�ݺ�ߣshows by User: kitos9112

�ݺ�ߣshows by User: kitos9112 / http://www.slideshare.net/images/logo.gif �ݺ�ߣshows by User: kitos9112 / Thu, 15 Dec 2016 16:24:22 GMT �ݺ�ߣShare feed for �ݺ�ߣshows by User: kitos9112 A System for a Vehicle Based on CoAP /slideshow/tfma-system-based-on-coapreportmarcos-soutullov1/70177845 836c473c-a7ef-454d-94bb-a0027a60af91-161215162422
The continuous evolution of the Internet is currently enabling an ever-rowing availability of novel and appealing on-line services and applications. In this respect, with the simplification of wireless and wired communication electronics, being coupled to new and different on-line capable devices, we are witnessing a wide availability of connected nodes, which require the exchange of information with other devices and equipment, a concept that is currently being referred to as Machine-To-Machine. In this way, the Constraint Application Protocol (CoAP) is introduced as a Machine-to-Machine communication protocol recently standardised by the IETF and intended to be used as a simpler alternative to the Hypertext Transfer Protocol (HTTP) for connecting limited devices over constraint networks. Nevertheless, CoAP is not just a compressed version of HTTP with some extensions, CoAP is transported over UDP to simplify the network stack and provide a request/response interaction model between application endpoints, so far optimized to be small, light-weight and fast for these cutting-edge M2M and Internet of Things (IoT) applications In this master’s thesis, we analyse the limitations and desired improvements of a current M2M deployment of an UK based company to track their fleet of vehicles. So that, we propose and design an autonomous M2M system based on CoAP to track a single vehicle and also identify its likely drivers. Finally, the real proof of concept is implemented using Python as main programming language and also validated.]]>
The continuous evolution of the Internet is currently enabling an ever-rowing availability of novel and appealing on-line services and applications. In this respect, with the simplification of wireless and wired communication electronics, being coupled to new and different on-line capable devices, we are witnessing a wide availability of connected nodes, which require the exchange of information with other devices and equipment, a concept that is currently being referred to as Machine-To-Machine. In this way, the Constraint Application Protocol (CoAP) is introduced as a Machine-to-Machine communication protocol recently standardised by the IETF and intended to be used as a simpler alternative to the Hypertext Transfer Protocol (HTTP) for connecting limited devices over constraint networks. Nevertheless, CoAP is not just a compressed version of HTTP with some extensions, CoAP is transported over UDP to simplify the network stack and provide a request/response interaction model between application endpoints, so far optimized to be small, light-weight and fast for these cutting-edge M2M and Internet of Things (IoT) applications In this master’s thesis, we analyse the limitations and desired improvements of a current M2M deployment of an UK based company to track their fleet of vehicles. So that, we propose and design an autonomous M2M system based on CoAP to track a single vehicle and also identify its likely drivers. Finally, the real proof of concept is implemented using Python as main programming language and also validated.]]> Thu, 15 Dec 2016 16:24:22 GMT /slideshow/tfma-system-based-on-coapreportmarcos-soutullov1/70177845 kitos9112@slideshare.net(kitos9112) A System for a Vehicle Based on CoAP kitos9112 The continuous evolution of the Internet is currently enabling an ever-rowing availability of novel and appealing on-line services and applications. In this respect, with the simplification of wireless and wired communication electronics, being coupled to new and different on-line capable devices, we are witnessing a wide availability of connected nodes, which require the exchange of information with other devices and equipment, a concept that is currently being referred to as Machine-To-Machine. In this way, the Constraint Application Protocol (CoAP) is introduced as a Machine-to-Machine communication protocol recently standardised by the IETF and intended to be used as a simpler alternative to the Hypertext Transfer Protocol (HTTP) for connecting limited devices over constraint networks. Nevertheless, CoAP is not just a compressed version of HTTP with some extensions, CoAP is transported over UDP to simplify the network stack and provide a request/response interaction model between application endpoints, so far optimized to be small, light-weight and fast for these cutting-edge M2M and Internet of Things (IoT) applications In this master’s thesis, we analyse the limitations and desired improvements of a current M2M deployment of an UK based company to track their fleet of vehicles. So that, we propose and design an autonomous M2M system based on CoAP to track a single vehicle and also identify its likely drivers. Finally, the real proof of concept is implemented using Python as main programming language and also validated. <img style="border:1px solid #C3E6D8;float:right;" alt="" src="https://cdn.slidesharecdn.com/ss_thumbnails/836c473c-a7ef-454d-94bb-a0027a60af91-161215162422-thumbnail.jpg?width=120&height=120&fit=bounds" /><br> The continuous evolution of the Internet is currently enabling an ever-rowing availability of novel and appealing on-line services and applications. In this respect, with the simplification of wireless and wired communication electronics, being coupled to new and different on-line capable devices, we are witnessing a wide availability of connected nodes, which require the exchange of information with other devices and equipment, a concept that is currently being referred to as Machine-To-Machine. In this way, the Constraint Application Protocol (CoAP) is introduced as a Machine-to-Machine communication protocol recently standardised by the IETF and intended to be used as a simpler alternative to the Hypertext Transfer Protocol (HTTP) for connecting limited devices over constraint networks. Nevertheless, CoAP is not just a compressed version of HTTP with some extensions, CoAP is transported over UDP to simplify the network stack and provide a request/response interaction model between application endpoints, so far optimized to be small, light-weight and fast for these cutting-edge M2M and Internet of Things (IoT) applications In this master’s thesis, we analyse the limitations and desired improvements of a current M2M deployment of an UK based company to track their fleet of vehicles. So that, we propose and design an autonomous M2M system based on CoAP to track a single vehicle and also identify its likely drivers. Finally, the real proof of concept is implemented using Python as main programming language and also validated.

A System for a Vehicle Based on CoAP from Marcos Soutullo Rodr鱈guez

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0 https://cdn.slidesharecdn.com/profile-photo-kitos9112-48x48.jpg?cb=1668515214 Self-motivated, hard-working and easy-going person who is currently working as Operations Engineer for a cloud-service company, looking after the whole infrastructure (VMWare and AWS based) and also, mostly automating some manual BAU tasks.