This presentation will (1) detail the new features introduced in Vortex 2.0, (2) explain how Vortex 2.0 addresses the requirements of Industrial IoT applications better than any other existing platform, including native support for both edge-based Fog and Cloud computing, and (3) showcase how innovative companies are using Vortex for building leading edge Industrial IoT applications.
This presentation will explain the forces that drove the introduction of Fog Computing and provide a thorough definition of the underlying architectural style, it will explore the relationships and synergies that exist between Fog and Cloud Computing and will show how Vortex naturally supports Fog Computing Architectures.
This presentation will introduce the main principles of the Microservice Architecture, and showcase how the Global Data Space abstraction provided by Vortex ideally supports the microservices architectural pattern.
This presentation will showcase how the Vortex Data Sharing Platform can be effectively and productively used to create connected mobile and web applications, and take you through the steps required to use Vortex in mobile and web applications.
Building Autonomous and Connected Vehicle Systems with Vortex Internet of Things Data Sharing Platform
This presentation will showcase how Vortex Internet of Things Data Sharing Platform based on the Object Management Group's Data Distribution Service (DDS) standard is used today as the foundation of several autonomous and connected vehicles.
This presentation will provide viewers with an introduction to the Data Distribution Service (DDS) standard. After viewing the presentation you will understand how to exploit DDS architectural features when designing your next system, how to write idiomatic DDS applications and what are the fundamental patterns that you should adopt in your applications.
Distributed Algorithms in DDS: Higher Level Abstractions for Building Scalable and Fault-Tolerant Distributed Systems
This presentation explores DDS-based distributed algorithms for many classical, yet fundamental, problems in distributed systems. By viewing the presentation you will learn how recurring problems arising in the design of distributed systems can be addressed using algorithms that are correct and perform well.
This presentation will show how reactive data-centric systems can be designed and built taking advantage of Vortex data sharing capabilities along with its integration with reactive and data-centric processing technologies such as Apache Spark and ReactiveX.
This presentation will position Vortex Cloud with respect to some of the mainstream Cloud Messaging implementations, such as those found as part of the Microsoft Azure Platform, Amazon EC2, and the Google Cloud Platform.
This presentation will identify the key requirements of Consumer and Industrial Internet of Things systems and show how Vortex platform is able to provide a solution that addresses them.