT, with a focus on
office lighting. This will enable a transition from the currently existing closed and command oriented lighting control systems
to an open and service oriented system architecture. Openness and service orientation will create an eco-system of
suppliers of interoperable components and a market for apps that exploit the lighting system to add value beyond the lighting
function. Added value can e.g. be related to more efficient use of the building, reduction of carbon footprint and increased
comfort and wellbeing. In addition, IoT will facilitate smooth and effective interaction of the lighting system with other
functions in a building such as e.g. HVAC, security and access control. Extensibility and security of the system architecture
are important aspects and will be guaranteed.
The OpenAIS project will define the requirements and use cases for offices in 2020, define the best open system
architecture, identify existing ICT components to be used and develop additional components. The system will be validated
by a pilot installation in a real office setting. After the OpenAIS project, the Consortium will pursue standardization of the
system architecture, aiming at the creation of the leading standard for Internet connected lighting.
The project brings together a strong collaboration of the leading lighting companies Zumtobel, Tridonic, and Philips and the
major players in IoT technology ARM, NXP and Imtech. Consortium partner Johnson Controls represents the end user and
academic knowledge on ICT and system architecture is present through TU/e and TNO-ESI. During the project, the
Consortium will seek close cooperation with the IoT community.
Status
CLOSEDCall topic
ICT-26-2014Update Date
27-10-2022
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H2020-EU.2.1.1. INDUSTRIAL LEADERSHIP - Leadership in enabling and industrial technologies - Information and Communication Technologies (ICT)