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Publications

Journal Articles | Conference Contributions | Technical Reports

Journal Articles

Klaus Dembowski and Jürgen Jessen. "Low Cost/Low Power"-Netzwerk für Sensor-Knoten (Teil 2). Elektronik - Fachzeitschrift für industrielle Anwender und Entwickler, 57(3):66–70, February 2008.
[BibTeX]
@Article{Jessen_SingleWireNet2, author = {Klaus Dembowski and Jürgen Jessen}, title = {"Low Cost/Low Power"-Netzwerk für Sensor-Knoten (Teil 2)}, pages = {66-70}, journal = {Elektronik - Fachzeitschrift für industrielle Anwender und Entwickler}, volume = {57}, number = {3}, month = feb, year = 2008, issn = {0013-5658}, }
Klaus Dembowski and Jürgen Jessen. "Low Cost/Low Power"-Netzwerk für Sensor-Knoten (Teil 1). Elektronik - Fachzeitschrift für industrielle Anwender und Entwickler, 56(24):73–77, November 2007.
[BibTeX]
@Article{Jessen_SingleWireNet1, author = {Klaus Dembowski and Jürgen Jessen}, title = {"Low Cost/Low Power"-Netzwerk für Sensor-Knoten (Teil 1)}, pages = {73-77}, journal = {Elektronik - Fachzeitschrift für industrielle Anwender und Entwickler}, volume = {56}, number = {24}, month = nov, year = 2007, issn = {0013-5658}, }

Conference Contributions

Jürgen Jessen, Marcus Venzke and Volker Turau. Design Considerations for a Universal Smart Energy Module for Energy Harvesting in Wireless Sensor Networks. In Proceedings of the Ninth Workshop on Intelligent Solutions in Embedded Systems (WISES 2011), July 2011, pp. 35–40. Regensburg, Germany.
[BibTeX] [Abstract] [PDF]
@InProceedings{Telematik_JVT_SmartSupply, author = {Jürgen Jessen and Marcus Venzke and Volker Turau}, title = {Design Considerations for a Universal Smart Energy Module for Energy Harvesting in Wireless Sensor Networks}, booktitle = {Proceedings of the Ninth Workshop on Intelligent Solutions in Embedded Systems (WISES 2011)}, pages = {35-40}, day = {07-08}, month = jul, year = 2011, location = {Regensburg, Germany}, }
Abstract: This paper presents the design of a universal energy module for nodes in wireless sensor networks. It supports a wide range of energy harvesters and energy storage systems. The focus is on the efficient conversion and storage of energy and to provide a smart platform for higher level energy management functions. The module provides maximum power point tracking and supports hybrid harvesters.
Christian Renner, Jürgen Jessen and Volker Turau. Poster: Energy Estimation for Harvesting Supplies with Supercaps. In Proceedings of the Workshop on Self-Organizing Wireless Sensor and Communication Networks, October 2009. Hamburg, Germany.
[BibTeX]
@InProceedings{Telematik_RJT_2009_EnergyEstimation, author = {Christian Renner and Jürgen Jessen and Volker Turau}, title = {Poster: Energy Estimation for Harvesting Supplies with Supercaps}, booktitle = {Proceedings of the Workshop on Self-Organizing Wireless Sensor and Communication Networks}, day = {8-9}, month = oct, year = 2009, location = {Hamburg, Germany}, }

Technical Reports

Jürgen Jessen, Marcus Venzke and Volker Turau. Smart Energy Module for Wireless Sensor Nodes. In Proceedings of the 9th GI/ITG KuVS Fachgespräch "Drahtlose Sensornetze" (FGSN'10), September 2010, pp. 9–12. Würzburg, Germany.
[BibTeX] [Abstract] [PDF]
@InProceedings{Telematik_JVT_SmartEnergyModule, author = {Jürgen Jessen and Marcus Venzke and Volker Turau}, title = {Smart Energy Module for Wireless Sensor Nodes}, booktitle = {Proceedings of the 9th GI/ITG KuVS Fachgespräch "Drahtlose Sensornetze" (FGSN'10)}, pages = {9-12}, day = {16-17}, month = sep, year = 2010, location = {Würzburg, Germany}, }
Abstract: This paper presents the design of a universal energy module for wireless sensor nodes, which supports a wide range of energy harvesters and energy storages. The focus is on the efficient conversion and storage of energy and to provide hardware support for higher level management functions. The module facilitates maximum power point tracking to improve the harvester efficiency. By supporting hybrid harvesters, the module can make better use of the time-dependent availability of environmental energy sources.
Christian Renner, Jürgen Jessen and Volker Turau. Lifetime Prediction for Supercapacitor-powered Wireless Sensor Nodes. In Proceedings of the 8th GI/ITG KuVS Fachgespräch "Drahtlose Sensornetze" (FGSN'09), August 2009, pp. 55–58. Hamburg, Germany.
[BibTeX] [Abstract] [PDF] [Slides]
@InProceedings{Telematik_RJT_2009_Supercap, author = {Christian Renner and Jürgen Jessen and Volker Turau}, title = {Lifetime Prediction for Supercapacitor-powered Wireless Sensor Nodes}, booktitle = {Proceedings of the 8th GI/ITG KuVS Fachgespräch "Drahtlose Sensornetze" (FGSN'09)}, pages = {55-58}, day = {13-14}, month = aug, year = 2009, location = {Hamburg, Germany}, }
Abstract: Energy-aware task scheduling is a novel research direction for wireless sensor networks. It depends on accurate models for lifetime prediction. In other terms, nodes must be aware of present and future energy resources. This paper addresses the first step towards reaching this goal: It explores discharging-characteristics of supercapacitors, discusses analytical discharging-models for lifetime prediction, and evaluates these models by comparing them with real discharging curves.