Future Internet technologies for environmental applications
Future Internet technologies for environmental applications
This paper investigates the usability of Future Internet technologies (aka “Generic Enablers of the Future Internet”) in the context of environmental applications. The paper incorporates the best aspects of the state-of-the-art in environmental informatics with geospatial solutions and scalable processing capabilities of Internet-based tools. It specifically targets the promotion of the “Environmental Observation Web” as an observation-centric paradigm for building the next generation of environmental applications. In the Environmental Observation Web, the great majority of data are considered as observations. These can be generated from sensors (hardware), numerical simulations (models), as well as by humans (human sensors). Independently from the observation provenance and application scope, data can be represented and processed in a standardised way in order to understand environmental processes and their interdependencies. The development of cross-domain applications is then leveraged by technologies such as Cloud Computing, Internet of Things, Big Data Processing and Analytics. For example, “the cloud” can satisfy the peak-performance needs of applications which may occasionally use large amounts of processing power at a fraction of the price of a dedicated server farm. The paper also addresses the need for Specific Enablers that connect mainstream Future Internet capabilities with sensor and geospatial technologies. Main categories of such Specific Enablers are described with an overall architectural approach for developing environmental applications and exemplar use cases.
environmental informatics, environmental observation web, future internet, cloud computing, internet of things, big data, environmental specific enablers, volunteered geographic information, crowdtasking
1-15
Granell, Carlos
6ba4ab28-162c-4972-8f63-72f1a1d1bfbf
Havlik, Denis
4b924169-a0f7-4c96-a285-dba1be432fad
Schade, Sven
34e6d663-f375-4bd5-97ef-76c1c954343d
Sabeur, Zoheir
74b55ff0-94cc-4624-84d5-bb816a7c9be6
Delaney, Conor
90e1f319-f73b-4886-a90f-899feadf527e
Pielorz, Jasmin
135b7e13-ccb6-4525-8898-129878d317fc
Ulander, Thomas
5434f215-a242-47f9-9e7a-5c9f8739cb0d
Mazzetti, Paolo
cc5b084e-82db-43ec-8143-868606997039
Schleidt, Katharina
fa62382f-c134-45da-a75d-2c6235f8a10e
Kobernus, Mike
b4e233ac-61f6-4ce2-8172-6a1db7a92e84
Havlik, Fuada
a4f7745c-e1a0-40d0-9087-810bca59eacd
Rune Bodsberg, Nils
39aacdc8-80dd-4e3d-88c0-a37458b7e5d4
Berre, Arne
e3e76d05-e88c-4798-be66-f236390e33c0
Lorenzo Mon, Jose
423fb050-cd1f-4174-aa5b-5f9f7445e721
April 2016
Granell, Carlos
6ba4ab28-162c-4972-8f63-72f1a1d1bfbf
Havlik, Denis
4b924169-a0f7-4c96-a285-dba1be432fad
Schade, Sven
34e6d663-f375-4bd5-97ef-76c1c954343d
Sabeur, Zoheir
74b55ff0-94cc-4624-84d5-bb816a7c9be6
Delaney, Conor
90e1f319-f73b-4886-a90f-899feadf527e
Pielorz, Jasmin
135b7e13-ccb6-4525-8898-129878d317fc
Ulander, Thomas
5434f215-a242-47f9-9e7a-5c9f8739cb0d
Mazzetti, Paolo
cc5b084e-82db-43ec-8143-868606997039
Schleidt, Katharina
fa62382f-c134-45da-a75d-2c6235f8a10e
Kobernus, Mike
b4e233ac-61f6-4ce2-8172-6a1db7a92e84
Havlik, Fuada
a4f7745c-e1a0-40d0-9087-810bca59eacd
Rune Bodsberg, Nils
39aacdc8-80dd-4e3d-88c0-a37458b7e5d4
Berre, Arne
e3e76d05-e88c-4798-be66-f236390e33c0
Lorenzo Mon, Jose
423fb050-cd1f-4174-aa5b-5f9f7445e721
Granell, Carlos, Havlik, Denis, Schade, Sven, Sabeur, Zoheir, Delaney, Conor, Pielorz, Jasmin, Ulander, Thomas, Mazzetti, Paolo, Schleidt, Katharina, Kobernus, Mike, Havlik, Fuada, Rune Bodsberg, Nils, Berre, Arne and Lorenzo Mon, Jose
(2016)
Future Internet technologies for environmental applications.
Environmental Modelling & Software, 78, .
(doi:10.1016/j.envsoft.2015.12.015).
Abstract
This paper investigates the usability of Future Internet technologies (aka “Generic Enablers of the Future Internet”) in the context of environmental applications. The paper incorporates the best aspects of the state-of-the-art in environmental informatics with geospatial solutions and scalable processing capabilities of Internet-based tools. It specifically targets the promotion of the “Environmental Observation Web” as an observation-centric paradigm for building the next generation of environmental applications. In the Environmental Observation Web, the great majority of data are considered as observations. These can be generated from sensors (hardware), numerical simulations (models), as well as by humans (human sensors). Independently from the observation provenance and application scope, data can be represented and processed in a standardised way in order to understand environmental processes and their interdependencies. The development of cross-domain applications is then leveraged by technologies such as Cloud Computing, Internet of Things, Big Data Processing and Analytics. For example, “the cloud” can satisfy the peak-performance needs of applications which may occasionally use large amounts of processing power at a fraction of the price of a dedicated server farm. The paper also addresses the need for Specific Enablers that connect mainstream Future Internet capabilities with sensor and geospatial technologies. Main categories of such Specific Enablers are described with an overall architectural approach for developing environmental applications and exemplar use cases.
Text
386818.pdf
- Version of Record
Restricted to Repository staff only
Request a copy
More information
Accepted/In Press date: 15 December 2015
e-pub ahead of print date: 28 December 2015
Published date: April 2016
Keywords:
environmental informatics, environmental observation web, future internet, cloud computing, internet of things, big data, environmental specific enablers, volunteered geographic information, crowdtasking
Organisations:
IT Innovation
Identifiers
Local EPrints ID: 386818
URI: http://eprints.soton.ac.uk/id/eprint/386818
ISSN: 1364-8152
PURE UUID: c96f3dbe-104f-46ba-8df5-5ce90ba77e6e
Catalogue record
Date deposited: 04 Feb 2016 15:03
Last modified: 14 Mar 2024 22:38
Export record
Altmetrics
Contributors
Author:
Carlos Granell
Author:
Denis Havlik
Author:
Sven Schade
Author:
Zoheir Sabeur
Author:
Conor Delaney
Author:
Jasmin Pielorz
Author:
Thomas Ulander
Author:
Paolo Mazzetti
Author:
Katharina Schleidt
Author:
Mike Kobernus
Author:
Fuada Havlik
Author:
Nils Rune Bodsberg
Author:
Arne Berre
Author:
Jose Lorenzo Mon
Download statistics
Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.
View more statistics