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Topographic characteristics of double-type coronae on Venus from Magellan data
ISU Abstracts
TOPOGRAPHIC VENUS FROM
CHARACTERISTICS MAGELLAN DATA
OF
(II)22
DOUBLE-TYPE
CORONAE
ON
T. Tl)rmtieq and K. Kauhanen,Department of Geosciences and Astronomy, Astronomy Division,
University of Oulu, P.O. Box 333, FIN-90571 Oulu, Finland We have studied topography of 40 double-type coronae and corona-like volcano-tectonic features on Venus from Magellan altimetry data. These features were first identified on the basis of their planfoxm and morphology. We examined the topographic characteristics of the annulus and the corona interior, and the presence of the outer annular moat in the double coronae. The double coronae and corona-like features can be classified into 3 classes based on the presence and type of a topographic ring structure. In class I, double coronae have a raised topographic annulus. A structural annulus or annuli of concentric ridges or sometimes fractures are usually located on the slopes or at the base of this topographic high. 75% of the double-type coronae and corona-like features (30 out of 40) fall into this class. Class II double coronae have an annular topographic trough, which typically coincides with an annular band of less deformed, smooth-looking surface located between two rings of concentric fractures. This class can be divided into two subclasses based on the topography of the structural annuli. 20% (8) of the features belong to the class II. There are also two double-type coronae that do not have a recognisable topographic ring although a structural annulus is observed (class III). Thirty-one of the double-type coronae have interiors that are considerably lower than the surrounding plains. We also observed that 40% (16) of the doubletype coronae have a topographic outer moat exterior to at least part of the annulus. All but one of these moats are adjacent to class I annular topographic rims. These topographic observations help LOconstrain models for formation and evolution of the double-type coronae and corona-like features on Venus. Ongoing work focuses on the quantitative characterisation of topography of the doubletype coronae and more detailed observations of the geologic history of selected type features.
ROBOTIC
SYSTEMS: INTELLIGENCE THROUGH INTROSPECTIVE REASONING by Lia Noemi Tusanotte
Cisnero Padre Don Rha 1, 4 A 36203 Vigo - Pontevedra - Spain Phone Number: (34) (86) 48 19 46 E-mail: [email protected] Abstract The objective through
of this paper
a two-parts
an interesting
architecture
“intelligent
is to suggest
tool” for robotic
dynamic
and unstructured
environments
The
first part learns
and represents
part memorizes a reasoned learned
it.
output
When
that introspective
systems.
The
concepts result
achieved
for those acting in of a space station.
a known set of instructions.
the agent has an unknown
doing introspection
This work combines
Particularly
such as the surroundings input,
from Artificial
is a system
that
is repeated Intelligence,
The
second
the second part gives
over its gained experience.
on-line by the first part and the process
Nemophysiology.
reasoning
using Neural Networks as a building block, could be
This
output
is
for each new input. Cognitive
Science
and
is capable of capturing attentional Conclusions on these processes, processes and reasoning based on its experience. tincl the interactions between the two parts of the architecture are addressed.
TOPOGRAPHIC VENUS FROM
CHARACTERISTICS MAGELLAN DATA
OF
(II)22
DOUBLE-TYPE
CORONAE
ON
T. Tl)rmtieq and K. Kauhanen,Department of Geosciences and Astronomy, Astronomy Division,
University of Oulu, P.O. Box 333, FIN-90571 Oulu, Finland We have studied topography of 40 double-type coronae and corona-like volcano-tectonic features on Venus from Magellan altimetry data. These features were first identified on the basis of their planfoxm and morphology. We examined the topographic characteristics of the annulus and the corona interior, and the presence of the outer annular moat in the double coronae. The double coronae and corona-like features can be classified into 3 classes based on the presence and type of a topographic ring structure. In class I, double coronae have a raised topographic annulus. A structural annulus or annuli of concentric ridges or sometimes fractures are usually located on the slopes or at the base of this topographic high. 75% of the double-type coronae and corona-like features (30 out of 40) fall into this class. Class II double coronae have an annular topographic trough, which typically coincides with an annular band of less deformed, smooth-looking surface located between two rings of concentric fractures. This class can be divided into two subclasses based on the topography of the structural annuli. 20% (8) of the features belong to the class II. There are also two double-type coronae that do not have a recognisable topographic ring although a structural annulus is observed (class III). Thirty-one of the double-type coronae have interiors that are considerably lower than the surrounding plains. We also observed that 40% (16) of the doubletype coronae have a topographic outer moat exterior to at least part of the annulus. All but one of these moats are adjacent to class I annular topographic rims. These topographic observations help LOconstrain models for formation and evolution of the double-type coronae and corona-like features on Venus. Ongoing work focuses on the quantitative characterisation of topography of the doubletype coronae and more detailed observations of the geologic history of selected type features.
ROBOTIC
SYSTEMS: INTELLIGENCE THROUGH INTROSPECTIVE REASONING by Lia Noemi Tusanotte
Cisnero Padre Don Rha 1, 4 A 36203 Vigo - Pontevedra - Spain Phone Number: (34) (86) 48 19 46 E-mail: [email protected] Abstract The objective through
of this paper
a two-parts
an interesting
architecture
“intelligent
is to suggest
tool” for robotic
dynamic
and unstructured
environments
The
first part learns
and represents
part memorizes a reasoned learned
it.
output
When
that introspective
systems.
The
concepts result
achieved
for those acting in of a space station.
a known set of instructions.
the agent has an unknown
doing introspection
This work combines
Particularly
such as the surroundings input,
from Artificial
is a system
that
is repeated Intelligence,
The
second
the second part gives
over its gained experience.
on-line by the first part and the process
Nemophysiology.
reasoning
using Neural Networks as a building block, could be
This
output
is
for each new input. Cognitive
Science
and
is capable of capturing attentional Conclusions on these processes, processes and reasoning based on its experience. tincl the interactions between the two parts of the architecture are addressed.