Instrumentation & Measurement Magazine 25-8 - 14

[8] D. M. Scott and H. McCann, Process Imaging for Automatic Control
(Electrical and Computer Engineering). Boca Raton, Florida, USA:
CRC Press, Inc., 2005.
[9] M. Neumayer, G. Steiner, and D. Watzenig, " Electrical capacitance
tomography: current sensors/algorithms and future advances, "
in Proc. 2012 IEEE Int. Instrum. Meas. Technol. Conf. (I2MTC), pp.
929-934, 2012.
[10] T. Bretterklieber, M. Neumayer, and M. Flatscher, " Holistic
system modeling of capacitive sensors: From sensor circuitry to
calibration, " in Proc. 2018 IEEE Int. Instrum. Meas. Technol. Conf.
(I2MTC), pp. 388-393, 2018.
[11] M. Neumayer, H. Zangl, D. Watzenig, and A. Fuchs, New
Developments and Applications in Sensing Technology, ser.
Lecture Notes in Electrical Engineering, vol. 83, ch. " Current
Reconstruction Algorithms in Electrical Capacitance
Tomography, " p. 337. Berlin, Germany: Springer, 2011.
[12] M. Moser, T. Bretterklieber, H. Zangl, and G. Brasseur, " Strong
and weak electric field interfering: capacitive icing detection and
capacitive energy harvesting on a 220 kV high-voltage overhead
power line, " IEEE Trans. Electronics, vol. 58, no. 7, pp. 2597-2604,
Jul. 2011.
[13] M. C. Homola, P. J. Nicklasson, and P. A. Sundsbø, " Ice sensors for
wind turbines, " Cold Regions Science and Technol., vol. 46, no. 2, pp.
125-131, 2006.
[14] U. Mughal, M. Shakeel Virk, and A. Mustafa, " State of the art
review of atmospheric icing sensors, " Sensors and Transducers, vol.
198, p. 14, Jan. 2016.
[15] C. Du, Q. Wang, X. Liu, Y. Zhao, X. Deng, and L. Cui, " Research
and application of ice thickness and snow depth automatic
monitoring system, " IEEE Trans. Instrum. Meas., vol. 66, no. 2, pp.
325-331, Feb. 2017.
[16] M. Flatscher, M. Neumayer, T. Bretterklieber, M. J. Moser, and
H. Zangl, " De-icing system with integrated ice detection and
temperature sensing for meteorological devices, " in Proc. 2015
IEEE Sensors Applications Symp. (SAS), pp. 1-6, 2015.
[17] M. Flatscher, M. Neumayer, and T. Bretterklieber, " Maintaining
critical infrastructure under cold climate conditions: a versatile
sensing and heating concept, " Sensors and Actuators A: Physical,
vol. 267, pp. 538-546, 2017.
[18] M. Neumayer, T. Bretterklieber, and M. Flatscher, " Signal
processing for capacitive ice sensing: electrode topology and
algorithm design, " IEEE Trans. Instrum. Meas., vol. 68, no. 5, pp.
1458-1466, 2019.
[19] A. Siegl, M. Neumayer, and T. Bretterklieber, " Fibre optical
ice sensing: sensor model and icing experiments for different
ice types, " in Proc. 2020 IEEE Int. Instrum. Meas. Technol. Conf.
(I2MTC), pp. 1-6, 2020.
[20] V. G. Artemov and A. A. Volkov, " Water and ice dielectric spectra
scaling at 0 °C, " Ferroelectrics, vol. 466, no. 1, pp. 158-165, 2014.
[21] M. Flatscher, M. Neumayer, T. Bretterklieber, and B.
Schweighofer, " Measurement of complex dielectric material
properties of ice using electrical impedance spectroscopy, " in
Proc. 2016 IEEE Sensors Conf., pp. 1-3, 2016.
[22] M. Flatscher, M. Neumayer, and T. Bretterklieber, " Field sensor
analysis for electrical impedance spectroscopy based ice
detection, " in Proc. 2017 IEEE Sensors Conf., pp. 1-6, 2017.
14
[23] T. Bretterklieber, M. Neumayer, and H. Zang, " Thin layer effects
in capacitive atmospheric icing detection, " in Proc. 2014 IEEE
Sensors Conf., pp. 2042-2045, 2014.
[24] M. Neumayer, M. Flatscher, T. Bretterklieber, and S. Puttinger,
" Optimal design of ECT sensors using prior knowledge, " J. Phys.:
Conf. Series, vol. 1047, p. 012012, Jun. 2018.
[25] G. Brasseur, K. Reich, O. Oberzaucher, and H. Hopitzan, " Ice
monitoring at austrian power grid status and outlook, " in Proc.
Int. Workshop on Atmospheric Icing of Structures (IWAIS 2019), pp.
1-5, 2019.
[26] Y. Yan, " Mass flow measurement of bulk solids in pneumatic
pipelines, " Meas. Sci. Technol., vol. 7, no. 12, pp. 1687-1706, 1996.
[27] A. J. Jaworski and T. Dyakowski, " Application of electrical
capacitance tomography for measurement of gas-solids flow
characteristics in a pneumatic conveying system, " Meas. Sci.
Technol., vol. 12, no. 8, pp. 1109-1119, 2001.
[28] M. Neumayer, M. Flatscher, and T. Bretterklieber, " State of flow
estimation in pneumatic conveying using electrical capacitance
tomography, " in Proc. XXI IMEKO World Congress Meas. in Res.
Industry, pp. 1117-1120, 2015.
[29] T. Suppan, M. Neumayer, T. Bretterklieber, and P. Stefan, " Volume
fraction estimation in pneumatic conveying from tomographic
measurements, " in Proc. 9th World Congress on Industrial Process
Tomography, Sep. 2018.
[30] T. Suppan, M. Neumayer, T. Bretterklieber, P. Stefan, C. Feilmayr,
and H. Wegleiter, " ECT-based mass flow metering in pneumatic
conveying processes, " in Proc. 10th World Congress on Industrial
Process Tomography, 2021.
[31] T. Suppan, M. Neumayer, T. Bretterklieber, H. Wegleiter, and S.
Puttinger, " Performance assessment framework for electrical
capacitance tomography based mass concentration estimation
in pneumatic conveying systems, " in Proc. 2021 IEEE I2MTC, pp.
1-6, 2021
[32] M. Neumayer and T. Bretterklieber, " Reduced electrical
capacitance tomography sensor for flow profile estimation, " in
Proc. 2014 IEEE Sensors Conf., pp. 1300-1303, 2014.
[33] M. Flatscher, M. Neumayer, and T. Bretterklieber, " Holistic
analysis for electrical capacitance tomography front-end
electronics, " J. Phys.: Conf. Series, vol. 1065, 2018.
[34] M. Neumayer, T. Bretterklieber, M. Flatscher, and S. Puttinger,
" PCA based state reduction for inverse problems using prior
information, " COMPEL: The Int. J. Computation and Mathematics in
Electrical and Electronic Engineering, vol. 36, no. 5, pp. 1430-1441,
2017.
[35] M. Neumayer, M. Flatscher, and T. Bretterklieber, " Coaxial probe
for dielectric measurements of aerated pulverized materials, "
IEEE Trans. Instrum. Meas., vol. 68, no. 5, pp. 1402-1411, May 2019.
[36] T. Suppan, M. Neumayer, T. Bretterklieber, P. Stefan, and
H. Wegleiter, " Measurement methodology to characterize
permittivity-mass concentration relations of aerated bulk
materials, " in Proc. 2021 IEEE Int. Instrum. Meas. Technol. Conf.
(I2MTC), Jul. 2021.
[37] T. Suppan, M. Neumayer, T. Bretterklieber, and P. Stefan, " Prior
design for tomographic volume fraction estimation in pneumatic
conveying systems from capacitive data, " Trans. Institute of Meas.
and Control, Nov. 2019.
IEEE Instrumentation & Measurement Magazine
November 2022
Instrumentation & Measurement Magazine 25-8

Table of Contents for the Digital Edition of Instrumentation & Measurement Magazine 25-8
