1. P. Bernardi, G. d'Inzeo, and S. Pisa,
“Analysis of the interaction between microwave fields and snail neurons
by an ionic model of the membrane electrical activity,” Alta
Frequenza, Special Issue on “Biological Effects of Electromagnetic
Fields and Safety Standards”, vol. 58, no. 4, pp. 341-348, July 1989.
WOS:A1989AY64900004, 2-s2.0-0024704273
2.
G. d'Inzeo, C. Giacomozzi, and S. Pisa,
“Analysis of the stimulation of a nerve fiber surrunded by an
inhomogeneus, anisotropic, and dispersive tissue,” Applied
Computational Electromagnetics Society Journal, Special Issue on
Bioelectromagnetic Computations, vol. 7, no. 2, pp. 179-190, Winter
1992. 2-s2.0-0027064830
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G. d'Inzeo, S. Pisa, and L.
Tarricone, “Ionic channel gating under electromagnetic exposure: a
stochastic model,” Biochemistry and Bioenergetics, vol. 29, pp.
289-304, October 1993. WOS:A1993KQ13400003,
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4.
P. Bernardi, G. d'Inzeo, and S. Pisa,
“A generalized ionic model of the neuronal membrane electrical
activity,” IEEE Transactions on Biomedical Engineering, vol. 41,
no. 2, pp. 125-133, February 1994
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5.
G. d'Inzeo, K.P. Esselle, S. Pisa,
and M.A. Stuchly, “Comparison of homogeneous and heterogeneous tissue
models for coil optimization in neural stimulation,” Radio Science,
vol. 30, no. 1, pp. 245-253, January-February 1995.
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6.
P. Bernardi, M. Cavagnaro, and S. Pisa,
“Evaluation of the SAR distribution in the human head for cellular
phones used in a partially closed environment,” IEEE Transactions on
Electromagnetic Compatibility, vol. 38, no. 3, pp. 357-366, August
1996.WOS:A1996VF25000019,
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7.
M. Cavagnaro, S. Pisa, “Simulation
of cellular phone antennas by using inductive lumped elements in the 3D/FDTD
algorithm,” Microwave and Optical Technology Letters, vol. 13,
no. 6, pp. 324-327, December 1996.
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8.
P. Bernardi, M. Cavagnaro, and S. Pisa,
“Assessment of the potential risk for humans exposed to millimeter-wave
wireless lans: the power absorbed in the eye,” Wireless Networks,
vol. 3, no. 6, pp. 511-517, 1997.
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9.
S. Pisa,
M. Zolesi, “A method for stability analysis of small-signal microwave
amplifiers,” International Journal of RF and Microwave Computer-Aided
Engineering, vol. 8, no. 4, pp. 293-302, 1998.
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10.
P. Bernardi, M. Cavagnaro, S. Pisa,
and E. Piuzzi, “SAR distribution and temperature increase in an
anatomical model of the human eye exposed to the field radiated by the
user antenna in a wireless LAN,” IEEE Trans. Microwave Theory Tech.,
vol. 46, no. 12, pp. 2074-2082, December 1998.
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s2.0-0032298924
11.
A. Di Martino, S. Pisa, P.
Tommasino, and A. Trifiletti, “A new algorithm to extract the non-linear
model of MESFET's and HEMT's,” Microwave and Optical Technology
Letters, vol. 20, no. 5, pp. 297-302, March 1999.
WOS:000078707200005,
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12.
F. Centurelli, S. Pisa, P.
Tommasino, and A. Trifiletti, “A novel bias-depending rational model for
MESFET and HEMT devices,” Microwave and Optical Technology Letters,
vol. 24, no. 2, pp. 102-106, January 2000.
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13.
A. Di Martino, E. Dutisseuil, S. Pisa,
P. Tommasino, and A. Trifiletti, “A new procedure for the extraction of
a multi-bias linear model for mesfet’s and hemt’s,” Microwave and
Optical Technology Letters, vol. 25, no. 4, pp. 263-266, May 2000.WOS:000086633800011,
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14.
P. Bernardi, M. Cavagnaro, S. Pisa,
and E. Piuzzi, “Specific absorption rate and temperature increases in
the head of a cellular-phone user,” IEEE Trans. Microwave Theory
Tech., vol. 48, no. 7, pp. 1118-1126, July 2000.
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15.
P. Bernardi, M. Cavagnaro, S. Pisa,
and E. Piuzzi, “Human exposure to radio base station antennas in urban
environment,”, IEEE Trans. Microwave Theory Tech., vol. 48, no.
11, pp. 1996-2002, November 2000.
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16.
K.S. Nikita, M. Cavagnaro, P. Bernardi, N.K. Uzunoglu,
S. Pisa, E. Piuzzi, J.N. Sahalos, G.I.
Krikelas, J.A. Vaul, P.S. Excell, G. Cerri, S. Chiarandini, R. De Leo,
P. Russo, “A study of uncertainties in modeling antenna performance and
power absorption in the head of a cellular phone user,” IEEE Trans.
Microwave Theory Tech., vol. 48, no. 12, pp. 2676-2685, December
2000. WOS:000166709500066,
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17.
P. Bernardi, M. Cavagnaro, S. Pisa,
and E. Piuzzi, “A graded-mesh FDTD code for the study of human exposure
to cellular phones equipped with helical antennas,” J. Appl. Comput.
Electromagn. (ACES), vol. 16, no. 2, pp. 90-96, March 2001.
2-s2.0-0035388627
18.
S. Pisa,
M. Cavagnaro, P. Bernardi, and J.C. Lin, “A 915-MHz antenna for
microwave thermal ablation treatment: physical design, computer modeling
and experimental measurement,” IEEE Transactions on Biomedical
Engineering, vol. 48, no. 5, pp. 599-601, May 2001.
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19.
M. Cicolani, A. Di Martino, S. D’Innocenzo,
S. Pisa, P. Tommasino,and A. Trifiletti
“a new instantaneous model of mesfet and hemt devices for large-signal
circuit design,” Microwave and Optical Technology Letters, vol.
29, no. 3, pp. 187-190, May 2001.
WOS:000169337300015, 2-s2.0-0035810683
20.
Benvenuti, M. Cicolani, S. Pisa,
P. Tommasino, A. Trifiletti, “Design of narrow-band amplifiers with
conditionally stable transistors,” Microwave and Optical Technology
Letters, vol. 31, no. 3, pp. 208-210, November 2001.
WOS:000171199000015,
2-s2.0-0035813551
21.
P. Bernardi, M. Cavagnaro, S. Pisa,
and E. Piuzzi, “Power absorption and temperature elevations induced in
the human head by a dual-band monopole-helix antenna phone,” IEEE
Trans. Microwave Theory Tech., vol. 49, no. 12, pp. 2539-2546,
December 2001. WOS:000172740000050,
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22.
D. Benvenuti, M. Cicolani, S. Pisa,
P. Tommasino, A. Trifiletti, “Wide-band LNA design by parallel FETs,”
Microwave and Optical Technology Letters, vol. 32, no. 4, pp.
280-284, February 2002. WOS:000173579500012,
2-s2.0-0037138508
23.
P. Bernardi, M. Cavagnaro, P. D'Atanasio, E. Di Palma,
S. Pisa, and E. Piuzzi, “FDTD,
multiple-region/FDTD, ray-tracing/FDTD: a comparison on their
applicability for human exposure evaluation,” Int. J. Numer. Model.,
vol. 15, no. 5-6, pp. 579-593, September-December 2002.
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24.
P. Bernardi, M. Cavagnaro, S. Pisa,
and E. Piuzzi, “Specific absorption rate and temperature elevation in a
subject exposed in the far-field of radio-frequency sources operating in
the 10-900-MHz range,” IEEE Trans. Biomed. Eng., vol. 50, no.
3, pp. 295-304, March 2003.
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25.
P. Bernardi, M. Cavagnaro, R. Cicchetti,
S. Pisa, E. Piuzzi, and O. Testa, “A UTD/FDTD investigation on
procedures to assess compliance of cellular base-station antennas with
human-exposure limits in a realistic urban environment,” IEEE Trans.
Microwave Theory Tech., vol. 51, no. 12, pp. 2409-2417, December
2003. WOS:000188200000016,
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26.
S. Pisa,
M. Cavagnaro, E. Piuzzi, P. Bernardi, and J. C. Lin, “Power density and
temperature distributions produced by interstitial arrays of
sleeved-slot antennas for hyperthermic cancer therapy,” IEEE Trans.
Microwave Theory Tech., vol. 51, no. 12, pp. 2418-2426, December
2003. WOS:000188200000017,
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27.
P. Bernardi, M. Cavagnaro, J. C. Lin, S.
Pisa, and E. Piuzzi, “Distribution of SAR and temperature
elevation induced in a phantom by a microwave cardiac ablation
catheter,” IEEE Trans. Microwave Theory Tech., vol. 52, no. 8,
pp. 1978-1986, August 2004.
WOS:000223051400015,
2-s2.0-4043129509
28.
S. Pisa,
M. Cavagnaro, V. Lopresto, E. Piuzzi, G. A. Lovisolo, and P. Bernardi,
“A procedure to develop realistic numerical models of cellular phones
for an accurate evaluation of SAR distribution in the human head,”
IEEE Trans. Microwave Theory Tech., vol. 53, no. 4, pp. 1256-1265,
April 2005.
WOS:000228365600018,
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29.
S. Pisa,
M. Cavagnaro, E. Piuzzi, and V. Lopresto, “Numerical-experimental
validation of a GM-FDTD code for the study of cellular phones,”
Microwave Opt. Technol. Lett., vol. 47, no. 4, pp. 396-400,
November 2005. WOS:000232537400028,
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30.
S. Pisa,
E. Piuzzi, P. Tommasino, A. Trifiletti, A. Galli, G. Giolo, and A.
Tafuto, “Desing, realization, and test of a 900 MHz ceramic oscillator,”
Microwave Opt. Technol. Lett., vol. 49, no. 7, pp. 1713-1717,
July 2007. WOS:000246557100064,
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31.
S. Pisa,
G. Calcagnini, M. Cavagnaro, E. Piuzzi, E. Mattei, and P. Bernardi, “A
study of the interaction between implanted pacemakers and the
radio-frequency field produced by magnetic resonance imaging apparatus,”
IEEE Trans. Electromag. Compat., vol. 50, no. 1, pp. 35-42,
February 2008. WOS:000253504200004,
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32.
S. Allen, J.C. Lin, J. Bach Anderson, H. Bassen, M. Ikehata, N.
Leitgeb, S. Pisa, S. Watanabe, and K.
Yamazaki, “ICNIRP statement on EMF emitting new technologies,” Health
Physics, Vol. 94, no. 4, pp. 376-392, April 2008.
WOS:000254275200009,
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33.
D. Romano, S. Pisa, and E. Piuzzi,
“Implementation of the Newton-Raphson and admittance methods for EIT,”
Int. J.
Bioelectromagn., vol. 12, no. 1, pp.
12-20, January 2010.
34.
S. Pisa,
P. Bernardi, M. Cavagnaro, and E. Piuzzi, “Power absorption and
temperature elevation produced by magnetic resonance apparatus in the
thorax of patients with implanted pacemakers,” IEEE Trans.
Electromag. Compat., vol. 52, no. 1, pp. 32-40, February 2010.
WOS:000274730800004,
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35.
M. Cavagnaro, P. Bernardi, S. Pisa,
and E. Piuzzi, “Effect of the presence of a brain tumor on
electromagnetic power absorption in the head of a cellular phone user,”
Microwave Opt. Technol. Lett., vol. 52, no. 6, pp. 1264-1267,
June 2010. WOS:000276833800012,
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36.
E. Piuzzi, P. Bernardi, M. Cavagnaro, S.
Pisa, and J. C. Lin, “Analysis of adult and child exposure to
uniform plane waves at mobile communication systems frequencies (900
MHz-3 GHz),” IEEE Trans. Electromag. Compat., vol. 53, no. 1,
pp. 38-47, February 2011.
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37.
M. Cavagnaro, C. Amabile, P. Bernardi, S.
Pisa, N. Tosoratti, “A minimally invasive antenna for microwave
ablation therapies: design, performances, and experimental assessment,”
IEEE Transactions on Biomedical Engineering, vol. 58, no. 4, pp.
949-959, April 2011
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38.
E. Pittella, P. Bernardi, M. Cavagnaro,
S. Pisa, and E. Piuzzi, “Design of UWB antennas to monitor
cardiac activity,” J. Appl. Comput. Electromagn. (ACES), vol.
26, no. 4, pp. 267-274, April 2011.
WOS:000294698700001,
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39.
S. Pisa,
P. Bernardi, M. Cavagnaro, E. Pittella, and E. Piuzzi, “A circuit model
of an ultra wideband impulse radar system for breath-activity
monitoring,” Int. J. Numer. Model., vol. 25, no. 1, pp. 46-63,
January-February 2012.
WOS:000298577700005 -
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40.
M. Pingue, B. Orobello, R. Diciomma, S.
Pisa, “1-6 GHz 4 W MMIC GaAs high power amplifier,” Microwave
Opt. Technol. Lett., vol. 54, no. 12, pp. 2747-2751, December 2012.
WOS:000309202800020,
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41.
G. Zito, E. Staderini, S. Pisa, “A
Twin spiral planar antenna for UWB medical radars,” International
Journal of Antennas and Propagation, vol. 2013, Article ID 684185, 6
pages, 2013. doi:10.1155/2013/684185.
WOS:000314125200001,
2-s2.0-84873402151
42.
M. Cavagnaro, S. Pisa, E. Pittella,
“Safety aspects of people exposed to ultra wideband radar fields,”
International Journal of Antennas and Propagation, vol. 2013,
Article ID 291064, 7 pages, 2013. doi:10.1155/2013/291064.
WOS:000315272800001,
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43.
M. Cavagnaro, E. Pittella, S. Pisa,
“UWB pulse propagation into human tissues,” Phys. Med. Biol.,
vol. 58, pp. 8689–8707, 2013. doi:10.1088/0031-9155/58/24/8689.
WOS:000328043400008,
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44.
M. Cavagnaro, E. Pittella, S. Pisa, “Evaluation of the
electromagnetic power absorption in humans exposed to plane waves: the
effect of breathing activity,” International Journal of Antennas and
Propagation, vol. 2013, Article ID 854901, 7 pages, 2013.
doi:10.1155/2013./854901,
WOS:000329703500001,
2-s2.0-84893842953
45.
P. Bernardi, R. Cicchetti, S. Pisa,
E. Pittella, E. Piuzzi, O. Testa, “Design, realization, and test of a
UWB radar sensor for breath activity monitoring,” IEEE Sensors
Journal, vol. 14, no. 2, pp. 584-596, February 2014.
doi:10.1109/JSEN.2013/2285915.
WOS:000331394300006,
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46.
S. Pisa,
F. Apollonio, G. d’Inzeo, “A complete model for the evaluation of the
magnetic stimulation of peripheral nerves,” The Open Biomedical
Engineering Journal, vol. 8, pp. 1-12, 2014.
doi:10.2174/1874120701408010001.
2-s2.0-84896873262
47.
S. Pisa
and E. Piuzzi, “Interaction between 3-T MRI systems and patients with an
implanted pacemaker,“ J. Appl. Comput. Electromagn. (ACES), vol.
30, no. 7, pp. 706-716, July 2015.
WOS:000357767100002,
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48.
E. Piuzzi, P. D’Atanasio, S. Pisa,
E. Pittella, and A. Zambotti, “Complex radar cross section measurements
of the human body for breath activity monitoring applications,” IEEE
Transactions on Instrumentation and Measurement, vol. 64, no. 8, pp.
2247- 2258, August 2015. doi:10.1109/TIM.2015.23908112015.
WOS:000357950300023,
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49.
M. Cavagnaro, E. Pittella, S. Pisa,
“Numerical evaluation of the radar cross section of human breathing
Models,” J. Appl. Comput. Electromagn. (ACES), vol. 30, no. 12,
pp. 1354-1359, December 2015.
WOS:000367203500016,
2-s2.0-84958257014
50.
A. Nascetti, E. Pittella, P. Teofilatto,
S. Pisa, “High-gain S-band patch antenna system for
earth-observation cubesat satellites,” IEEE Antennas and Wireless
Propagation Letters, vol. 14, pp. 434-437, 2015.
doi:10.1109/LAWP.2014.2366791.
WOS:000349396300007,
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51.
E. Piuzzi, G. Cannazza, A. Cataldo, S. Chicarella, E. De
Benedetto, F. Frezza, S. Pisa, S.
Prontera, and F. Timpani, “Measurement system for evaluating dielectric
permittivity of granular materials in the 1.7 - 2.6 GHz Band,” IEEE
Transactions on Instrumentation and Measurement, vol. 65, no 5, pp.
1051-1059, May 2016. doi:10.1109/TIM.2015.2495720.
WOS:000374892500012,
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52.
E. Pittella, S. Pisa, H. Hadi, M.
Pontani, P. D’Atanasio, A. Zambotti, A. Nascetti, “Reconfigurable S-band
patch antenna system for cubesat satellites,“ IEEE Aerospace and
Electronic System Magazine, vol 31, no 5, pp. 6-13, May 2016.
doi:10.1109/MAES.2016.150153
WOS:000379701600002,
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53.
S. Pisa,
M. Cavagnaro, J. Lin, “The influence of averaging schemes and exposure
duration on the correlation between temperature elevation and RF power
absorption metrics in MRI scans,” IEEE Microwave Magazine, vol.
17, no 7, pp. 14-22, July 2016. doi:1109/MMM.2016.2551482
WOS:000384124100002,
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54.
E. Pittella, S. Pisa, M. Cavagnaro,
“Breath activity monitoring with wearable UWB radars: measurement and
analysis of the pulses reflected by the human body,“ IEEE
Transactions on Biomedical Engineering, vol. 63, no 7, pp.
1447-1454, July 2016. doi:10.1109/TBME.2015.2496208
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55.
S. Pisa,
E. Pittella, E. Piuzzi, “Serial patch array antenna for an FMCW radar
housed in a white cane,”
International Journal of Antennas and Propagation,
vol. 2016, Article ID 9458609, 10 pages, 2016. doi:10.1155/2016/9458609
WOS:000386298500001,
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56.
S. Pisa,
E. Pittella, E. Piuzzi, “A survey of radar systems for medical
applications,” IEEE Aerospace and Electronic System Magazine, vol
31, no 11, Part 2, pp. 64-81, November 2016.
doi:10.1109/MAES.2016.140167.
WOS:000393045300004, 2-s2.0-85006117651
57.
E. Pittella, B. Zanaj,
S. Pisa, M. Cavagnaro, “Measurement of
breath frequency by body-worn UWB radars: a comparison among different
signal processing techniques,”
IEEE Sensors Journal, vol. 17, no 6 , pp.
1772 – 1780, March 15, 2017.
doi: 10.1109/JSEN.2017.2654538.
WOS:000395895200025, s2.0-85015067872
58.
E. Pittella, A. Bottiglieri,
S. Pisa, M. Cavagnaro,
“Cardio-respiratory frequency monitoring using the principal component
analysis technique on UWB radar signal,”
International Journal of Antennas and Propagation,
vol. 2017, Article ID 4803752, 6 pages, 2017. doi:10.1155/2017/4803752.
WOS:000395895200025,
2-s2.0-85015779465
59.
S. Pisa,
E. Pittella, E. Piuzzi, “Comparisons among EIT data collection
techniques and reconstruction algorithms,”
J. Appl. Comput. Electromagn. (ACES), Vol. 32, no 6, June 2017.
WOS:000406155900002,
2-s2.0-85026325178,
60.
E. Piuzzi, G. Cannazza, A. Cataldo, E.D.
Benedetto, L.D. Giorgi, F. Frezza, G. Leucci, S.
Pisa, E. Pittella, S. Prontera, F. Timpani, “A comparative
assessment of microwave-based methods for moisture content
characterization in stone materials,” Measurement, Vol. 114, pp.
493-500 2018. doi: 10.1016/j.measurement 2016.04.046.
WOS:000418349400053,
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61.
E. Piuzzi, E. Pittella, S. Pisa,
A. Cataldo, E. De Benedetto, G. Cannazza, “Microwave reflectometric
methodologies for water content estimation in stone-made Cultural
Heritage materials,“ Measurement, Vol. 118, pp. 275-281, 2018.
doi: 10.1016/j.measurement.2017.05.0692017.
WOS:000487674300002,
2-s2.0-85020851722
62.
E. Pittella, E. Piuzzi, E. Rizzuto,
S. Pisa, Z. Del Prete, “Metrological Characterization of a
Combined Bio-Impedance Plethysmograph and Spectrometer”, Measurement,
Vol. 120, pp. 221-229 2018 doi.org/10.1016/j.measurement.2018.02.032.
WOS:000428719700023,
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63.
S. Pisa,
S. Chicarella, R. Cusani, J. Citrolo, “30-512 MHz power amplifier design
using GaN transistor,” Microw. Opt. Technol. Lett. Vol. 60,
pp.1280–1286, 2018. doi.org/10.1002/mop.31155.
WOS:000429574200042,
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64.
E. Piuzzi, E. Pittella, S. Pisa,
A. Cataldo, E. De Benedetto, G. Cannazza, “An improved noninvasive
resonance method for water content characterization of Cultural Heritage
stone materials,” Measurement, Vol. 125, pp. 257-261, 2018 doi.org/10.1016/j.measurement.2018.04.070.
WOS:000436642500029,
2-s2.0-85046151789
65. S. Pisa, S. Chicarella, E. Pittella, E. Piuzzi, O. Testa, R. Cicchetti, “A double sideband continuous-wave radar sensors for carotid wall movement detection,” IEEE Sensors Journal, 2018. Doi. 10.1109/JSEN.2018.2862430, WOS:000444832100050, 2-s2.0-85050979542
66. S. Pisa, E. Piuzzi, E. Pittella, P. D’Atanasio, A. Zambotti, G. Sacco, “Comparison between delay and sum and range migration algorithms for image reconstruction in through-the-wall radar imaging systems” IEEE Journal of Electromagnetics, RF and Microwaves in Medicine and Biology, Vol. 2, no 4, Dec. 2018, Doi. 10.1109/JERM.2018.2878070
2-s2.0-85063835549
67. S. Pisa, S. Della
Monaca, L. Di Trocchio, L. Ficcadenti, A. Mostacci, E. Pittella, G.
Sacco, P. Fattibene,“Design and realization of an open EPR resonator at
X-band frequencies,” IEEE Transactions on Magnetics, vol. 55, no
2, Feb. 2019. Doi. 10.1109/TMAG.2018.2886148 WOS:000457800100001,
2-s2.0-85060537730
68. E. Piuzzi,
S. Pisa, E. Pittella, L. Podestà, and S. Sangiovanni, “Low-Cost and Portable Impedance Plethysmography System for
the Simultaneous Detection of Respiratory and Heart Activities,” IEEE
Sensors Journal, vol. 19, no 7, pp. 2735-2746, April 2019. Doi
10.1109/JSEN.2018.2887303,
WOS:000564652000001, 2-s2.0-85058897896
69. G. Sacco, S. Pisa, P. D’Atanasio, “A wideband and low side lobe series fed patch array at 5.8 GHz for radar applications,” Antennas and Wireless Propagation Letters. vol. 19, no 1, pp. 9-13, January 2020, DOI 10.1109/LAWP.2019.2950369, WOS:000510939800003, 2-s2.0-85078529247
70. G. Sacco, E. Piuzzi, E. Pittella, S. Pisa, “An FMCW Radar for localization and vital signs measurement for different chest orientations,” Sensors, vol. 20, no. 12, pp. 1-14, 2020. doi:10.3390/s20123489, WOS:000553507100001, 2-s2.0-85087002293
71. E. Piuzzi, S. Pisa, E. Pittella, L. Podestà and S. Sangiovanni, “Wearable belt with built-in textile electrodes for cardio—respiratory monitoring,” Sensors, vol. 20, no. 16, pp. 1-15. 2020. doi:10.3390/s20164500, WOS:000564652000001, 2-s2.0-85089435873
72. G. Sacco, S. Pisa, and M. Zhadobov, “Impact of Textile on Electromagnetic Power and Heating of Near-Surface Tissues at 26 GHz and 60 GHz,” IEEE Journal of Electromagnetics, RF and Microwaves in Medicine and Biology, 2021. doi: 10.1109/JERM.2020.3042390, 2-s2.0-85097934943
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