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The demand of wireless solutions in industrial applications increases since the early nineties. This trend is not only ongoing, it is further pushed by developments in the area of software stacks like the latest Bluetooth Low Energy Stack. It is also pushed by new chip-designs and powerful and highly integrated electronic hardware. The acceptance of wireless technologies as a possible solution for industrial applications, has overcome the entry barrier [1]. The first step to see wireless as standard for many industrial applications is almost accomplished. Nevertheless there is nearly none acceptance of wireless technology for Safety applications. One highly challenging and demanding requirement is still unsolved: The aspect safety and robustness. Those topics have been addressed in many cases but always in a similar manner. WirelessHART as an example addresses this topic with redundant so called multiple propagation paths and frequency hopping to handle with interferences and loss of network participants. So far the pure peer to peer link is rarely investigated and there are less safety solutions available. One product called LoRa™ can be seen as one possible solution to address this lack of safety within wireless links. This paper focuses on the safety performance evaluation of a modem-chip-design. The use of diverse and redundant wireless technologies like LoRa can lead to an increase acceptance of wireless in safety applications. Many measurements in real industrial application have been carried out to be able to benchmark the new chip in terms of the safety aspects. The content of this research results can help to raise the level of confidence in wireless. In this paper, the term “safety” is used for data transmission reliability.
Sicher funken mit 2,45 GHz
(2015)
Das Thema Honeypot nimmt einen immer größeren Stellenwert in der Weiterentwicklung der Informationssicherheit ein. Honeypots dienen nicht nur zur Erforschung von Angriffsmethoden und Vorgehensweisen, sondern können auch im Unternehmensumfeld aktiv zur Verbesserung der IT-Sicherheitsmaßnahmen beitragen. Diese Arbeit hat sich das Ziel gesetzt, das Themenspektrum Honeypot in Theorie und Praxis näher zu untersuchen. Im ersten Teil wird ein allgemeiner Überblick über das Thema Honeypot und Honeynet gegeben. Hier wird erklärt, welche Honeypot-Typen und Architekturen es gibt, welche Anforderungen ein Honeypot stellt und welche Risiken der Betrieb eines Honeypot-Systems verursacht. Am Ende des ersten Kapitels werden einige Beispiele eines Honeypot-Systems beschrieben. Im zweiten Teil wird konkret auf die Implementierung eines High Interaction Honeypots eingegangen, dessen Überwachungszentrale die Honeywall bildet. Dieser praktische Teil erklärt, wie ein komplettes Honeypot-System auf Basis der 'Honeywall CDROM Roo' eingerichtet wird, welche Möglichkeiten und Werkzeuge das Überwachungssystem besitzt und welche Einstellungen und Besonderheiten beim Einrichten beachtet werden müssen. Im darauffolgenden dritten Teil werden die gesammelten Daten ausgewertet. Dazu wird zuerst ein Überblick über mögliche Angreifer und deren Angriffswege gegeben. Mit diesem Hintergrundwissen werden die Daten im weiteren Verlauf konkret analysiert und zum Teil visualisiert. Nach dem praktischen Teil wird ein Ausblick gegeben, welche Ausbaumöglichkeiten die Versuchsanordnung bietet, welchen Schwerpunkt die Weiterentwickelung der Honeywall einnimmt und welche rechtlichen Fragen der Betrieb eines Honeypots aufwirft. Zu guter Letzt wird die Arbeit durch ein Fazit abgeschlossen.
In this work we describe the implementation details of a protocol suite for a secure and reliable over-the-air reprogramming of wireless restricted devices. Although, recently forward error correction codes aiming at a robust transmission over a noisy wireless medium have extensively been discussed and evaluated, we believe that the clear value of the contribution at hand is to share our experience when it comes to a meaningful combination and implementation of various multihop (broadcast) transmission protocols and custom-fit security building blocks: For a robust and reliable data transmission we make use of fountain codes a.k.a. rateless erasure codes and show how to combine such schemes with an underlying medium access control protocol, namely a distributed low duty cycle medium access control (DLDC-MAC). To handle the well known problem of packet pollution of forward-error-correction approaches where an attacker bogusly modifies or infiltrates some minor number of encoded packets and thus pollutes the whole data stream at the receiver side, we apply homomorphic message authentication codes (HomMAC). We discuss implementation details and the pros and cons of the two currently available HomMAC candidates for our setting. Both require as the core cryptographic primitive a symmetric block cipher for which, as we will argue later, we have opted for the PRESENT, PRIDE and PRINCE (exchangeable) ciphers in our implementation.
The communication technologies for automatic me-ter reading (smart metering) and for energy production and distribution networks (smart grid) have the potential to be one of the first really highly scaled machine-to-machine-(M2M)-applications. During the last years two very promising devel-opments around the wireless part of smart grid communication were initialized, which possibly have an impact on the markets far beyond Europe and far beyond energy automation. Besides the specifications of the Open Metering System (OMS) Group, the German Federal Office for Information Security (Bundesamt für Sicherheit in der Informationstechnik, BSI) has designed a protection profile (PP) and a technical directive (TR) for the communication unit of an intelligent measurement sys-tem (smart meter gateway), which were released in March 2013. This design uses state-of-the-art technologies and prescribes their implementation in real-life systems. At first sight the expenditures for the prescribed solutions seem to be significant. But in the long run, this path is inevitable and comes with strategic advantages.