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Document Description
Title
Application
of
coherent
radar
using
stepped
frequency
modulation
:
an
evaluation
of a
practical
,
narrowband
design
Author
Rowsell
,
Dean
Francis.
Description
Thesis
(M.Eng.)--Memorial
University
of
Newfoundland
,
2008.
Engineering
and
Applied
Science
Date
2008
Pagination
xiv, 164 leaves : ill. (chiefly col.)
Subject
Coherent
radar;
Radio
frequency
modulation;
Degree
M.Eng.
Degree Grantor
Memorial University of Newfoundland. Faculty of Engineering and Applied Science
Discipline
Engineering and Applied Science
Language
Eng
Notes
Includes
bibliographical
references
(leaves
153-154)
Abstract
Coherent
radar
is
poised
to
supersede
traditional
(typically
magnetron-based)
radar
in a
vast
array
of
applications
, that
until
recently
could
not
bear
the
high
cost
of
coherence.
The
reason
for this
is
that the
wireless
communications
age
has
accelerated
the
development
of
enabling
technologies
and
tremendously
improved
associated
costs.
--
Coherent
radar
systems
are
capable
of
equaling
or
exceeding
the
performance
of
traditional
radar
, at
power
levels
reduced
by
up
to
several
orders
of
magnitude.
To
accomplish
this
, an
equivalent
energy
is
distributed
over
time
using
special
modulation
schemes
,
such
as
stepped-frequency-modulation
(SFM).
SFM
is
a
multi-parameter
waveform
,
so
much
of the
understanding
of the
effects
of
different
parameter
sets
can
be
attained
through
simulation
and
investigation
of
ambiguity
responses.
Such
investigation
led
to the
development
of
generalized
ambiguity
patterns
for
SFM
that
provide
a
reference
for
understanding
the
impact
of
changing
the
waveform
parameters.
SFM
can
also be
inherently
exploited
in
receiver
design
since
its
bandwidth
is
linearly
distributed
over
time.
Therefore
, a
receiver
can
be
dynamically
and
synchronously
tuned
so
that
instantaneous
reception
is
over
a
narrow
bandwidth-effecting
cost
savings
in the
digitizing
hardware.
An
algorithm
has been
developed
,
called
an
isomorphic
matched
filter
, to
support
this
method.
--
To
investigate
the
practical
aspects
of
coherent
radar
, a
research
program
was
launched
at
C-CORE
to
design
and
implement
a
radar
prototype
and
conduct
a
field
assessment.
This
research
program
yielded
a
working
prototype
that was
subjected
to a
variety
of
field
exercises.
The
results
showed
that the
performance
, in
terms
of
range
and
Doppler
resolutions
,
predicted
by
theory
and
simulation
was
indeed
realizable
, and with a
radar
platform
constructed
for
moderate
cost.
--
An
SFM-based
,
scanning
,
coherent
radar
carries
many
configuration
possibilities.
A
simple
model
was
developed
to
consider
various
parameter
sets
associated
with the
SFM
waveform
and the
scanning
platform.
The
model
predicts
achievable
resolutions
and
range
constraints
in
particular.
One
interesting
finding
is
that the
SFM
waveform
does
not
lend
itself
,
simultaneously
, to
target
detection
at
both
short
range
and
long
range
, and that the
signal
parameters
can
only
be
optimized
for
one
or the
other.
Operationally
, this
implies
that if
both
near
range
and
far
range
data
is
needed
,
strategies
must
be
decided
upon
to
render
such
data
to the
user
(e.g.
,
alternate
the
parameter
set
in
successive
scans).
--
While
the
radar
prototype
was
well-suited
to
fulfilling
the
objectives
of the
research
program
,
it
is
not in a
form
suitable
for
demonstration
in
real
operational
scenarios.
To
accommodate
this
, the
next
design
iteration
must
incorporate
the
following
elements:
azimuth
scanning;
a
much
higher
level
of
integration
in the
hardware;
and
,
support
for
real-time
processing
and
rendering
of the
radar
output.
This
research
provides
a
sound
foundation
for
further
development
and
commercial
exploitation
of
SFM-based
coherent
radar.
It
is
recommended
that
such
development
focus
on
producing
a
prototype
that
can
be
placed
in
real
operational
scenarios
in
order
to
fully
assess
the
utility
of the
technology.
Type
Text
Resource Type
Electronic
thesis
or
dissertation
Format
Image/jpeg;
Application/pdf
Source
Paper copy kept in the Centre for Newfoundland Studies, Memorial University Libraries
Local Identifier
a2700575
Rights
The author retains copyright ownership and moral rights in this thesis. Neither the thesis nor substantial extracts from it may be printed or otherwise reproduced without the author's permission.
Collection
Electronic
Theses
and
Dissertations
Scanning Status
Completed
PDF File
(18.04
MB)
--
http://collections.mun.ca/PDFs/theses/Rowsell_DeanFrancis.pdf
CONTENTdm file name
27352.cpd
