Eclipse IoT Day 2019
After the success of the IoT Day 2014, IoT Day 2015, IoT Day 2016, IoT Day 2017 and IoT Day 2018, we are back for a sixth edition of the Eclipse IoT Day Grenoble on February 19th , 2019. For this one day event, we have a great program that includes topics around Smart cities, IoT in Space, Connected cars, as well as the Eclipse IoT core technologies.
Introduction / State of the Union of Eclipse IoT
Retrouvez l'intégralité des vidéos de l'Eclipse IoT Day 2019
Cubesats : A low cost opportunity for IoT satellites
In this talk, we will describe the potentiality of cubesats for IoT in space. Different configurations will be adressed for different use cases especially regarding connected objects in isolated regions. The LORAGAN project from the CSUG will also be described.
Distributed Device Management for IoT in action with Eclipse Leshan, Eclipse Wakaama and OMA LWM2M
The Internet of Things (IoT) will come with connected devices which are too constrained to directly implement DM features. Other devices may not implement standards, complicating their integration in a general Device Management (DM) solution. Devices may also not be directly joinable from a remote server, because of Network Address Translation, or a non-IP protocol. Finally, devices will become too numerous to be managed through a centralized architecture.
In this demonstration, we rely on the standard DM protocol OMA LWM2M and its implementation in the Eclipse Leshan and Wakaama projects to propose answers to these problems and make possible a unified, dynamic and scalable visualization and operation for IoT Device Management.
Using Eclipse technologies to develop the BRAIN-IoT model-based framework for IoT platforms
This talk presents an overview of the BRAIN-IoT framework that implements a model-based approach to enable composability and deployment of heterogeneous IoT platforms in a secure way. We will highlight how Eclipse sensinAct and Eclipse Papyrus are used in BRAIN-IoT to provide some of the platform’s capabilities.
LoRaWAN : Single gateway capacity for a reasonable traffic
We model a LoRaWAN cell and estimate the number of nodes that it can accommodate. We consider a Rayleigh channel and physical capture when two frame transmissions overlap. If all nodes have the same traffic generation pattern, regardless of the spreading factor used, the SF allocation between the nodes has a dramatic impact on the cell capacity. In effect, the modulation choice needs to strike a balance between packet losses due to a weak signal reaching the gateway and more robust modulations which cause longer channel occupation by the transmission and thus more collisions.
Eclipse Keyple : The Open Source SDK for access control based on secure contactless technology
Discover Calypso, the historical protocol for contactless electronic ticketing and its open source implementation Eclipse Keyple. Used all around the world, it provides high-security solutions for online and offline secure transactions. Calypso is deployed as a transport public ticketing solutions in 125 cities around the world (Paris - Navigo, Grenoble (Oura), Montreal, Lisboa...).
Driving the Future Connected Vehicle with Eclipse Kuksa
Robert will be talking about the vision, development state, and roadmap of the Eclipse Kuksa project. The audience will be given technological insights into the cloud, IDE, and in-vehicle platforms the project is providing. Eclipse Kuksa, therefore, uses existing technologies from Eclipse projects such as Eclipse HawkBit, Eclipse Che, Eclipse Hono, and more. A small demo can be shown, that presents how users can purchase applications from a store, download and install them on their ‘device’ (e.g. Car-HMI), and exchange data with a cloud instance. Several IoT protocols such as MQTT or AMQP and technologies like Keycloak or network intrusion detection systems are accordingly necessary to provide a secure and authenticated environment that is essential for the automotive industry.
The Making of Fog Computing
Fog computing aims at providing horizontal, system-level, abstractions to distribute computing, storage, control and networking functions closer to the user along a cloud-to-thing continuum. Whilst fog computing is increasingly recognized as the key paradigm at the foundation of Consumer and Industrial Internet of Things (IoT), most of the initiatives on fog computing focus on extending cloud infrastructure. As a consequence, these infrastructures fall short in addressing heterogeneity and resource constraints characteristics of fog computing environments. In this presentation, we (1) explain the requirements of fog computing infrastructure and how they extend well beyond those traditionally addressed by Cloud Computing infrastructures; (2) introduce Eclipse fog∅5, an Open Source fog computing Infrastructure that unifies computing, networking and storage fabrics end-to-end, while addressing the challenges imposed by resource heterogeneity, (3) explain the novel architectural approach adopted by fog∅5 to have a server-less data- centric architecture that is scalable, secure, and highly resilient to failures, (4) demonstrate the use of fog∅5 in some real-world use cases and (5) conclude and reports on future works.
