We propose a solid-state-sensor-based miniaturized microwave radar technique, which allows a rapid microwave phase detection for continuous wave operation using a lock-in amplifier rather than using expensive and complicated instruments such as vector network analyzers. To demonstrate the capability of this sensor-based imaging technique, the miniaturized system has been used to detect embedded targets in sand by measuring the reflection for broadband microwaves. Using the reconstruction algorithm, the imaging of the embedded target with a diameter less than 5 cm buried in the sands with a depth of 5 cm or greater is clearly detected. Therefore, the sensor-based approach emerges as an innovative and cost-effective way for ground penetrating detection.

1.
L.
Diener
,
Res. Nondestruct. Eval.
7
,
137
(
1995
).
2.
Y.-L.
Lu
,
T.
Wei
,
F.
Duewer
,
Y.
Lu
,
N.-B.
Ming
,
P. G.
Schultz
, and
X.-D.
Xiang
,
Science
276
,
5321
(
1997
).
3.
R.
Zoughi
,
Microwave Non-Destructive Testing and Evaluation
(
Kluwer
,
The Netherlands
,
2000
).
4.
P. J.
Shull
,
Nondestructive Evaluation: Theory, Techniques, and Applications
(
Marcel Dekker
,
New York
,
2002
).
5.
E. C.
Fear
,
S. C.
Hagness
,
P. M.
Meaney
,
M.
Okoniewski
, and
M. A.
Stuchly
,
IEEE Microwave Mag.
3
,
48
(
2002
).
6.
Y. J.
Kim
,
L.
Jofre
,
F. d.
Flaviis
, and
M. Q.
Feng
,
IEEE Trans. Antennas Propag.
51
,
3022
(
2003
).
7.
Y. K.
Zhu
,
G. Y.
Tian
,
R. S.
Lu
, and
H.
Zhang
,
Sensors
11
,
7773
(
2011
).
8.
Z. X.
Cao
,
M.
Harder
,
L.
Fu
,
B.
Zhang
,
W.
Lu
,
G. E.
Bridges
,
Y. S.
Gui
, and
C.-M.
Hu
,
Appl. Phys. Lett.
100
,
252406
(
2012
).
9.
Ground Penetrating Radar
, 2nd ed., edited by
D. J.
Daniels
(
Knoval
, Institution of Engineering and Technology,
2004
).
10.
X.
Li
,
E. J.
Bond
,
B. D. Van
Veen
, and
S. C.
Hagness
,
IEEE Antennas Propag. Mag.
47
,
19
(
2005
).
11.
R. K.
Amineh
,
M.
Ravan
,
A.
Trehan
, and
N. K.
Nikolova
,
IEEE Trans. Antennas Propag.
59
,
928
(
2011
).
12.
D.
Flores-Tapia
,
G.
Thomas
, and
S.
Pistorius
,
IEEE Trans. Image Process.
17
,
1908
(
2008
).
13.
D.
Flores-Tapia
and
S.
Pistorius
,
Med. Phys.
38
,
5420
(
2011
).
14.
D. R.
Wehner
,
High-Resolution Radar
, 2nd ed. (
Artech House
,
1995
).
15.
Y.
Zhou
,
Prog. Electromagn. Res. Lett.
19
,
57
(
2010
).
16.
A.
Wirthmann
,
X.
Fan
,
Y. S.
Gui
,
K.
Martens
,
G.
Williams
,
J.
Dietrich
,
G. E.
Bridges
, and
C.-M.
Hu
,
Phys. Rev. Lett.
105
,
017202
(
2010
).
17.
X.
Fan
,
S.
Kim
,
X.
Kou
,
J.
Kolodzey
,
H.
Zhang
, and
J. Q.
Xiao
,
Appl. Phys. Lett.
97
,
212501
(
2010
).
18.
B. M.
Yao
,
L.
Fu
,
X. S.
Chen
,
W.
Lu
,
L. H.
Bai
,
Y. S.
Gui
, and
C.-M.
Hu
, e-print arXiv:1309.3572.
19.
T. Y.
Wu
,
Electron. Lett.
47
,
802
(
2011
)
20.
J. A.
Hagerty
,
F. B.
Helmbrecht
,
W. H.
McCalpin
,
R.
Zane
, and
Z. B.
Popovic
,
IEEE Trans. Microwave Theory Tech.
52
,
1014
(
2004
).
21.
D. J.
Daniels
,
Sensing Imaging
7
,
90
(
2006
).
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