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Document Description
Title
Location
of
sub-fresnel
scale
mineral
targets
in the
subsurface
Author
Moffat
,
Lucky
,
1974-
Description
Thesis
(M.Sc.)--Memorial
University
of
Newfoundland
,
2004.
Earth
Sciences
Date
2004
Pagination
xii, 109 leaves : ill. (some col.)
Subject
Seismic
reflection
method
Degree
M.Sc.
Degree Grantor
Memorial University of Newfoundland. Dept. of Earth Sciences
Discipline
Earth Sciences
Language
Eng
Notes
Bibliography:
leaves
101-102.
Abstract
With the
decline
of
already
discovered
and
exploited
shallow
mineral
deposits
, the
mining
industry
is
intent
on
finding
new
techniques
that
could
explore
deeper
but
still
be
cost-effective.
One
method
that has been
considered
is
the
seismic
reflection
technique
which
has been
very
successful
in the
petroleum
industry.
This
thesis
examines
one
approach
,
seismic
beamforming
,
which
can
be
used
in
conjunction
with the
seismic
reflection
technique
for the
direct
location
of
massive
sulfide
bodies.
Implementation
of the
technique
could
prove
successful
in
reducing
exploration
costs.
--
Beamforming
can
be
used
to
extract
a
variety
of
information
about
a
target
(e.g.
range
,
angle
of
emergence
,
temporal
frequency
content
,
power)
from a
propagating
signal.
This
thesis
studies
the
use
of the
angle
of
emergence
of
wavefronts
propagating
across
a
linear
array
of
seismic
receivers
to
assist
in
location
of the
wavefront
source.
The
angles
are
back-projected
to a
common
point
which
represents
the
point
source
or
scatterer
located
at the
far-field
of the
receiver
array.
--
A
simple
conventional
beamformer
is
designed
and
tested
on
data
generated
from
four
different
geometries
of a
linear
array
of
receivers
and a
single
source
of
seismic
energy.
The
intersection
of
back-projected
rays
is
not
tight
enough
for
all
four
cases
but on
using
a
distance-weighting
scheme
the
location
of the
scatterers
is
satisfactorily
estimated.
A
number
of
performance
measures
are
carried
out
on the
beamformer
to
determine
its
effectiveness.
The
beamformer
is
tested
on
data
subjected
to
different
noise
fields
, on
data
decimated
in the
spatial
domain
and on
data
obtained
from a
geometry
that
includes
the
presence
of
two
scatterers
which
are
more
than a
Fresnel
zone
apart.
The
results
indicate
that the
beamformer
is
able
to
localize
a
scatterer
when
the
data
has a
signal-to-noise
ratio
of at
least
5
dB.
The
results
also
show
that
spatial
decimation
of the
data
has
no
adverse
effect
on
location
estimates.
However
, to
achieve
desired
beam
steering
resolution
, the
data
need
to be
interpolated
with
more
spatial
points
in the
beamformer.
The
beamformer
is
not
able
to
distinguish
between
two
scatterers
in its
vicinity
when
the
source
is
at a
point
directly
between
them.
But
it
is
able
to
detect
the
two
scatterers
when
the
source
is
moved
to a
point
on the
other
side
of
either
scatterer.
--
One
main
issue
that
affects
the
reliability
of
location
estimates
is
the
way
the
angle
of
emergence
is
picked.
The
angles
are
handpicked
and this has the
potential
of
introducing
bias
in the
estimates
which
could
then
affect
the
overall
performance
of the
beamformer.
A
computer
code
can
be
written
to
automatically
pick
these
angles.
This would
improve
location
estimates
and
may
eliminate
the
need
to
use
the
distance-weighting
scheme
used
in the
investigations.
--
Overall
, the
results
obtained
show
that if
correctly
implemented
,
seismic
beamforming
together
with
reflection
seismic
can
serve
as a
cost-effective
method
for the
location
of
mineral
deposits.
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
a1658793
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
(10.91
MB)
--
http://collections.mun.ca/PDFs/theses/LuckyMoffat.pdf
CONTENTdm file name
63047.cpd
