Dominik Henneke scite author profile

Wiśniewski

Jasperneite

2016

Software-Defined Networking (SDN) is a promising approach to build future industrial networks. The disruptive change of network architecture and management opens new possibilities in various application domains. While the approach is already deployed in several domains and was also initially examined to be used in the industrial area, many open questions arise when assessing the risks and improvements to be expected. The following work presents features of a potential future industrial network infrastructure and sets up requirements that are important for future communications. It reviews basics of SDN and correlates existing work to the specified requirements. Finally, it presents open questions and room for future research

Reliability-oriented multipath communication for internet-based cyber-physical systems

Elattar

Friesen

et al. 2018

Open and Secure: Amending the Security of the BSI Smart Metering Infrastructure to Smart Home Applications via the Smart Meter Gateway

Freudenmann

Kudera

et al. 2017

This paper describes an implementation to enable interaction between smart home solutions and Smart Meter Gateways (SMGWs). This is conducted in the example of the approach of the AnyPLACE project to interconnect openHAB with the HAN interface of the SMGW. Furthermore, security issues in the combination of those two realms are addressed, answered and tested so that in addition to the open character of the solution, it is still secure.

Communication patterns for Cyber-Physical Systems

Elattar

Jasperneite

2015

Cyber-Physical Systems (CPSs) represent a new paradigm of future intelligent systems. They consist of loosely coupled subsystems which interact with mechanisms of Serviceoriented Architecture (SoA). In this paper we try to open a new topic in industrial communications. This topic is focused on basic communication patterns within CPSs. Patterns are abstract and generic solutions for common problems in the design of systems. They have a defined feature set, their flaws are known, and they help to avoid repeating errors. Furthermore, patterns introduce a common vocabulary within a community, which simplifies communication between people and documentation. Patterns often represent best practices that are used in already existing protocols. Therefore this work starts to evaluate different existing communication protocols in the scope of SoA and loosely coupled systems, extracts common tasks and implementations, and identifies common communication patterns.

Communications for AnyPLACE: A smart metering platform with management and control functionalities

Freudenmann

Kammerstetter

et al. 2016

Recent developments under the term Smart Grid change how users consume electricity and interact with the power grid. Smart metering and energy management are developments that transform the yet passive energy consumer to a participant that is actively involved in the energy market by using variable energy tariffs or by demand-response services. But such functionality demands a platform that integrates all smart devices in the users property, connects to external services and electricity providers, and has interfaces that provide information and control to the user. AnyPLACE will develop such platform. Based on the latest legislation in the European member states, it will incorporate smart meters and create links to external service providers. Furthermore, it connects the devices in the property of the end-user in order to be able to fully monitor and control the energy consumption. This paper presents the AnyPLACE idea and the problems that are solved on the communications aspect. It provides an in-depth analysis of current European legislation in the context of smart metering and provides the requirements that need to be realized by the platform. Additionally, it proposes a strategy to create a solution that can be used in any place of Europe. The paper also incorporates the security and privacy requirements in different domains and sketches a solution and architecture to fulfill these by incorporating existing open source implementations as provided by the openHAB project