Mess- und Prüftechnik / Feldmesstechnik

In-situ-Validierung von Energy-Harvesting

20. Juni 2017, 14:29 Uhr | Lukas Sigrist et al., Institut für Technische Informatik und Kommunikation (TIK), ETH Zürich

Fortsetzung des Artikels von Teil 6

Literatur

[0] Originalarbeit im Archiv der ETH Zürich

[1] J. Beutel et al., “X-SENSE: Sensing in extreme environments,” in Proc. DATE Conf., 2011.

[2] C. Moser et al., “Adaptive Power Management for Environmentally Powered Systems,” IEEE Trans. Comput., 2010.

[3] B. Buchli et al., “Towards enabling uninterrupted long-term operation of solar energy harvesting embedded systems,” in Proc. EWSN Conf., 2014.

[4] A. Gomez et al., “Self-powered wireless sensor nodes for monitoring

radioactivity in contaminated areas using unmanned aerial vehicles,” in Proc. SAS, 2015.

[5] M. Magno et al., “InfiniTime: Multi-Sensor Wearable Bracelet with

Human Body Harvesting,” in SUSCOM, 2016.

[6] N. Chang et al., “Cycle-accurate energy consumption measurement and

analysis: Case study of ARM7TDMI,” in Proc. ISLPED, 2000.

[7] Keithley Instruments, “Keithley 2001/2002: 7 1/2- and 8 1/2-Digit High Performance Multimeter,” accessed 8.9.2016. [Online].

[8] Keysight Technologies, “Digital Multimeters 34460A, 34461A, 34465A (6 1/2 digit), 34470A (7 1/2 digit) Data Sheet,” 2016, accessed 8.9.2016. [Online].

[9] R. Zhou and G. Xing, “Nemo: A high-fidelity noninvasive power meter system for wireless sensor networks,” in Proc. IPSN Conf., 2013.

[10] X. Jiang et al., “Micro Power Meter for Energy Monitoring of Wireless Sensor Networks at Scale,” in Proc. IPSN Conf., 2007.

[11] P. Dutta et al., “Energy Metering for Free: Augmenting Switching Regulators for Real-Time Monitoring,” in Proc. IPSN Conf., 2008.

[12] S. Naderiparizi et al., “μMonitor: In-situ Energy Monitoring with Microwatt Power Consumption,” in Proc. RFID Conf., 2016.

[13] A. Pötsch et al., “A power measurement system for accurate energy profiling of embedded wireless systems,” in Proc. EFTA Conf., 2014.

[14] J. Andersen and M. T. Hansen, “Energy Bucket: A Tool for Power Profiling and Debugging of Sensor Nodes,” in Proc. SENSORCOMM Conf., 2009.

[15] N. Brouwers et al., “NEAT: A Novel Energy Analysis Toolkit for Free-roaming Smartphones,” in Proc. SenSys Conf., 2014.

[16] R. Lim et al., “FlockLab: A testbed for distributed, synchronized tracing and profiling of wireless embedded systems,” in Proc. IPSN Conf., 2013.

[17] R. Pozza et al., “SmartEye: An Energy-efficient Observer Platform for Internet of Things Testbeds,” in Proc. WiNTECH Workshop, 2012.

[18] BeagleBoard.org Foundation, “SeeedStudio BeagleBone Green,” accessed 1.9.2016. [Online].

[19] Keithley Instruments, Low Level Measurements Handbook, Keithley Instruments, 2013.

Diese Forschung wurde durch den Schweizerischen Nationalfond im Rahmen des 157048: Transient Computing System Projekts finanziert.

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pdf-Artikel
  1. In-situ-Validierung von Energy-Harvesting
  2. Harvesting-Entwurf und Marktlösungen
  3. Systemarchitektur
  4. Datenakquise
  5. Vergleich mit bisherigen Lösungen
  6. Anwendungsberichte

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