IoT development is expanding at a rapid pace, driving applications such as Industry 4.0; smart city, building automation, smart home, and other emerging use cases. This requires solutions not only on the cloud side, but also for edge computing, gateways, and constrained devices. If you have a story to tell about using Eclipse IoT projects, new open source projects for IoT, experiences with building IoT solutions or delivering edge services for IoT, then submit your talk here.
IoT is everywhere and the diversity of devices and sensors is overwhelming.
This leads to difficulties with the massive amount of different payload formats, APIs, and proprietary protocols.
The main issue is how to ensure that this diversity of connected devices can seamlessly communicate with platforms and applications, regardless of the different technologies, and systems.
In this session, we will talk about payload mapping with the open-source project Eclipse Vorto, which solves exactly these types of problems.
Having software update capabilities ensures a secure IoT by means that it gives IoT projects the chance to keep security related mechanisms up-to-date. From that moment on devices are at the forefront of IT security threats many embedded software developers never had to face.
From a device point of view, software updates differ hugely from domain to domain, from device to device, or even from use-case to use-case. From the backend, however, our experience has shown, that the process does not differ too much.
The recent trend of cloud-native computing and microservices architectures have taken developers by the storm. But what if we want to move our services closer to devices and users that generate and use data? Enter the Edge computing, trying to extend cloud-native computing beyond the centralized data centers. In this session, we'll try to get you interested in this topic, talking about why and how you can start introducing Edge computing in your IoT projects.
As of July 2019, there were 38 projects in the Eclipse IoT portfolio. Some of them are well known; some of them are more obscure. Together, they probably are the most exhausive toolkit of its kind in the industry. However, with that many projects, it is sometimes difficult to figure out which one to pick for a specific use case.
The aim of this presentation is to describe each of the Eclipse IoT projects and position them in a typical IoT architecture. Attendees will also learn which projects are often used together in the real word though specific use cases.
This talk will give a brief introduction about Calypso the Open Standard of contactless ticketing in Public transport, and then will describe the Eclipse Keyple Project that will propose open source embedeed software for contactless ticketing.
Espressif is the company behind the ESP8266 and ESP32 chipsets (MCU + Wi-Fi + BT/BLE) that are wildly popular with hobbyists and enthusiasts, as well as large OEMs. As an international technology startup it has made its mark in the IoT space, shipping 100 million SoCs.
IDF Plugins for Eclipse is a new project at Espressif aiming to provide better tooling capabilities, which simplifies and enhances standard eclipse CDT for developing and debugging ESP32 IoT applications.
The Eclipse Kuksa project builds an open ecosystem for connected vehicles as part of the Eclipse IoT working group. The challenges of the automotive domain are addressed with a technology stack that covers the in-vehicle side, a cloud back-end and an online IDE. We provide an update of the current system architecture which makes use of other tools from the Eclipse IoT context. We further demonstrate use-cases so participants get an overview of the potential of Eclipse Kuksa. In addition, we describe how a publicly funded project transitioned to the Eclipse Kuksa project.
IoT is evolving really quickly while the industry is holding back because of (cyber) security and thus requiring on-premise deployments. To create an industrial IoT platform, the concern from the industry has to be addressed. A lot of IoT platforms are available from public cloud providers which makes them unusable.
Eclipse IoT projects enable to build an IIoT platform which can be deployed anywhere, from a private, airgapped installation on a bare metal server to private or public clouds.
Please first attend either my introductory talk on MQTT, or someone else's. if they did not accept anyone’s introduction to MQTT talk, then the first 30 minutes of this tutorial will be an introduction to MQTT, and why it is better for IoT than using http.
This tutorial is based on the Paho Python IMqtt library.
First we will make sure that the MQTT server is working using the iMQTT client library. Login, send a message, watch the sent messages.
Car manufacturers through the application of new technologies such as IOT, Artificial Intelligence, Machine Learning, Telematics and Big data are connecting cars to their network, external and physical infrastructure, building a connected transportation ecosystem.
Eclipse Kuksa project contain a cloud platform that interconnects a wide range of vehicles to the cloud via in-car and internet connections.