© The Institution of Electrical Engineers
A technique based on polarisation discrimination is shown to produce microwave images of suitably depolarising subsurface targets which are superior to copolar images by virtue of rejecting the rough-surface return.
References
-
-
1)
-
A.P. Anderson
.
Microwave holography.
IEE Reviews
-
2)
-
Strickland, R.N., Bennett, J.C., Anderson, A.P.: ‘Retrieval of diffraction-limited images below the threshold of recognition by superdirective data processing’ (submitted for publication).
-
3)
-
Leader, J.C.: `Polarization discrimination in remote sensing', AGARD conference proceedings 144, March 1974, The Hague, Netherlands, Neuilley-sur-Seine, , p. 14/1–12, AGARD 1975.
-
4)
-
P. Beckmann
.
(1968)
, The depolarization of electromagnetic waves.
-
5)
-
T.M. Smith ,
S.L. Borison
.
Depolarization of a circularly polarized wave by an infinite cylinder.
IEEE Trans.
,
796 -
798
-
6)
-
Richards, P.J.: `Feasibility study of a 1 m penetration pavement radar', 556481, Report on Post Office Contract, .
-
7)
-
R.D. Orme ,
A.P. Anderson
.
High resolution microwave holographic technique; application to the imaging of objects obscured by dielectric media.
Proc. IEE
,
4 ,
401 -
406
-
8)
-
A.P. Anderson ,
R.D. Orme
.
Multilevel computer-processed displays of small concealed objects remotely imaged by microwave holography.
Proc. IEE
,
1 ,
22 -
24
-
9)
-
P.R. Armstrong ,
A.P. Anderson
.
Spatial filtering of microwave images suggested by human visual processes.
Radio & Electron. Eng.
,
3
http://iet.metastore.ingenta.com/content/journals/10.1049/el_19770443
Related content
content/journals/10.1049/el_19770443
pub_keyword,iet_inspecKeyword,pub_concept
6
6