Abstract
The increase of Internet of Things devices and the rise of more computationally intense applications presents challenges for future Internet of Things architectures. We envision a future in which edge, fog, and cloud devices work together to execute future applications. Because the entire application cannot run on smaller edge or fog devices, we will need to split the application into smaller application components. These application components will send event messages to each other to create a single application from multiple application components. The execution location of the application components can be optimized to minimize the resource consumption. In this paper, we describe the Distributed Uniform Stream (DUST) framework that creates an abstraction between the application components and the middleware which is required to make the execution location transparent to the application component. We describe a real-world application that uses the DUST framework for platform transparency. Next to the DUST framework, we also describe the distributed DUST Coordinator, which will optimize the resource consumption by moving the application components to a different execution location. The coordinators will use an adapted version of the Contract Net Protocol to find local minima in resource consumption.
Highlights
The computational resources of Internet of Things (IoT) [1,2] devices are typically limited
The described architecture of an event-streaming model in combination of an abstract middleware interface, which is created by using the Distributed Uniform Stream (DUST)-Core, creates a platform transparency that allows for a large reusability of application components
We demonstrated how we can create application components that can communicate with each other using an abstract middleware interface that is implemented in the DUST Core
Summary
The computational resources of Internet of Things (IoT) [1,2] devices are typically limited. This means that the edge devices, fog devices, and the cloud will work together to make optimal use of the resources that are available To achieve this optimal use of resources, we will need to monitor a lot of resources such as network usage, response times, battery life, and computational resource, etc. We propose the Distributed Uniform Stream (DUST) Framework [5], which paves the road towards an elastic streaming platform It optimizes the distribution of resources in a modern IoT environment. A distributed coordination system is introduced, which takes the optimization and distribution of the components over available resources into account This results in a system of application components that can adapt to occurring changes in event-streaming rates in a flexible way.
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