Barcelona
Urban
Lab
B
Barcelona Urban Lab 
offers public spaces in 
the city of Barcelona to 
test innovative projects 
for the future of cities 
in a real environment.
Barcelona 
Urban Lab
Barcelona Urban Lab was created to facilitate the use of 
public space in the city of Barcelona as an urban laboratory 
available to companies that need to test their products 
and services in a real environment. With Barcelona Urban 
Lab, Barcelona City Council aims to encourage business 
innovation, facilitating access to the business market and 
creating new products that provide improvements to the 
daily lives of the people of Barcelona.
The pilot products and services that may be tested have to 
respond to an unmet municipal need and must provide a new 
service that helps to improve people’s quality of life.
From the start, more than 12 companies participated in 
testing unique and innovative services in different spheres 
such as urban development, mobility, ecology and ICTs.
Below you’ll find detailed information on some of the most 
notable pilot products and services.
> www.bcn.cat/urbanlab

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01 Sensors  06 Fibre optics 
in containers Installation of a new FTTH 
Installation of sensors at a fibre optic network
container’s filling level  
 
07 Bicycle lanes 
02 SIIUR project Implementation and 
Public lighting with LED evaluation of different types 
technology and the of bicycle lanes
integration of services for  
the general population
 08 Traffic control 
Implementation of traffic 
03 Noise pollution optimisation systems
Noise map of the city  
09 Smart traffic lights 
04 Traffic flows Implementation of sound 
Implementation of traffic traffic fixtures for blind people
control sensors
 10 Electronic meter 
05 Parking spaces readouts 
Implementation of an 
Installation of occupancy 
electronic readout system for 
sensors
gas and water

01
Sensors 
 in containers
Monitoring container’s filling level to optimize collection 
routes
In this pilot project, a system for monitoring filling levels in rubbish 
containers was installed along a stretch of road in the 22@Barcelona 
district. This system is based on sensors placed in rubbish containers 
and containers for separate collection (glass, paper and plastic).
The sensors report the containers’ filling level data, which will be 
transmitted in real-time so that it may change rubbish truck collection 
routes, thereby potentially saving money and improving service. At the 
beginning of 2012, there were 8 containers with sensors for loading that 
alerted the waste management company when the containers reached 
70% capacity.
The pilot project was evaluated as satisfactory by Barcelona City Council 
and the company Urbaser, in charge of removing waste in the east of the 
city, as well as by the company Urbiotica, which was able to work with 
municipal managers and use the demonstration pilot in many visits with 
potential clients.
• Project led by Urbiotica
> www.urbiotica.com

02
SIIUR project
LED public lighting and integration of urban services
SIIUR (Comprehensive Solution for Urban Infrastructure) is an innovative 
project that integrates services and urban infrastructure to manage cities in 
a smarter and more efficient way. SIIUR has a new lighting system equipped 
with LED technology and sensors that process environmental information 
and detect presence, temperature, humidity, noise and pollution. It also 
includes new Wi-Fi access points, a public information point, fibre optic 
services for the home and two charge points for electric vehicles. 
The objective of the project is twofold: to test out new efficient lighting 
systems and integrate new technological equipment to develop a real 
smart city environment. The new integrated lighting system improves the 
quality of the light and the aesthetics of the public space and reduces 
energy consumption and economic expenses (energy savings over 50% 
compared with current facilities). 
The project has set the stage for the current rolling out of local and 
national infrastructure consisting of charge points for electric vehicles, 
since the two charge points installed by SIIUR in Barcelona were the 
first ones in Spain. SIIUR won the Living Labs Global 2011 contest from 
among more than 245 submissions and has received a proposal to 
develop smart and sustainable lighting solutions in Eindhoven.
• Project led by Barcelona Digital Technology Centre.
• Consortium formed by: Arelsa, Circutor, E-controls, Prysmian,  
   Santa&Cole, SECE and Semai Lighting.
> www.siiur.com

03
Noise pollution
Noise map of the city
This pilot project involved the installation of noise microsensors in 
various public street lights to evaulate their viability and reliability in 
detecting levels of urban ambiental noise. These microsensors are much 
more affordable than traditional sound level meters and communicate 
in a wireless network to generate a noise map for an area, sending the 
data to a monitoring software program created to produce noise pollution 
maps of the city almost in real time.
The aim of this project was to test a technology in situ that had so 
far only been tested in a laboratory. It was noted that the principle of 
measurement and the generation of large amounts of data provide a great 
deal of accurate – and therefore, very useful – information on noise levels 
in the street, doing so with unprecendented availability in the market.
Implementation of the project as part of Barcelona Urban Lab has 
also brought additional benefits like improved product specification for 
example, which is now much more adapted to Barcelona City Council’s 
needs and its real uses in the urban environment.
• Project led by Zolertia
> www.zolertia.com
©  D a n i e l  L o e w e
04
Traffic flows
Implementation of traffic control sensors
This pilot programme consists of a smart system to control and manage 
traffic automatically with data sent through 3G by the 50 sensors installed 
in different points in the city.
The project’s aim is to evaluate the potential advantages for both 
government and the general population. Currently, the data obtained by 
the sensors is used to calculate travel time and only municipal authorities 
have access to it. For the future, it is proposed to make the data available 
to people through diffferent channels (variable panels, websites, etc.).
The benefits for government include an accurate view of the traffic 
situation, which enables authorities to intervene in it in real time. 
Furthermore, the platform will allow for better understanding of traffic 
movement inside the city, identifying main flows in order to expedite 
decisions on mobility and offer new services. For the populace, it is a 
system that facilitates decision-making when choosing the fastest route 
or the most suitable means of transport and allows users to calculate 
how long a trip will really take.
• Project led by Mobility and Transport Areas, Barcelona City Council 
• With the collaboration of: BITCARRIER
> www.bitcarrier.com

05
Parking spaces
Installation of occupancy sensors
This pilot project involved the installation of parking sensors that 
communicate the occupancy status of parking spaces and use this 
information to guide drivers to vacant parking spaces more efficiently 
through information panels in the street or mobile applications. In total, 
70 sensors were installed in blue zone parking spaces and in loading and 
unloading areas as a system to control their occupancy.
The aim was to test the sensor system for detecting ground-level parking 
space occupancy in order to guide drivers to empty spaces more efficiently 
and provide information to Barcelona City Council for developing and 
implementing measures in the future.
Although the system is not yet fully operational, the results obtained so 
far exceed the company’s initial expectations. These early stages of the 
project have led to a product that has been more suited to the technical 
and functional requirements since the design stage, which has reduced 
development time.
• Project led by Worldsensing
> www.worldsensing.com
06
Fibre optics
Installation of a new FTTH fibre optic network
FTTH (Fibre To The Home) technology is based on bringing fibre optics to the 
home. The project includes the vertical section of a facility of this type, which 
ranges from the RITI (Lower-Level Telecommunications Facilities Premises) 
or communications room of the building to the scale record found on each 
landing (leaving enough fibre optics to reach the home).
The aim of this project was to reach homes in the Sant Martí district 
with an FTTH fibre optic network in order to multiply the bandwidth in 
comparison with the traditional copper cable system, going from the current 
maximum of 20 Mb to a minimum Internet bandwidth of 100 Mb/20 Mb. 
It is intended that the creation of this neutral infrastructure will lead 
to the arrival of different service providers and open the door to new 
telecommunications-related services and business models.
• Project led by 22@ - Barcelona City Council
• With the collaboration of: Adamo, FOC and ELECNOR
> www.bcn.cat/22barcelona
07
Bicycle lanes
Implementation and evaluation of different types of 
bicycle lanes
This pilot project involved the implementation of bicycle lanes on the 
pavement, separated with paint or with urban elements, and roadway 
bicycle lanes separated with paint or with a separating piece. One-way 
and two-way lanes were tested in both cases. The pilot project enabled 
the testing and evaluation of different types of bicycle lanes in the 22@ 
district in order to detect which of them contributed to better circulation 
and safety for cyclists, while not preventing traffic from flowing normally. 
A change in tendency has been noted in the types of bicycle lanes in 
the city, moving from bicycle lanes to the left of the road and going the 
same way as the road to two-way lanes separated from traffic by means 
of small pieces.
• Project led by Barcelona City Council
> www.bcn.cat
08
Traffic control
Implementation of traffic optimisation systems
The pilot project involves the installation of cameras connected to the 
public roadway to control traffic in real time and to be able to evaluate a 
new system for controlling traffic and monitoring road accidents.
After measuring parameters like traffic density, reaction time to road 
accidents and polluting emissions, it was concluded that the new 
regulatory system is not as effective as was expected. Barcelona City 
Council’s Mobility Department didn’t implement it on a large scale. 
However, after the pilot project ended, the installed cameras have 
continued to be used for controlling traffic and counting vehicles.
• Project led by ACISA
• With the collaboration of: DOYMO, PANASONIC and LANACCES
> www.acisa.es
09
Smart traffic 
lights
Implementation of sound traffic lights for blind people
This pilot project involved the installation of new traffic fixtures that are activated 
via remote control and emit three types of sounds (of orientation, of walking 
and of stopping walking) at some intersections in Barcelona’s 22@ district. 
The objective is twofold: first, to make it easier for blind people to cross 
intersections and second, to reduce noise pollution compared with other 
traffic fixtures that emit constant sound signals.
The evaluation of the pilot project, conducted by Barcelona City Council 
and ONCE (Spanish organisation focus on the improvement of the quality 
of life of people with blindness), was very positive, even though they ruled 
out implementing it in the rest of the city of Barcelona due to its high 
costs. Nevertheless, companies are already marketing the product in an 
improved version in other cities like Valencia.
• Project led by ACISA
• With the collaboration of: INDRA, FUNDOSA i DOYMO
> www.acisa.es
10
Electronic 
meter readouts
Implementation of an electronic readout system for gas 
and water
The pilot project involved the installation of electronic readout systems 
for household gas and water and facilitated individualised access to 
consumption through the Internet. 
The aim of the pilot project was to provide users with access to their 
consumption data via the Internet. The information collected enables 
consultation of consumption histories by the month, week, day and 
hour. It also provides companies with the ability to perform real readouts 
without the need to move around.
• Project led by Wimet
L
In the framework of: Cofunded by:
bcn.cat/
urbanlab