Johann-Peter Wolff


Forschungsgebiete

  • Energieeffiziente nicht-optische Handgestenerkennung

Publikationen

Nils Büscher, Daniel Gis, Johann-Peter Wolff, Christian Haubelt:
Data Augmentation Framework for Smart Sensor System Development Using the Sensor-in-the-Loop Prototyping Platform
In Proceedings of the International Workshop of Rapid System Prototyping (RSP2021), pp. 1-7, Virtual Conference, Oktober 2021 (to appear)

Arne Wellnitz, Johann-Peter Wolff, Christian Haubelt, Thomas Kirste, Sebastian Bader:
Fluid Intake Recognition using Inertial Sensors
In Proceedings of the International Workshop on Sensor-based Activity Recognition and Interaction (iWoAR'19), pp. 4:1-7, Rostock, Deutschland, September 2019

Fabian Hölzke, Johann-Peter Wolff, Frank Golatowski, Christian Haubelt:
Low-complexity online correction and calibration of pedestrian dead reckoning using map matching and GPS
In Journal Geo-spatial Information Science, Vol. 22, Nr. 2, pp. 114-127, DOI: 210.1080/10095020.2019.816175, Verlag Taylor & Francis, Abington, Vereinigtes Königreich, Mai 2019

Fabian Hölzke, Johann-Peter Wolff, Christian Haubelt:
Improving Pedestrian Dead Reckoning Using Likely Paths and Backtracking for Mobile Devices
In Proceedings of the IEEE International Conference on Pervasive Computing and Communications Workshops (PerCom Workshops) , pp. 1-6, DOI:  10.1109/PERCOMW.2019.8730734, Kyoto, Japan, März 2019

Johann-Peter Wolff, Florian Grützmacher, Rainer Dorsch, Rolf Kaack, Lars Middendorf, Christian Haubelt:
Towards Automated Prototyping of Gesture Recognition Systems for Wearable Devices using Inertial Sensors
In Proceedings of Smart Systems Integration, pp. 85-92, Barcelona, Spanien, April 2019  (Best Paper Award Nominee)

Johann-Peter Wolff, Florian Grützmacher, Arne Wellnitz, Christian Haubelt:
Activity Recognition using Head Worn Inertial Sensors
In Proceedings of the 5th international Workshop on Sensor-based Activity Recognition and Interaction (iWOAR), pp. 14:1 – 14:7, ISBN: 978-1-4503-6487-4, DOI: 10.1145/3266157.3266218, Berlin, Deutschland, September 2018

Johann-Peter Wolff, Sebastian Stieber, Fabian Hölzke, Daniel Gis, Christian Haubelt, Polichronis Lepidis, Jürgen Meier:
Improving Pedestrian Dead Reckoning using Likely and Unlikely Paths
In Proceedings of the International Conference on Ubiquitous Positioning, Indoor Navigation, Location-Based Services (UPINLBS), pp. 1-6, DOI:10.1109/UPINLBS.2018.8559709, Wuhan, China, März 2018 (Best Oral Presentation Award)

Florian Grützmacher, Johann-Peter Wolff, Albert Hein, Polichronis Lepidis, Rainer Dorsch, Thomas Kirste, Christian Haubelt:
Towards Energy Efficient Sensor Nodes for Online Activity Recognition
In Proceedings of the 43th Annual Conference of the IEEE Industrial Electronics Society (IECON 2017), pp. 8291-8296, Peking, China, November 2017

Johann-Peter Wolff, Sebastian Stieber, Jens Rudolf, Christian Haubelt, Tobias Rankl, Rainer Dorsch:
Improving Always-On Gesture Recognition Power Efficiency for Android Devices Using Sensor Hubs
In Proceedings of the IEEE/IFIP International Conference on Embedded and Ubiquitous Computing (EUC 2016), pp. 64-67, Paris, Frankreich, August 2016

Florian Grützmacher, Johann-Peter Wolff, Christian Haubelt:
Sensor-Based Online Hand Gesture Recognition on Multi-Core DSPs
In Proceedings of the Symposium on Signal Processing on Graphics Processing Units and Multicores (GlobalSIP), pp. 898-902, Orlando, Florida, USA, December 2015

Florian Grützmacher, Johann-Peter Wolff, Christian Haubelt:
Exploiting Thread-Level Parallelism in Template-Based Gesture Recognition with Dynamic Time Warping
In Proceedings of the International Workshop on Sensor-based Activity Recognition and Interaction (iWoAR'15), pp. 6:1 – 6:6, Rostock, Deutschland, Juni 2015

Sebastian Stieber, Johann-Peter Wolff, Rainer Dorsch, Christian Haubelt:
Hybride Prototypisierung eines Sensorsubsystems
In Methoden und Beschreibungssprachen zur Modellierung und Verifikation von Schaltungen und Systemen, Böblingen, Deutschland, März 2014

Projekte

  • KOSMOS – Konstruktion und Organisation eines Studiums in offenen Systemen
  • SAFE4I - Sicherer Automatischer Software-Entwurf für Industrieanlagen (BMBF)

Lehrveranstaltungen