Difference between revisions of "SCOTT:WP25"

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(Created page with "={{PAGENAME}} - Autonomy of Devices/Energy Efficiency = ==Partners in {{PAGENAME}}== {{#ask: [[Workpackage::{{FULLPAGENAME}}]] Partner::+| ?Page Title |?Lead partner | ?P...")
 
 
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={{PAGENAME}} - Autonomy of Devices/Energy Efficiency =
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{{Workpackage
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|WP Title=Autonomy of Devices / Energy Efficiency of WSN
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|Page Title=WP25 - Autonomy of Devices
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|Project=SCOTT
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|Lead partner=Acciona
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|Leader=Rafael Socorro Herández
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|Partner=ACCIONA, VIF, AVL, CENTRIA, TECNALIA, HH, JKU, LCM, NXP AT, NXP-NL, PHILIPS LIGHT, RD VELHO, IMEC-NL, TU Delft, TU/e, TU GRAZ, UPM,
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|Objective=In recent years, the number of wireless sensor network deployments for real life applications has rapidly increased. Still, the energy problem remains one of the major barrier somehow preventing the complete exploitation of this technology. Sensor nodes are typically powered by batteries with a limited lifetime and, even when additional energy can be harvested from the external environment (e.g. through solar cells or piezo-electric mechanisms), it remains a limited resource to be consumed judiciously. Efficient energy management is thus a key requirement for a credible design of a wireless sensor network.
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The design of sustainable wireless sensor networks (WSNs) is a very challenging issue. On the one hand, energy- constrained sensors are expected to run autonomously for long periods. However, it may be cost-prohibitive to replace exhausted batteries or even impossible in hostile environments. On the other hand, unlike other networks, WSNs are designed for specific applications which range from small-size to large-scale monitoring. Thus, any WSN deployment has to satisfy a set of requirements that differs from one application to another.
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We address these main challenges with following objectives:
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* Identification of the most suitable energy related technologies to be applied in each circumstances.
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* Support the development of energy efficient components, protocols, etc.
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* Support the physical and logical integration of energy-constrained WSNs.
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}}
 
==Partners in {{PAGENAME}}==
 
==Partners in {{PAGENAME}}==
 
{{#ask:  [[Workpackage::{{FULLPAGENAME}}]] [[Partner::+]]| ?Page Title |?Lead partner | ?Partner | format=template | template=Partner_listing
 
{{#ask:  [[Workpackage::{{FULLPAGENAME}}]] [[Partner::+]]| ?Page Title |?Lead partner | ?Partner | format=template | template=Partner_listing

Latest revision as of 10:20, 31 January 2018

WP25 - Autonomy of Devices

WP Title: Autonomy of Devices / Energy Efficiency of WSN
Project: SCOTT
Lead partner: Acciona
Leader: Rafael Socorro Herández
Contributors: ACCIONA, VIF, AVL, CENTRIA, TECNALIA, HH, JKU, LCM, NXP AT, NXP-NL, PHILIPS LIGHT, RD VELHO, IMEC-NL, TU Delft, TU/e, TU GRAZ, UPM

Objective

In recent years, the number of wireless sensor network deployments for real life applications has rapidly increased. Still, the energy problem remains one of the major barrier somehow preventing the complete exploitation of this technology. Sensor nodes are typically powered by batteries with a limited lifetime and, even when additional energy can be harvested from the external environment (e.g. through solar cells or piezo-electric mechanisms), it remains a limited resource to be consumed judiciously. Efficient energy management is thus a key requirement for a credible design of a wireless sensor network. The design of sustainable wireless sensor networks (WSNs) is a very challenging issue. On the one hand, energy- constrained sensors are expected to run autonomously for long periods. However, it may be cost-prohibitive to replace exhausted batteries or even impossible in hostile environments. On the other hand, unlike other networks, WSNs are designed for specific applications which range from small-size to large-scale monitoring. Thus, any WSN deployment has to satisfy a set of requirements that differs from one application to another. We address these main challenges with following objectives:

  • Identification of the most suitable energy related technologies to be applied in each circumstances.
  • Support the development of energy efficient components, protocols, etc.
  • Support the physical and logical integration of energy-constrained WSNs.

Partners in WP25

Tasks in WP25

Deliverables in SCOTT:WP25

Working area