BEGIN:VCALENDAR VERSION:2.0 PRODID:-//TAMU//NONSGML v1.0//EN X-WR-CALNAME:TAMU Events BEGIN:VTIMEZONE TZID:America/Chicago BEGIN:DAYLIGHT TZNAME:CDT DTSTART:20180311T080000 RDATE:20180311T080000 TZOFFSETFROM:-0600 TZOFFSETTO:-0500 END:DAYLIGHT END:VTIMEZONE BEGIN:VTIMEZONE TZID:America/Chicago BEGIN:STANDARD TZNAME:CST DTSTART:20181104T070000 RDATE:20181104T070000 TZOFFSETFROM:-0500 TZOFFSETTO:-0600 END:STANDARD END:VTIMEZONE BEGIN:VEVENT DTSTART;TZID=America/Chicago:20180914T102000 DTEND;TZID=America/Chicago:20180914T112000 LOCATION:Emerging Technologies Building GEO:30.622704;-96.339193 SUMMARY:ISS Seminar: Hypothesis Testing under Privacy Constraints DESCRIPTION:Abstract: A distributed binary hypothesis testing problem involving two parties\, a remote observer and a detector\, is studied. The remote observer has access to a discrete memoryless source\, and communicates its observations to the detector via a rate-limited noiseless channel. Having access to another discrete memoryless source\, the detector performs hypothesis test on the joint distribution of its own observations with that of the observer. While the goal is to maximize the type 2 error exponent of the test for a given type 1 error probability constraint\, it is also desired to keep a private part\, which is correlated with the observer's observations\, as oblivious to the detector as possible. Considering both equivocation and average distortion as possible metrics of privacy at the detector\, the trade-off between the communication rate of the channel\, the type 2 error exponent and privacy is studied. For the general hypothesis testing problem\, we establish a single-letter inner bound on the rate-error exponent-equivocation and rate-error exponent-distortion trade-off. Subsequently\, a tight single-letter characterization of the rate-error exponent-equivocation and rate-error exponent-distortion trade-off is obtained (i) for the special case of testing against conditional independence of the observer's observations with that of the detector\, given some additional side-information at the detector and (ii) when the communication rate constraint of the channel is zero. The inner bound established for the general hypothesis testing problem is then shown  to recover the optimal single-letter characterization obtained for testing against conditional independence problem\, thus establishing its tightness for this case. Finally\, the connection between the testing against independence problem under a privacy constraint with the information bottleneck and privacy funnel problems are explored. An explicit necessary and sufficient condition under which a positive type 2 error exponent can be achieved\, while guaranteeing perfect privacy is obtained. Also\, a characterization of the maximum value of the ratio of type 2 error exponent to private information leakage is established. X-ALT-DESC;FMTTYPE=text/html:

\n Abstract: A distributed binary hypothesis testing problem involving two parties, a remote observer and a detector, is studied. The remote observer has access to a discrete memoryless source, and communicates its observations to the detector via a rate-limited noiseless channel. Having access to another discrete memoryless source, the detector performs hypothesis test on the joint distribution of its own observations with that of the observer. While the goal is to maximize the type 2 error exponent of the test for a given type 1 error probability constraint, it is also desired to keep a private part, which is correlated with the observer's observations, as oblivious to the detector as possible. Considering both equivocation and average distortion as possible metrics of privacy at the detector, the trade-off between the communication rate of the channel, the type 2 error exponent and privacy is studied. For the general hypothesis testing problem, we establish a single-letter inner bound on the rate-error exponent-equivocation and rate-error exponent-distortion trade-off. Subsequently, a tight single-letter characterization of the rate-error exponent-equivocation and rate-error exponent-distortion trade-off is obtained (i) for the special case of testing against conditional independence of the observer's observations with that of the detector, given some additional side-information at the detector and (ii) when the communication rate constraint of the channel is zero. The inner bound established for the general hypothesis testing problem is then shown  to recover the optimal single-letter characterization obtained for testing against conditional independence problem, thus establishing its tightness for this case. Finally, the connection between the testing against independence problem under a privacy constraint with the information bottleneck and privacy funnel problems are explored. An explicit necessary and sufficient condition under which a positive type 2 error exponent can be achieved, while guaranteeing perfect privacy is obtained. Also, a characterization of the maximum value of the ratio of type 2 error exponent to private information leakage is established.\n

UID:20180914T152000Z-48194@calendar.tamu.edu URL:https://calendar.tamu.edu/live/events/46253-iss-seminar-hypothesis-testing-under-privacy CATEGORIES:Seminars LAST-MODIFIED:20180913T141357Z ATTACH:https://calendar.tamu.edu/live/image/gid/63/width/80/height/80/crop/1/src_region/0,0,600,601/1401_ecen_1x1-primary.png X-LIVEWHALE-TYPE:events X-LIVEWHALE-ID:48194 X-LIVEWHALE-TIMEZONE:America/Chicago X-LIVEWHALE-IMAGE:https://calendar.tamu.edu/live/image/gid/63/width/80/height/80/crop/1/src_region/0\,0\,600\,601/1401_ecen_1x1-primary.png X-LIVEWHALE-IMAGE-CAPTION:ECEN logo X-LIVEWHALE-SUMMARY:Sreejith Sreekumar\, Ph.D. candidate at Imperial College London END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/Chicago:20180914T113000 DTEND;TZID=America/Chicago:20180914T123000 LOCATION:Halbouty Geosciences Building GEO:30.618936;-96.3406 SUMMARY:Seminar - Dr. Kristin Bergman DESCRIPTION:Dr. Kristin Bergman\n\n MIT\n\n  \n\n Refreshments served at 11:15 am. X-ALT-DESC;FMTTYPE=text/html:

\n Dr. Kristin Bergman\n

\n MIT\n

\n  \n

\n Refreshments served at 11:15 am.\n

UID:20180914T163000Z-48195@calendar.tamu.edu URL:https://calendar.tamu.edu/live/events/46162-seminar-dr-kristin-bergman CATEGORIES:General Interest LAST-MODIFIED:20180913T141358Z ATTACH:https://calendar.tamu.edu/live/image/gid/46/width/80/height/80/crop/1/src_region/0,0,2015,2618/3285_2018.09.14_Kristin_Bergmann.jpg X-LIVEWHALE-TYPE:events X-LIVEWHALE-ID:48195 X-LIVEWHALE-TIMEZONE:America/Chicago X-LIVEWHALE-IMAGE:https://calendar.tamu.edu/live/image/gid/46/width/80/height/80/crop/1/src_region/0\,0\,2015\,2618/3285_2018.09.14_Kristin_Bergmann.jpg X-LIVEWHALE-IMAGE-CAPTION:G&\;G X-LIVEWHALE-SUMMARY:ConocoPhilips Departmental Seminar Series - Climate Extremes at the Dawn of Animal Life END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/Chicago:20180914T123000 DTEND;TZID=America/Chicago:20180914T140000 LOCATION:Melbern G. Glasscock Building GEO:30.617332;-96.338489 SUMMARY:Language Matters WG Presentation DESCRIPTION:Language Matters Working Group PresentationTitle\n The Beneficial Effects of Technology-Based Social Reading in L2 ClassesDr. Gabriela Zapata | Department of Hispanic Studies\nDr. Maybel Mesa | Providence CollegeAbstract\n This work investigates the instructional benefits of the digital social reading application eComma for the comprehension and interpretation of authentic texts in intermediate second language (L2) Spanish classes in a university in the Southern United States. The study examines 44 students' collaborative work on two poems connected to the themes of the class's instructional units. Data are based on the analysis of the participants' digital annotations\, and responses to a survey that probed into their opinions of eComma. The results show a similar number of student-generated comments on either lexical queries or contextual interpretations in both poems. However\, there were differences in the kind of annotations that originated in each text. In addition\, the findings suggest that working with eComma allowed students to develop their L2 reading performance\, and it resulted in their collaborative construction of knowledge\, which might have facilitated their interpretation process. In the survey responses\, the participants identified various social and instructional benefits\, even though they also reported some technical difficulties. Overall\, the study mirrors the positive results reported in previous work\, and it points to the effectiveness eComma for the implementation of the kind of comprehensive L2 practices currently recommended in the field of L2 pedagogy.Keywords: Digital social reading\, eComma\, performance\, interpretive mode\, collaborative construction of knowledge\, L2 Spanish university students\n\n  \n\n I hope you will all come and join us for this exciting talk. There will be bagels and other goodies to accompany the intellectual nourishment. X-ALT-DESC;FMTTYPE=text/html:

Language Matters Working Group Presentation

Title
\n The Beneficial Effects of Technology-Based Social Reading in L2 Classes

Dr. Gabriela Zapata | Department of Hispanic Studies\n

Dr. Maybel Mesa | Providence College

Abstract
\n This work investigates the instructional benefits of the digital social reading application eComma for the comprehension and interpretation of authentic texts in intermediate second language (L2) Spanish classes in a university in the Southern United States. The study examines 44 students' collaborative work on two poems connected to the themes of the class's instructional units. Data are based on the analysis of the participants' digital annotations, and responses to a survey that probed into their opinions of eComma. The results show a similar number of student-generated comments on either lexical queries or contextual interpretations in both poems. However, there were differences in the kind of annotations that originated in each text. In addition, the findings suggest that working with eComma allowed students to develop their L2 reading performance, and it resulted in their collaborative construction of knowledge, which might have facilitated their interpretation process. In the survey responses, the participants identified various social and instructional benefits, even though they also reported some technical difficulties. Overall, the study mirrors the positive results reported in previous work, and it points to the effectiveness eComma for the implementation of the kind of comprehensive L2 practices currently recommended in the field of L2 pedagogy.

Keywords: Digital social reading, eComma, performance, interpretive mode, collaborative construction of knowledge, L2 Spanish university students\n

\n  \n

\n I hope you will all come and join us for this exciting talk. There will be bagels and other goodies to accompany the intellectual nourishment.\n

UID:20180914T173000Z-48196@calendar.tamu.edu URL:https://calendar.tamu.edu/live/events/46041-language-matters-wg-presentation LAST-MODIFIED:20180913T141358Z ATTACH:https://calendar.tamu.edu/live/image/gid/95/width/80/height/80/crop/1/src_region/0,0,216,216/2104_gc_workinggroups.jpg X-LIVEWHALE-TYPE:events X-LIVEWHALE-ID:48196 X-LIVEWHALE-TIMEZONE:America/Chicago X-LIVEWHALE-IMAGE:https://calendar.tamu.edu/live/image/gid/95/width/80/height/80/crop/1/src_region/0\,0\,216\,216/2104_gc_workinggroups.jpg X-LIVEWHALE-IMAGE-CAPTION:Glasscock Center Working Groups X-LIVEWHALE-CONTACT-INFO:Maria Moyna END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/Chicago:20180917T135000 DTEND;TZID=America/Chicago:20180917T145000 LOCATION:Emerging Technologies Building GEO:30.622704;-96.339193 SUMMARY:Analog Seminar: Design of Power Efficient Pipeline/Time-interleaved Analog-to-digital Converters DESCRIPTION:Abstract: In recent years\, the demand of portable electronic devices grows rapidly\, including mobile phones\, laptops\, smart devices\, etc. All of these devices have batteries providing limited power. Therefore\, power-efficient designs for integrated circuits on those devices become a popular topic\, e.g. highly power efficient ADCs. To follow the trend in the field of ADC design\, two projects will be discussed in the seminar.\n\n One of our projects is about a pipeline ADC with current-mode multiplying digital-to-analog converters (MDACs). The current-mode MDAC architecture is proposed and is compared with a conventional flip-around switch-capacitor MDAC. The residual amplifier in current-mode architecture will save large amount of power theoretically. The work eventually achieves 61.3-dB/75-dB SNDR/SFDR at 200MS/s with a sinusoidal input. The total power consumption is 8.4mW. The area of ADC core is 0.23 mm^2 and is fabricated in TSMC 40nm technology.  The other research is the design of a time-interleaved ADC with background calibration. A novel architecture is proposed and a 4-channel time-interleaved ADC has been implemented by using 5 commercial ADC boards\, 1 clock generator and an FPGA board. An particle swarm optimization (PSO) algorithm is applied to minimize the three main issues (gain mismatches\, offset mismatches and timing skews) limiting the performance of a time-interleaved ADC. Background calibration using the PSO algorithm will be presented during the seminar.\nDadian Zhou (S' 17) received his B.S. degree in Telecommunication Engineering from Xi'an Jiaotong-Liverpool University\, Suzhou\, Jiangsu\, China and earned his M.S. degree in Communications and Signal Processing from Imperial College London\, London\, UK. Since 2014\, he has been pursuing his Ph.D degree in Electrical Engineering in Analog and Mixed Signal Center\, Texas A&M University\, College Station\, TX\, USA. He worked as an Analog Engineering Intern with NXP Semiconductors\, Austin\, TX\, in Summer 2017 and Summer 2018\, where he was involved in general purpose IO design and verification. He was a recipient of Broadcom scholarship in 2014. His research interests include data converters\, calibrations for analog and mixed-signal systems\, power management (LDO design) and IO design.  X-ALT-DESC;FMTTYPE=text/html:

Abstract: In recent years, the demand of portable electronic devices grows rapidly, including mobile phones, laptops, smart devices, etc. All of these devices have batteries providing limited power. Therefore, power-efficient designs for integrated circuits on those devices become a popular topic, e.g. highly power efficient ADCs. To follow the trend in the field of ADC design, two projects will be discussed in the seminar.\n

\n One of our projects is about a pipeline ADC with current-mode multiplying digital-to-analog converters (MDACs). The current-mode MDAC architecture is proposed and is compared with a conventional flip-around switch-capacitor MDAC. The residual amplifier in current-mode architecture will save large amount of power theoretically. The work eventually achieves 61.3-dB/75-dB SNDR/SFDR at 200MS/s with a sinusoidal input. The total power consumption is 8.4mW. The area of ADC core is 0.23 mm^2 and is fabricated in TSMC 40nm technology.  The other research is the design of a time-interleaved ADC with background calibration. A novel architecture is proposed and a 4-channel time-interleaved ADC has been implemented by using 5 commercial ADC boards, 1 clock generator and an FPGA board. An particle swarm optimization (PSO) algorithm is applied to minimize the three main issues (gain mismatches, offset mismatches and timing skews) limiting the performance of a time-interleaved ADC. Background calibration using the PSO algorithm will be presented during the seminar.\n

Dadian Zhou (S' 17) received his B.S. degree in Telecommunication Engineering from Xi'an Jiaotong-Liverpool University, Suzhou, Jiangsu, China and earned his M.S. degree in Communications and Signal Processing from Imperial College London, London, UK. Since 2014, he has been pursuing his Ph.D degree in Electrical Engineering in Analog and Mixed Signal Center, Texas A&M University, College Station, TX, USA. He worked as an Analog Engineering Intern with NXP Semiconductors, Austin, TX, in Summer 2017 and Summer 2018, where he was involved in general purpose IO design and verification. He was a recipient of Broadcom scholarship in 2014. His research interests include data converters, calibrations for analog and mixed-signal systems, power management (LDO design) and IO design. \n

UID:20180917T185000Z-48197@calendar.tamu.edu URL:https://calendar.tamu.edu/live/events/46277-analog-seminar-design-of-power-efficient CATEGORIES:Seminars LAST-MODIFIED:20180913T141358Z ATTACH:https://calendar.tamu.edu/live/image/gid/63/width/80/height/80/crop/1/src_region/0,0,600,601/1401_ecen_1x1-primary.png X-LIVEWHALE-TYPE:events X-LIVEWHALE-ID:48197 X-LIVEWHALE-TIMEZONE:America/Chicago X-LIVEWHALE-IMAGE:https://calendar.tamu.edu/live/image/gid/63/width/80/height/80/crop/1/src_region/0\,0\,600\,601/1401_ecen_1x1-primary.png X-LIVEWHALE-IMAGE-CAPTION:ECEN logo X-LIVEWHALE-SUMMARY:

\n Dadian Zhou\, Texas A&\;M University\n

END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/Chicago:20180917T150000 DTEND;TZID=America/Chicago:20180917T160000 LOCATION:Chemistry GEO:30.617999;-96.339931 SUMMARY:Wenshe Liu\, TAMU DESCRIPTION:Phage coded nonconical amino acids for drug discovery X-ALT-DESC;FMTTYPE=text/html:

\n Phage coded nonconical amino acids for drug discovery\n

UID:20180917T200000Z-48198@calendar.tamu.edu URL:https://calendar.tamu.edu/live/events/46081-wenshe-liu-tamu CATEGORIES:Seminars|Featured Event LAST-MODIFIED:20180913T141358Z ATTACH:https://calendar.tamu.edu/live/image/gid/58/width/80/height/80/crop/1/src_region/0,0,581,564/2993_logo-chemistry-vertical-maroon-box-black.png X-LIVEWHALE-TYPE:events X-LIVEWHALE-ID:48198 X-LIVEWHALE-TIMEZONE:America/Chicago X-LIVEWHALE-IMAGE:https://calendar.tamu.edu/live/image/gid/58/width/80/height/80/crop/1/src_region/0\,0\,581\,564/2993_logo-chemistry-vertical-maroon-box-black.png X-LIVEWHALE-IMAGE-CAPTION:Chemical Biology Research Seminar Series X-LIVEWHALE-CONTACT-INFO:Host: David Barondeau X-LIVEWHALE-SUMMARY:Chemical Biology Seminar END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/Chicago:20180917T153000 DTEND;TZID=America/Chicago:20180917T163000 LOCATION:College of Veterinary Medicine &\; Biomedical Sciences SUMMARY:Toxicology Seminar with Cynthia Rider DESCRIPTION:Cynthia V. Rider\, PhD\, Study Scientist\, Toxicology Branch\, National Toxicology Program and NIEHS\n"Deconvoluting a Complex Problem: Mixtures Research at the National Toxicology Program"\n Hosts: Ivan Rusyn & Weihsueh Chiu X-ALT-DESC;FMTTYPE=text/html:

Cynthia V. Rider, PhD, Study Scientist, Toxicology Branch, National Toxicology Program and NIEHS\n

"Deconvoluting a Complex Problem: Mixtures Research at the National Toxicology Program"

\n Hosts: Ivan Rusyn & Weihsueh Chiu\n

UID:20180917T203000Z-48199@calendar.tamu.edu URL:https://calendar.tamu.edu/live/events/45400-toxicology-seminar-with-cynthia-rider CATEGORIES:General Interest|Seminars LAST-MODIFIED:20180913T141358Z ATTACH:https://calendar.tamu.edu/live/image/gid/198/width/80/height/80/crop/1/src_region/0,105,1602,1708/3157_RiderC18_1032b.jpg X-LIVEWHALE-TYPE:events X-LIVEWHALE-ID:48199 X-LIVEWHALE-TIMEZONE:America/Chicago X-LIVEWHALE-IMAGE:https://calendar.tamu.edu/live/image/gid/198/width/80/height/80/crop/1/src_region/0\,105\,1602\,1708/3157_RiderC18_1032b.jpg X-LIVEWHALE-IMAGE-CAPTION:Dr. Cynthia Rider\, NIEHS X-LIVEWHALE-COST:Free X-LIVEWHALE-CONTACT-INFO:

\n Kim Daniel\n

\n

\n kdaniel@cvm.tamu.edu\n

\n

\n (979) 845-5529\n

X-LIVEWHALE-SUMMARY:Dr. Cynthia Rider will present "Deconvoluting a Complex Problem: Mixtures Research at the National Toxicology Program" END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/Chicago:20180917T160000 DTEND;TZID=America/Chicago:20180917T170000 LOCATION:O&\;M Building SUMMARY:Seminar - Dr. J. Cameron Thrash DESCRIPTION: \n\n Dr. J. Cameron Thrash\n\n Assistant Professor\n\n Department of Biological Sciences\n\n Louisiana State Uninverisity X-ALT-DESC;FMTTYPE=text/html:

\n  \n

\n Dr. J. Cameron Thrash\n

\n Assistant Professor\n

\n Department of Biological Sciences\n

\n Louisiana State Uninverisity\n

UID:20180917T210000Z-48200@calendar.tamu.edu URL:https://calendar.tamu.edu/live/events/46368-seminar-dr-j-cameron-thrash CATEGORIES:General Interest LAST-MODIFIED:20180913T141358Z ATTACH:https://calendar.tamu.edu/live/image/gid/46/width/80/height/80/crop/1/src_region/0,0,1275,1650/3309_Thrash_F2018.jpg X-LIVEWHALE-TYPE:events X-LIVEWHALE-ID:48200 X-LIVEWHALE-TIMEZONE:America/Chicago X-LIVEWHALE-IMAGE:https://calendar.tamu.edu/live/image/gid/46/width/80/height/80/crop/1/src_region/0\,0\,1275\,1650/3309_Thrash_F2018.jpg X-LIVEWHALE-IMAGE-CAPTION:OCNG X-LIVEWHALE-SUMMARY:"Microbe Hunting in the Gulf of Mexico" END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/Chicago:20180919T153000 DTEND;TZID=America/Chicago:20180919T163000 LOCATION:Jack E. Brown Chemical Engineering Building GEO:30.620858;-96.341812 SUMMARY:Dr. Christos T. Maravelias\, "Energy Systems Engineering: Challenges and Opportunities" DESCRIPTION:Dr. Christos T. Maravelias\, Vilas Distinguished Achievement Professor\, and Paul A. Elfers Professor at University of Wisconsin-Madison\, will give a talk as part of the J.D. Lindsay Lecture Series entitled:\n\n "Recent Advances in Molecular Thermodynamics for Energy and Sustainability" X-ALT-DESC;FMTTYPE=text/html:

\n Dr. Christos T. Maravelias, Vilas Distinguished Achievement Professor, and Paul A. Elfers Professor at University of Wisconsin-Madison, will give a talk as part of the J.D. Lindsay Lecture Series entitled:\n

\n "Recent Advances in Molecular Thermodynamics for Energy and Sustainability"\n

UID:20180919T203000Z-48201@calendar.tamu.edu URL:https://calendar.tamu.edu/live/events/45293-dr-christos-t-maravelias-energy-systems CATEGORIES:Training & Workshops LAST-MODIFIED:20180913T141358Z ATTACH:https://calendar.tamu.edu/live/image/gid/40/width/80/height/80/crop/1/src_region/0,0,176,176/3137_MaraveliasChristosT.jpg X-LIVEWHALE-TYPE:events X-LIVEWHALE-ID:48201 X-LIVEWHALE-TIMEZONE:America/Chicago X-LIVEWHALE-IMAGE:https://calendar.tamu.edu/live/image/gid/40/width/80/height/80/crop/1/src_region/0\,0\,176\,176/3137_MaraveliasChristosT.jpg X-LIVEWHALE-IMAGE-CAPTION:Dr. Christos T. Maravelias X-LIVEWHALE-COST:Free X-LIVEWHALE-SUMMARY:A part of the Artie McFerrin Department of Chemical Engineering's Lindsay Lecture Series END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/Chicago:20180924T153000 DTEND;TZID=America/Chicago:20180924T163000 LOCATION:College of Veterinary Medicine &\; Biomedical Sciences SUMMARY:Toxicology Seminar with Dr. Nan-Hung Hsieh DESCRIPTION:Nan-Hung Hsieh\, PhD\, Postdoctoral Associate\, Veterinary Integrative Biosciences\, Texas A&M University\n "Applying a Global Sensitivity Analysis Workflow to Improve the Computational Efficiencies in Physiologically-Based Pharmacokinetic Modeling"\n Host: Weihsueh Chiu\, PhD X-ALT-DESC;FMTTYPE=text/html:

Nan-Hung Hsieh, PhD, Postdoctoral Associate, Veterinary Integrative Biosciences, Texas A&M University\n

 "Applying a Global Sensitivity Analysis Workflow to Improve the Computational Efficiencies in Physiologically-Based Pharmacokinetic Modeling"

\n Host: Weihsueh Chiu, PhD\n

UID:20180924T203000Z-45766@calendar.tamu.edu URL:https://calendar.tamu.edu/live/events/45401-toxicology-seminar-with-dr-nan-hung-hsieh CATEGORIES:General Interest|Seminars LAST-MODIFIED:20180824T193506Z ATTACH:https://calendar.tamu.edu/live/image/gid/198/width/80/height/80/crop/1/src_region/0,12,2400,2412/3158_Nan-Hung_Hsieh.jpg X-LIVEWHALE-TYPE:events X-LIVEWHALE-ID:45766 X-LIVEWHALE-TIMEZONE:America/Chicago X-LIVEWHALE-IMAGE:https://calendar.tamu.edu/live/image/gid/198/width/80/height/80/crop/1/src_region/0\,12\,2400\,2412/3158_Nan-Hung_Hsieh.jpg X-LIVEWHALE-IMAGE-CAPTION:Nan-Hung Hsieh\, PhD X-LIVEWHALE-COST:Free X-LIVEWHALE-CONTACT-INFO:

\n Kim Daniel\n

\n

\n kdaniel@cvm.tamu.edu\n

\n

\n (979) 845-5529\n

X-LIVEWHALE-SUMMARY:

\n Dr. Nan-Hung Hsieh will present "Applying a Global Sensitivity Analysis Workflow to Improve the Computational Efficiencies in Physiologically-Based Pharmacokinetic Modeling"\n

END:VEVENT BEGIN:VEVENT DTSTART;TZID=America/Chicago:20181010T190000 DTEND;TZID=America/Chicago:20181010T200000 LOCATION:Rudder Forum SUMMARY:Hagler Institute For Advanced Study At Texas A&M University DESCRIPTION:Speaker: Dr. Robert Kennicutt X-ALT-DESC;FMTTYPE=text/html:

\n Speaker: Dr. Robert Kennicutt\n

UID:20181011T000000Z-44967@calendar.tamu.edu URL:http://calendar.tamu.edu/research/#!view/event/event_id/44967 LAST-MODIFIED:20180801T211748Z X-LIVEWHALE-TYPE:events X-LIVEWHALE-ID:44967 X-LIVEWHALE-TIMEZONE:America/Chicago X-LIVEWHALE-CONTACT-INFO:hias@tamu.edu X-LIVEWHALE-SUMMARY:Eminent Scholar Lecture END:VEVENT END:VCALENDAR