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Effective URL: https://smartsantander.eu/
Submission Tags: hades
Submission: On June 20 via api from ES — Scanned from ES
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SANTANDER ON FIRE
Future Internet Research & Experimentation
* Concept
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* Blog
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* Testbeds
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* Events
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* Dissemination
* Publications
* Testbed Manual
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* Contact
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* Open Calls
* 1st Open call
* 2nd Open Call
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* Experiments
* Mitos
* Smart Travel
* InterDataNet
* SEN2SOC
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lightretro
SmartSantander proposes a unique in the world city-scale experimental research
facility in support of typical applications and services for a smart city. This
unique experimental facility will be sufficiently large, open and flexible to
enable horizontal and vertical federation with other experimental facilities and
stimulates development of new applications by users of various types including
experimental advanced research on IoT technologies and realistic assessment of
users’ acceptability tests. The project envisions the deployment of 20,000
sensors in Belgrade, Guildford, Lübeck and Santander (12,000), exploiting a
large variety of technologies.
* SANTANDER FACILITY
The Santander testbed is composed currently of around 2000 IEEE 802.15.4
devices deployed in a 3-tiered architecture... read more
* GUILDFORD FACILITY
The first phase of the Guildford deployment is the creation of a Smart
environment based on an indoor deployment of the testbed in the Centre for
Communication Systems Research. It will serve as initial core and
experimental micro-cosmos of the envisioned Smart Campus facility.... read
more
* LÜBECK FACILITY
Lübeck offers a number of different testbeds, all accessible through the
already mentioned WISEBED experimental facility features such as the testbed
runtime, portal servers, etc ... read more
* BELGRADE FACILITY
The EkoBus system deployed in the cities of Belgrade and Pancevo is made
available for experimentation on IoT data level. The system utilizes public
transportation vehicles in the city of Belgrade and the city of Pancevo to
monitor a set of environmental parameters (CO, CO2, NO2, temperature,
humidity) over a large area as well as to provide additional information for
the end-user like the location of the buses and estimated arrival times to
bus stops... read more
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HOW DOES THE INFRASTRUCTURE WORK?
A scalable, heterogeneous and trustable large-scale real-world experimental
facility will be deployed. During the RWI sessions of the Future Internet
Assembly in Prague in early 2009, the main requirements for a real-world IoT
experimental platform were identified. SmartSantander will address all these
requirements by specifying, designing, and implementing the necessary building
blocks. An initial high-level architecture for the resulting new experimental
facility has already been worked out, and is shown in Figure below. This
architecture heavily relies on existing components which will be supplemented by
the so far missing building blocks.
WHAT CAN BE TESTED AND HOW?
One of the main objectives of the project is to fuel the use of the
Experimentation Facility among the scientific community, end users and service
providers in order to reduce the technical and societal barriers that prevent
the IoT concept to become an everyday reality. To attract the widest interest
and demonstrate the usefulness of the SmartSantander platform, a key aspect that
will be addressed is the inclusion of a wide set of applications. Application
areas will be selected based on their high potential impact on the citizens as
well as to exhibit the diversity, dynamics and scale that are essential in
advanced protocol solutions, and will be able to be evaluated through the
platform. Thus, the platform will be attractive for all involved stakeholders:
Industries, communities of users, other entities that are willing to use the
experimental facility for deploying, and assessing new services and
applications, and Internet researchers to validate their cutting-edge
technologies (protocols, algorithms, radio interfaces, etc.).
KEY FUNCTIONS
1. Validation of approaches to the architectural model of the IoT.
2. Evaluation of the key building blocks of the IoT architecture, in
particular, IoT interaction & management protocols and mechanisms; device
technologies; and key support services such as discovery, identity
management and security.
3. Evaluation of social acceptance of IoT technologies and services.
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Latest News
* Article about SmartSantander featured in "Peloponnisos" Greek newspaper
* 2014 IEEE Ninth International Conference on Intelligent Sensors, Sensor
Networks and Information Processing (ISSNIP)
* ComNet-IoT 2014
* The ITS experiments of the 2nd Open Call are presented to the Greek community
of transportation engineers
* Smart cities will need big data
* FI-WARE and Smart Cities in Santander, October 16-18th
* SmartSantander General Assembly Meeting July 2013
* 8th Summer School on Applications of IoT and Wireless Sensor Networks
* RTVE (National Spanish Television)
* Euronews
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2nd Call for Tenders
SmartSantander project announces the second phase of OPEN TENDERS concerning the
procedure of procurement.
Smart Cities
MEMORANDUM OF UNDERSTANDING
SmartSantander Survey
SmartSantander project wants to hear your opinion on the applications and
services that this facility should deploy. Please take about 20 minutes to
complete the survey!
Survey
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