Meyer zu Westerhausen, S.; Raveendran, G.; Lauth, T.-H.; Meyer, O.; Rosemann, D.; Wawer, M.L.; Stauß, T.; Wurst, J.; Lachmayer, R.
Reliability Assessment of Wireless Sensor Networks by Strain-Based Region Analysis for Redundancy Estimation in Measurements on the Example of an Aircraft Wing Box. Sensors 2024, 24, 4107.
https://doi.org/10.3390/s24134107
AMA Style
Meyer zu Westerhausen S, Raveendran G, Lauth T-H, Meyer O, Rosemann D, Wawer ML, Stauß T, Wurst J, Lachmayer R.
Reliability Assessment of Wireless Sensor Networks by Strain-Based Region Analysis for Redundancy Estimation in Measurements on the Example of an Aircraft Wing Box. Sensors. 2024; 24(13):4107.
https://doi.org/10.3390/s24134107
Chicago/Turabian Style
Meyer zu Westerhausen, Sören, Gurubaran Raveendran, Thorben-Hendrik Lauth, Ole Meyer, Daniel Rosemann, Max Leo Wawer, Timo Stauß, Johanna Wurst, and Roland Lachmayer.
2024. "Reliability Assessment of Wireless Sensor Networks by Strain-Based Region Analysis for Redundancy Estimation in Measurements on the Example of an Aircraft Wing Box" Sensors 24, no. 13: 4107.
https://doi.org/10.3390/s24134107
APA Style
Meyer zu Westerhausen, S., Raveendran, G., Lauth, T.-H., Meyer, O., Rosemann, D., Wawer, M. L., Stauß, T., Wurst, J., & Lachmayer, R.
(2024). Reliability Assessment of Wireless Sensor Networks by Strain-Based Region Analysis for Redundancy Estimation in Measurements on the Example of an Aircraft Wing Box. Sensors, 24(13), 4107.
https://doi.org/10.3390/s24134107