�ݺ�ߣshows by User: FedericoSismondi

�ݺ�ߣshows by User: FedericoSismondi / http://www.slideshare.net/images/logo.gif �ݺ�ߣshows by User: FedericoSismondi / Wed, 18 Mar 2015 06:41:56 GMT �ݺ�ߣShare feed for �ݺ�ߣshows by User: FedericoSismondi Energy consumption study of a WSN using 6TiSCH architecture /slideshow/6tisch-final-presentation/45985332 6tischfinalpresentation-150318064156-conversion-gate01
Motivated by the active developments on the industrial automated world and the new technologies arising in the area of Internet of Things, the IETF, based on IEEE’s existing standards, and some already accepted protocols, propose a new architecture to satisfy the needs of both fields. 6tisch, the new IETF’s architecture to be studied during our project, aims to give a convergent solution for both fields that have plenty of common points. It aims to satisfy the requirements of the wireless low powered lossy networks. Among them, we can point out: energy management policy, energy efficient design, link reliability, robustness, scalability support, interoperability, self organization, end to end reliability, security and mobility support, as the most noticeable ones. The project proposed aims to obtain a well founded experience on how the newly developed architecture 6tisch performs in the OpenWSN project. The partner enterprise wants to quantify the energy consumed by the motes in a real use case, with special detail on how the different parameterizations of the protocol stack would affect it. Due to the increasing need of networks relying on low energy consumption, our project will analyze from the lowest layers of the protocol stack how 6tish architecture performs energywise and how the different mechanisms like routing table construction, message forwarding function, scheduling of the TSCH slots, and many others will perform.]]>
Motivated by the active developments on the industrial automated world and the new technologies arising in the area of Internet of Things, the IETF, based on IEEE’s existing standards, and some already accepted protocols, propose a new architecture to satisfy the needs of both fields. 6tisch, the new IETF’s architecture to be studied during our project, aims to give a convergent solution for both fields that have plenty of common points. It aims to satisfy the requirements of the wireless low powered lossy networks. Among them, we can point out: energy management policy, energy efficient design, link reliability, robustness, scalability support, interoperability, self organization, end to end reliability, security and mobility support, as the most noticeable ones. The project proposed aims to obtain a well founded experience on how the newly developed architecture 6tisch performs in the OpenWSN project. The partner enterprise wants to quantify the energy consumed by the motes in a real use case, with special detail on how the different parameterizations of the protocol stack would affect it. Due to the increasing need of networks relying on low energy consumption, our project will analyze from the lowest layers of the protocol stack how 6tish architecture performs energywise and how the different mechanisms like routing table construction, message forwarding function, scheduling of the TSCH slots, and many others will perform.]]> Wed, 18 Mar 2015 06:41:56 GMT /slideshow/6tisch-final-presentation/45985332 FedericoSismondi@slideshare.net(FedericoSismondi) Energy consumption study of a WSN using 6TiSCH architecture FedericoSismondi Motivated by the active developments on the industrial automated world and the new technologies arising in the area of Internet of Things, the IETF, based on IEEE’s existing standards, and some already accepted protocols, propose a new architecture to satisfy the needs of both fields. 6tisch, the new IETF’s architecture to be studied during our project, aims to give a convergent solution for both fields that have plenty of common points. It aims to satisfy the requirements of the wireless low powered lossy networks. Among them, we can point out: energy management policy, energy efficient design, link reliability, robustness, scalability support, interoperability, self organization, end to end reliability, security and mobility support, as the most noticeable ones. The project proposed aims to obtain a well founded experience on how the newly developed architecture 6tisch performs in the OpenWSN project. The partner enterprise wants to quantify the energy consumed by the motes in a real use case, with special detail on how the different parameterizations of the protocol stack would affect it. Due to the increasing need of networks relying on low energy consumption, our project will analyze from the lowest layers of the protocol stack how 6tish architecture performs energywise and how the different mechanisms like routing table construction, message forwarding function, scheduling of the TSCH slots, and many others will perform. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/6tischfinalpresentation-150318064156-conversion-gate01-thumbnail.jpg?width=120&height=120&fit=bounds" /><br> Motivated by the active developments on the industrial automated world and the new technologies arising in the area of Internet of Things, the IETF, based on IEEE’s existing standards, and some already accepted protocols, propose a new architecture to satisfy the needs of both fields. 6tisch, the new IETF’s architecture to be studied during our project, aims to give a convergent solution for both fields that have plenty of common points. It aims to satisfy the requirements of the wireless low powered lossy networks. Among them, we can point out: energy management policy, energy efficient design, link reliability, robustness, scalability support, interoperability, self organization, end to end reliability, security and mobility support, as the most noticeable ones. The project proposed aims to obtain a well founded experience on how the newly developed architecture 6tisch performs in the OpenWSN project. The partner enterprise wants to quantify the energy consumed by the motes in a real use case, with special detail on how the different parameterizations of the protocol stack would affect it. Due to the increasing need of networks relying on low energy consumption, our project will analyze from the lowest layers of the protocol stack how 6tish architecture performs energywise and how the different mechanisms like routing table construction, message forwarding function, scheduling of the TSCH slots, and many others will perform.

Energy consumption study of a WSN using 6TiSCH architecture from Federico Sismondi

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