Lighting Infrastructure as a Service Platform: Difference between revisions
From Modelado Foundation
imported>Wpinfold No edit summary |
imported>Wpinfold No edit summary |
||
| Line 1: | Line 1: | ||
{{ | {{ActionCluster | ||
| title = Lighting infrastructure as a service platform | | title = Lighting infrastructure as a service platform | ||
| team | | team = [http://c2smartlight.com/c2-smartlight-deliveres-lighting-control-system-for-city-of-kouvola/ C2 SmartLight], [http://corporate.elisa.com/ Elisa], [https://greenled.com/ Greenled], [http://misaldesign.com/index.php?dil=en Misal], [https://www.nokia.com/en_int Nokia], [http://www.tehomet.com/index.php/en/ Tehomet], [http://www.valopaa.com/home Valopaa] | ||
| | | leader = [https://www.linkedin.com/in/eveliina-juntunen-a7b18ab2/ Eveliina Juntunen] | ||
| image = [[File:C2StreetLight_Aarnio600.jpg|350px]] | | image = [[File:C2StreetLight_Aarnio600.jpg|350px]] | ||
| imagecaption = C2 Street Lights in Aarnio | | imagecaption = C2 Street Lights in Aarnio | ||
| Line 9: | Line 9: | ||
| website = http://c2smartlight.com/c2-smartlight-deliveres-lighting-control-system-for-city-of-kouvola/ | | website = http://c2smartlight.com/c2-smartlight-deliveres-lighting-control-system-for-city-of-kouvola/ | ||
| download = | | download = | ||
| description = | |||
Lighting infrastructure is centrally located in city, close to people and activities. It provides excellent opportunity to collect and deliver information and services beyond lighting. Project targets to employ lighting infrastructure as the IoT backbone for different services in urban environments. | Lighting infrastructure is centrally located in city, close to people and activities. It provides excellent opportunity to collect and deliver information and services beyond lighting. Project targets to employ lighting infrastructure as the IoT backbone for different services in urban environments. | ||
| challenges = | |||
Advanced sensing and communication (5G) technologies are struggling to find installation places in city environment. The challenges relate to the visual impression of devices in the cityscape and to the need of electricity and requirements of installation height. | Advanced sensing and communication (5G) technologies are struggling to find installation places in city environment. The challenges relate to the visual impression of devices in the cityscape and to the need of electricity and requirements of installation height. | ||
| solutions = | |||
Smart solutions offer added value for urban environments on various levels of experience. However, there is a lack of knowledge on user’s experiences to support design processes. | Smart solutions offer added value for urban environments on various levels of experience. However, there is a lack of knowledge on user’s experiences to support design processes. | ||
Understanding users’ needs is essential for creating feasible services and business opportunities in platforms. | Understanding users’ needs is essential for creating feasible services and business opportunities in platforms. | ||
| requirements= | |||
The project develops intelligent LED lighting pilots in participating cities, to which companies involved develop solutions to better respond to the cities’ needs. The research partners integrate the project together through the design of pilot contents and realization, user experience evaluation and technical development and testing. | The project develops intelligent LED lighting pilots in participating cities, to which companies involved develop solutions to better respond to the cities’ needs. The research partners integrate the project together through the design of pilot contents and realization, user experience evaluation and technical development and testing. | ||
The project pilots smart lighting solutions in six Finnish cities in different kinds of urban environments. The research focus is dual: to study user needs and experiences of smart solutions, and to develop and test technology needed for such solution in harsh northern outdoor conditions. Together, separate pilots in different cities around Finland create a living lab ecosystem for developing and testing innovative solutions. | The project pilots smart lighting solutions in six Finnish cities in different kinds of urban environments. The research focus is dual: to study user needs and experiences of smart solutions, and to develop and test technology needed for such solution in harsh northern outdoor conditions. Together, separate pilots in different cities around Finland create a living lab ecosystem for developing and testing innovative solutions. | ||
| kpi = | |||
# Reduced energy consumption in street lighting | # Reduced energy consumption in street lighting | ||
#User acceptance of innovative, smart city solutions | #User acceptance of innovative, smart city solutions | ||
| | | mesurement = | ||
#Energy measurements and simulation of pilot installations | #Energy measurements and simulation of pilot installations | ||
#User evaluations | #User evaluations | ||
| | | standards = | ||
* Existing lighting infrastructure to be used to serve smart solutions, such as acting as a base station installation stage. | * Existing lighting infrastructure to be used to serve smart solutions, such as acting as a base station installation stage. | ||
* Cloud service combines data from various data sources | * Cloud service combines data from various data sources | ||
| replicability = | |||
* Used communication technologies are based on standard solutions, so that the same approach can used everywhere. | * Used communication technologies are based on standard solutions, so that the same approach can used everywhere. | ||
* Piloting based on mainly commercial technology | * Piloting based on mainly commercial technology | ||
* Available for everyone. | * Available for everyone. | ||
| cybersecurity = Not available at this time | |||
= | | impacts = Not available at this time | ||
| demonstration = | |||
= | |||
The project started in 2015 and finishes 2017 and has already shown promising results. | The project started in 2015 and finishes 2017 and has already shown promising results. | ||
Many pilots such as residential area in Raahe, bicycle route in Helsinki, public road in Salo, and augmented reliability service in Lahti are already implemented. Interactive and communicative lighting in city harbor in Lahti and schoolyard in Oulu will be finished by autumn 2017. In Tampere and Turku different piloting activities of smart city technology for various applications such as safety, traffic control and surveillance are constantly on-going with technology partners. | Many pilots such as residential area in Raahe, bicycle route in Helsinki, public road in Salo, and augmented reliability service in Lahti are already implemented. Interactive and communicative lighting in city harbor in Lahti and schoolyard in Oulu will be finished by autumn 2017. In Tampere and Turku different piloting activities of smart city technology for various applications such as safety, traffic control and surveillance are constantly on-going with technology partners. | ||
| supercluster = Energy | |||
}} | |||
Revision as of 22:54, February 2, 2018
| Lighting infrastructure as a service platform | |
|---|---|
| |
[[File: |350px]]C2 Street Lights in Aarnio | |
| Team Members | C2 SmartLight, Elisa, Greenled, Misal, Nokia, Tehomet, Valopaa |
| Point of Contact | Eveliina Juntunen |
| Participating Municipalities | Helsinki, Lahti, Oulu, Raahe, Salo, Tampere, Turku |
| Status | Launched |
| Website | http://c2smartlight.com/c2-smartlight-deliveres-lighting-control-system-for-city-of-kouvola/ |
| Download | |
Description
Lighting infrastructure is centrally located in city, close to people and activities. It provides excellent opportunity to collect and deliver information and services beyond lighting. Project targets to employ lighting infrastructure as the IoT backbone for different services in urban environments.
Challenges
Advanced sensing and communication (5G) technologies are struggling to find installation places in city environment. The challenges relate to the visual impression of devices in the cityscape and to the need of electricity and requirements of installation height.
Solutions
Smart solutions offer added value for urban environments on various levels of experience. However, there is a lack of knowledge on user’s experiences to support design processes. Understanding users’ needs is essential for creating feasible services and business opportunities in platforms.
Major Requirements
The project develops intelligent LED lighting pilots in participating cities, to which companies involved develop solutions to better respond to the cities’ needs. The research partners integrate the project together through the design of pilot contents and realization, user experience evaluation and technical development and testing. The project pilots smart lighting solutions in six Finnish cities in different kinds of urban environments. The research focus is dual: to study user needs and experiences of smart solutions, and to develop and test technology needed for such solution in harsh northern outdoor conditions. Together, separate pilots in different cities around Finland create a living lab ecosystem for developing and testing innovative solutions.
Performance Targets
| Key Performance Indicators (KPIs) | Measurement Methods |
|---|---|
|
{{{measurement}}} |
Standards, Replicability, Scalability, and Sustainability
- Existing lighting infrastructure to be used to serve smart solutions, such as acting as a base station installation stage.
- Cloud service combines data from various data sources
Cybersecurity and Privacy
Not available at this time
Impacts
Not available at this time
Demonstration/Deployment
The project started in 2015 and finishes 2017 and has already shown promising results. Many pilots such as residential area in Raahe, bicycle route in Helsinki, public road in Salo, and augmented reliability service in Lahti are already implemented. Interactive and communicative lighting in city harbor in Lahti and schoolyard in Oulu will be finished by autumn 2017. In Tampere and Turku different piloting activities of smart city technology for various applications such as safety, traffic control and surveillance are constantly on-going with technology partners.