From dongxu@sciences.sdsu.edu  Mon Feb  5 17:22:35 2007
From: dongxu@sciences.sdsu.edu (Dong Xu)
Date: Mon, 5 Feb 2007 09:22:35 -0800
Subject: [compsci] CSRC Colloquium on Friday -- COMPUTATIONAL APPROACHES IN HIV-PROTEASE DRUG DESIGN
Message-ID: <14da35910702050922m62449e81o88b87b91e7347711@mail.gmail.com>

Title:   COMPUTATIONAL APPROACHES IN HIV-PROTEASE DRUG DESIGN

Date:           February 9, 2007
Time:           4:00 PM
Location:      GMCS 214

Speaker:

Rajni Garg
Chemistry and Biochemistry Department,
Cal State, San Marcos, CA

Abstract:

Acquired Immunodeficiency Syndrome (AIDS) and its related disorders,
caused by retrovirus Human Immunodeficiency Virus (HIV) Type 1, are a
major health concern worldwide. HIV Protease enzyme (protein) is one
of the major viral targets for the development of new
chemotherapeutics. Currently, many HIV protease inhibitor drugs are
used in combination with other drugs. However, the use of current drug
regimens has several shortcomings, such as adherence, tolerability,
long-term toxicity, and drug- and cross-resistance (mutation).
Therefore, the development of new HIV protease inhibitors that are
less toxic, more tolerable, convenient and active against
drug-resistant mutant viruses is highly desirable.


Computational approaches play a major role in lead optimization in
drug discovery, design and development, which significantly reduces
the time and cost. Some of these approaches involve quantitative
structure-activity relationships (QSAR), molecular modeling (docking),
pharmacophore mapping, structure/substructure searching, database
development and data mining for predicting biological activity and
other properties from chemical structure. Lately neural networks,
pattern recognition, shape analysis and 3D graphics techniques are
also being increasingly employed for multi-modality data analysis in
order to understand the drug-receptor (drug-protein) interaction. In
the first part of the talk I will present my current research using
QSAR, neural network/machine learning, and molecular modeling
techniques. The second part of the talk will focus on role of some of
the emerging computational approaches in HIV drug design and
development, including the design of Smart (mutant-resistant) drugs
active against HIV.

Host: Jose E. Castillo

For future events, please visit our web site at:
 http://www.csrc.sdsu.edu/csrc/events/colloquium/

 *******************************************
Dong Xu
PhD Student
Computational Science Program
San Diego State University
Phone: 619-594-2710
Email: dongxu@sciences.sdsu.edu

From dongxu@sciences.sdsu.edu  Wed Feb  7 18:41:53 2007
From: dongxu@sciences.sdsu.edu (Dong Xu)
Date: Wed, 7 Feb 2007 10:41:53 -0800
Subject: [compsci] Reminder: CSRC Colloquium on Friday -- COMPUTATIONAL APPROACHES IN HIV-PROTEASE DRUG DESIGN
Message-ID: <14da35910702071041j1d46f440la05150c52d6fba00@mail.gmail.com>

Title:   COMPUTATIONAL APPROACHES IN HIV-PROTEASE DRUG DESIGN

Date:           February 9, 2007
Time:           4:00 PM
Location:      GMCS 214

Speaker:

Rajni Garg
Chemistry and Biochemistry Department,
Cal State, San Marcos, CA

Abstract:

Acquired Immunodeficiency Syndrome (AIDS) and its related disorders,
caused by retrovirus Human Immunodeficiency Virus (HIV) Type 1, are a
major health concern worldwide. HIV Protease enzyme (protein) is one
of the major viral targets for the development of new
chemotherapeutics. Currently, many HIV protease inhibitor drugs are
used in combination with other drugs. However, the use of current drug
regimens has several shortcomings, such as adherence, tolerability,
long-term toxicity, and drug- and cross-resistance (mutation).
Therefore, the development of new HIV protease inhibitors that are
less toxic, more tolerable, convenient and active against
drug-resistant mutant viruses is highly desirable.


Computational approaches play a major role in lead optimization in
drug discovery, design and development, which significantly reduces
the time and cost. Some of these approaches involve quantitative
structure-activity relationships (QSAR), molecular modeling (docking),
pharmacophore mapping, structure/substructure searching, database
development and data mining for predicting biological activity and
other properties from chemical structure. Lately neural networks,
pattern recognition, shape analysis and 3D graphics techniques are
also being increasingly employed for multi-modality data analysis in
order to understand the drug-receptor (drug-protein) interaction. In
the first part of the talk I will present my current research using
QSAR, neural network/machine learning, and molecular modeling
techniques. The second part of the talk will focus on role of some of
the emerging computational approaches in HIV drug design and
development, including the design of Smart (mutant-resistant) drugs
active against HIV.

Host: Jose E. Castillo

For future events, please visit our web site at:
 http://www.csrc.sdsu.edu/csrc/events/colloquium/

 *******************************************
Dong Xu
PhD Student
Computational Science Program
San Diego State University
Phone: 619-594-2710
Email: dongxu@sciences.sdsu.edu

From dongxu@sciences.sdsu.edu  Sat Feb 10 17:06:09 2007
From: dongxu@sciences.sdsu.edu (Dong Xu)
Date: Sat, 10 Feb 2007 09:06:09 -0800
Subject: [compsci] CSRC Colloquium on Friday -- USING LEARNING TECHNOLOGIES TO ENHANCE DIVERSE STUDENTS' LEARNING AND PARTICIPATION IN SCIENCE
Message-ID: <14da35910702100906o2ff67e5cv683a55efd4c64fd9@mail.gmail.com>

Title:   USING LEARNING TECHNOLOGIES TO ENHANCE DIVERSE STUDENTS'
LEARNING AND PARTICIPATION IN SCIENCE

Date:           February 16, 2007
Time:           4:00 PM
Location:      GMCS 214

Speaker:

Alberto Rodriguez
Center for Equity and Biliteracy Education Research
San Diego State University

Abstract:

In response to the continuing calls to better prepare teachers to
teach science for understanding to culturally diverse students, we
developed a three-year intervention project to assist teachers in
transforming their science practices using learning technologies.
Intervention is defined here as a teacher-centered approach to
professional development by which the researchers and teachers
collaboratively explore areas in need of improvement and take steps to
systematically evaluate and address the identified areas.
Analysis of multiple (quantitative and qualitative) data sets revealed
that various intervention strategies had a significant impact on
teachers' practices and on students' learning. Each of these
strategies was implemented through a series of action components
embedded in inquiry-based and student-centered science activities that
included the use of learning technologies (e.g. probeware, wireless
laptops, educational software, model building, and many others).

Host: Paul Paolini

For future events, please visit our web site at:
 http://www.csrc.sdsu.edu/csrc/events/colloquium/

 *******************************************
Dong Xu
PhD Student
Computational Science Program
San Diego State University
Phone: 619-594-2710
Email: dongxu@sciences.sdsu.edu

From dongxu@sciences.sdsu.edu  Wed Feb 14 20:13:03 2007
From: dongxu@sciences.sdsu.edu (Dong Xu)
Date: Wed, 14 Feb 2007 12:13:03 -0800
Subject: [compsci] Reminder: CSRC Colloquium on Friday -- USING LEARNING TECHNOLOGIES TO ENHANCE DIVERSE STUDENTS' LEARNING AND PARTICIPATION IN SCIENCE
Message-ID: <14da35910702141213r67e588aahbe836df7ca6f4a88@mail.gmail.com>

Title:   USING LEARNING TECHNOLOGIES TO ENHANCE DIVERSE STUDENTS'
LEARNING AND PARTICIPATION IN SCIENCE

Date:           February 16, 2007
Time:           4:00 PM
Location:      GMCS 214

Speaker:

Alberto Rodriguez
Center for Equity and Biliteracy Education Research
San Diego State University

Abstract:

In response to the continuing calls to better prepare teachers to
teach science for understanding to culturally diverse students, we
developed a three-year intervention project to assist teachers in
transforming their science practices using learning technologies.
Intervention is defined here as a teacher-centered approach to
professional development by which the researchers and teachers
collaboratively explore areas in need of improvement and take steps to
systematically evaluate and address the identified areas.
Analysis of multiple (quantitative and qualitative) data sets revealed
that various intervention strategies had a significant impact on
teachers' practices and on students' learning. Each of these
strategies was implemented through a series of action components
embedded in inquiry-based and student-centered science activities that
included the use of learning technologies (e.g. probeware, wireless
laptops, educational software, model building, and many others).

Host: Paul Paolini

For future events, please visit our web site at:
 http://www.csrc.sdsu.edu/csrc/events/colloquium/

 *******************************************
Dong Xu
PhD Student
Computational Science Program
San Diego State University
Phone: 619-594-2710
Email: dongxu@sciences.sdsu.edu

From dongxu@sciences.sdsu.edu  Sun Feb 18 15:57:33 2007
From: dongxu@sciences.sdsu.edu (Dong Xu)
Date: Sun, 18 Feb 2007 07:57:33 -0800
Subject: [compsci] CSRC Colloquium on Friday -- EXOPLANET HUNT OR INVERTING RADIAL VELOCITY DATA
Message-ID: <14da35910702180757k4b8d468crc8b8c3b8e8d6efdc@mail.gmail.com>

Title:   EXOPLANET HUNT OR INVERTING RADIAL VELOCITY DATA

Date:           February 23, 2007
Time:           4:00 PM
Location:      GMCS 214

Speaker:

Don Short
Department of Mathematics
San Diego State University

Abstract:

This talk is a summary of the research program of Orosz, Short and
Windmiller that began as the thesis project of Windmiller. In recent
years three major research groups (California and Carnegie,
Anglo-Australian and Geneva) and several others have collected radial
velocity data for nearby stars with the goal of detecting the star's
reflex action to planetary gravitational fields. We have developed a
software environment (POFP) to analyze these data sets to determine
possible planetary configurations that best describe the collected
stellar radial velocity data. In the most general terms this is the
inverse problem of determining the initial conditions (masses, initial
positions, initial velocities and observing angles) for the system of
Newtonian Gravitational equations describing the motion of the star
and its planets, given a set of radial velocity measurements. As with
most inverse problems of this type, there is not a unique solution. It
is our goal to explore the various possible solutions. HD160691 (ì
Ara) will be used as an example.

Host: Jose E. Castillo

For future events, please visit our web site at:
 http://www.csrc.sdsu.edu/csrc/events/colloquium/

 *******************************************
Dong Xu
PhD Student
Computational Science Program
San Diego State University
Phone: 619-594-2710
Email: dongxu@sciences.sdsu.edu


From dongxu@sciences.sdsu.edu  Wed Feb 21 19:24:00 2007
From: dongxu@sciences.sdsu.edu (Dong Xu)
Date: Wed, 21 Feb 2007 11:24:00 -0800
Subject: [compsci] Reminder: CSRC Colloquium on Friday -- EXOPLANET HUNT OR INVERTING RADIAL VELOCITY DATA
Message-ID: <14da35910702211124g24580814td750bc2f5544073f@mail.gmail.com>

Title:   EXOPLANET HUNT OR INVERTING RADIAL VELOCITY DATA

Date:           February 23, 2007
Time:           4:00 PM
Location:      GMCS 214

Speaker:

Don Short
Department of Mathematics
San Diego State University

Abstract:

This talk is a summary of the research program of Orosz, Short and
Windmiller that began as the thesis project of Windmiller. In recent
years three major research groups (California and Carnegie,
Anglo-Australian and Geneva) and several others have collected radial
velocity data for nearby stars with the goal of detecting the star's
reflex action to planetary gravitational fields. We have developed a
software environment (POFP) to analyze these data sets to determine
possible planetary configurations that best describe the collected
stellar radial velocity data. In the most general terms this is the
inverse problem of determining the initial conditions (masses, initial
positions, initial velocities and observing angles) for the system of
Newtonian Gravitational equations describing the motion of the star
and its planets, given a set of radial velocity measurements. As with
most inverse problems of this type, there is not a unique solution. It
is our goal to explore the various possible solutions. HD160691 (ì
Ara) will be used as an example.

Host: Jose E. Castillo

For future events, please visit our web site at:
 http://www.csrc.sdsu.edu/csrc/events/colloquium/

 *******************************************
Dong Xu
PhD Student
Computational Science Program
San Diego State University
Phone: 619-594-2710
Email: dongxu@sciences.sdsu.edu


From dongxu@sciences.sdsu.edu  Sat Feb 24 04:24:21 2007
From: dongxu@sciences.sdsu.edu (Dong Xu)
Date: Fri, 23 Feb 2007 20:24:21 -0800
Subject: [compsci] CSRC Colloquium on Friday -- TRANSISTOR MODELING FOR THE SEMI-CONDUCTOR INDUSTRY
Message-ID: <14da35910702232024p33456cdeh7beb2b8e716bd586@mail.gmail.com>

Title:   EXOPLANET HUNT OR INVERTING RADIAL VELOCITY DATA

Date:           March 2, 2007
Time:           4:00 PM
Location:      GMCS 214

Speaker:

Ellis Cumberbatch
Department of Mathematics
Claremont Graduate University

Abstract:

Software packages, under the generic name SPICE, simulate C-MOS
integrated circuits. Since there may be up to 106 transistors on a
chip, each transistor must have a simple representation in SPICE.

The current/voltage characteristics of a single transistor are derived
from the flow of electrons and holes, governed by non-linear partial
differential equations, the so-called drift-diffusion equations (in
the classical limit). Simple approximations were found suitable in
early models, and as device sizes reduced these have been adapted
empirically to fit data – so much so that now there can be as many as
400 fitting parameters needed. This is expensive – it requires lots of
measurements and parameter extraction. We have been re-visiting the
physics, obtaining better approximations.

After a brief introduction to the physics of semi-conductors, I shall
describe an approach to the basic equations using asymptotic analysis
that, for some transistor characteristics including the
current/voltage relationship, yields accurate formulae needing much
fewer parameters. In particular work done for our industrial sponsor
has involved modeling the dependence of junction capacitance on
voltage. Also I shall describe enhanced equations that have been
introduced to model quantum effects that are present in the
ultra-small devices.

Our results are compared with exact numerical solutions and with data.

Host: Jose E. Castillo

For future events, please visit our web site at:
 http://www.csrc.sdsu.edu/csrc/events/colloquium/

 *******************************************
Dong Xu
PhD Student
Computational Science Program
San Diego State University
Phone: 619-594-2710
Email: dongxu@sciences.sdsu.edu


From dongxu@sciences.sdsu.edu  Sat Feb 24 23:40:41 2007
From: dongxu@sciences.sdsu.edu (Dong Xu)
Date: Sat, 24 Feb 2007 15:40:41 -0800
Subject: [compsci] CSRC Colloquium on Friday -- TRANSISTOR MODELING FOR THE SEMI-CONDUCTOR INDUSTRY
In-Reply-To: <14da35910702232024p33456cdeh7beb2b8e716bd586@mail.gmail.com>
References: <14da35910702232024p33456cdeh7beb2b8e716bd586@mail.gmail.com>
Message-ID: <14da35910702241540l7672b29dg76e45e5b603cce8c@mail.gmail.com>

Title:   TRANSISTOR MODELING FOR THE SEMI-CONDUCTOR INDUSTRY

Date:           March 2, 2007
Time:           4:00 PM
Location:      GMCS 214

Speaker:

Ellis Cumberbatch
Department of Mathematics
Claremont Graduate University

Abstract:

Software packages, under the generic name SPICE, simulate C-MOS
integrated circuits. Since there may be up to 106 transistors on a
chip, each transistor must have a simple representation in SPICE.

The current/voltage characteristics of a single transistor are derived
from the flow of electrons and holes, governed by non-linear partial
differential equations, the so-called drift-diffusion equations (in
the classical limit). Simple approximations were found suitable in
early models, and as device sizes reduced these have been adapted
empirically to fit data – so much so that now there can be as many as
400 fitting parameters needed. This is expensive – it requires lots of
measurements and parameter extraction. We have been re-visiting the
physics, obtaining better approximations.

After a brief introduction to the physics of semi-conductors, I shall
describe an approach to the basic equations using asymptotic analysis
that, for some transistor characteristics including the
current/voltage relationship, yields accurate formulae needing much
fewer parameters. In particular work done for our industrial sponsor
has involved modeling the dependence of junction capacitance on
voltage. Also I shall describe enhanced equations that have been
introduced to model quantum effects that are present in the
ultra-small devices.

Our results are compared with exact numerical solutions and with data.

Host: Jose E. Castillo

For future events, please visit our web site at:
 http://www.csrc.sdsu.edu/csrc/events/colloquium/

 *******************************************
Dong Xu
PhD Student
Computational Science Program
San Diego State University
Phone: 619-594-2710
Email: dongxu@sciences.sdsu.edu


From dongxu@sciences.sdsu.edu  Mon Feb 26 16:39:30 2007
From: dongxu@sciences.sdsu.edu (Dong Xu)
Date: Mon, 26 Feb 2007 08:39:30 -0800
Subject: [compsci] Fwd: Seminar
In-Reply-To: <p06210201c208ba1d83c4@130.191.152.249>
References: <p06210201c208ba1d83c4@130.191.152.249>
Message-ID: <14da35910702260839t66d605b4xe19011189403cb38@mail.gmail.com>

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San Diego State University

Aerospace and Mechanical Engineering Colloquium

DYNAMICS AND CONTROL OF TENSEGRITY SYSTEMS

By

Robert Skelton

Mechanical and Aerospace Engineering

UCSD

Thursday, March 1, 2007

2:00 PM

Room E-328

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<div>

  <p align="center"><font face="Times New Roman" size="3">San Diego State 
University</font></p>
<p align="center"><font face="Times New Roman" size="3">Aerospace and 
Mechanical Engineering Colloquium</font>&nbsp;<br></p>
<p align="center"><font face="Times New Roman" size="3">DYNAMICS AND 
CONTROL OF TENSEGRITY SYSTEMS</font>&nbsp;<br></p>
<p align="center"><font face="Times New Roman" size="3">By</font>&nbsp;<br>
</p>
<p align="center"><font face="Times New Roman" size="3">Robert Skelton</font></p>
<p align="center"><font face="Times New Roman" size="3">Mechanical and 
Aerospace Engineering</font></p>
<p align="center"><font face="Times New Roman" size="3">UCSD</font>&nbsp;<br>
</p>
<p align="center"><font face="Times New Roman" size="3">Thursday, March 
1, 2007</font></p>
<p align="center"><font face="Times New Roman" size="3">2:00 PM</font></p>
<p align="center"><font face="Times New Roman" size="3">Room E-328</font></p>


</div>

</div>

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