The Broader Impact of eScience in Society

The advent of eScience is transforming scientific research, but its broader implications for society remain uncertain. This panel of experts delves into the potential impact of cyber-infrastructure on non-scientific populations and the integration of eScience into everyday life. Key topics include citizen science, data accessibility, collaboration, and ethical considerations surrounding data validation, privacy, and potential risks like data distortion and fraud in the era of eScience.

• eScience
• cyber-infrastructure
• society
• data accessibility
• ethics

tcam Follow

Uploaded on Oct 11, 2024 | 0 Views

Download Presentation

Please find below an Image/Link to download the presentation.

The content on the website is provided AS IS for your information and personal use only. It may not be sold, licensed, or shared on other websites without obtaining consent from the author.If you encounter any issues during the download, it is possible that the publisher has removed the file from their server.

You are allowed to download the files provided on this website for personal or commercial use, subject to the condition that they are used lawfully. All files are the property of their respective owners.

The content on the website is provided AS IS for your information and personal use only. It may not be sold, licensed, or shared on other websites without obtaining consent from the author.

Presentation Transcript

1. The Broader Impact of eScience Dr Daron G Green Senior Director, External Research Microsoft Research

2. Our Theme The predictions around the advent of eScience are slowly becoming reality for the scientific community. However, the implications both near-and longer-term for society in general are still unclear. It seems obvious that the broad availability of cyber-infrastructure will have a impact on different non-scientific populations, but exactly what and when? How does one become a Citizen-Scientist? How will we use/access eScience resources without even knowing it? This panel of experts will field this wide-ranging topic and provide their educated viewpoints on how eScience will soon blend into the very fabric of our everyday lives

3. Context Computing infrastructure allowing greater access to resources and (a growing volume) of data Increasing availability of sensors/devices Increasing ability of people to collaborate New era in scientific research

4. Panel Members Adam Siepel, Cornell - Assistant Professor; Biological Statistics & Computational Biology Jeannette M. Wing - Head Computer & Information Science & Engineering Directorate at NSF Peter Lee - Professor and Department Head; Computer Science Dept at CMU Wei Wang Associate Professor; University of North Carolina at Chapel Hill

5. Questions What will the proliferation of devices lead to in terms of new [eScience] experiments? What happens when the information flow goes the other way (ie people aren t just consuming but become data sources)? Bees Who will validate their input? How will we repeat results/experiments? Won t semantics be key rather than people saying I trust this person for this and not this . What role will the (primitive) social networking tools need to play? How will we credit people for their contribution/insight? What about duty of care 1M missing diabetics in the UK can we afford to know who they are? What will we do when we realize we are all ill?

6. Questions What dangers exist? Rogue factions distorting data/algorithms/services? What measures can be taken? What will privacy mean/require? What guarantees will be provided that cloud services are, for example, compliant to various mathematical standards? What will we find in the data and how will we manage the outcome? Fraud? Infidelity? Corruption?

7. Background

8. Adam Siepel Cornell Assistant Professor, Biological Statistics & Computational Biology Research interests lie in the area where statistics, computer science, evolutionary biology, and genomics meet Currently developing computational methods for the identification of functional elements in eukaryotic (primarily mammalian) genomes, based on comparative sequence data A major theme in my work is to model and analyze the evolution and the function of genomic sequences simultaneously, so that evolution sheds light on function, and function sheds light on evolution I like to tackle problems of practical importance in genomics, such as gene finding and conserved element identification, using methods from machine learning and computational statistics. As much as possible, I try to stay grounded in biology by working with experimentalists to test predicted functional elements in the lab

9. Jeannette Wing NSF Jeannette M. Wing was a computer science professor at Carnegie Mellon University Wing has been a leading member of the formal methods community, especially in the area of Larch. She has led many research projects and has published widely [1] With Barbara Liskov, Jeannette Wing developed the Liskov substitution principle, published in 1993 She is on the editorial board of the following journals: Journal of the ACM, Formal Aspects of Computing (North American Editor), Formal Methods in System Design, International Journal of Software and Informatics, Journal of Information Science and Engineering, Software Tools for Technology Transfer

10. Peter Lee Professor, CMU I joined CMU in 1987, after finishing my PhD at Michigan. I'm an ACM Fellow, member of the CRA Board of Directors, vice chair of DARPA ISAT, and a bunch of other things too boring to mention Professor and department head, computer science dept at CMU My research is not in eScience, but in programming languages, particularly applications to security. I'm best known for the development of "proof-carrying code" (with my former student, George Necula, now at Berkeley). I had a stint as the Vice Provost for Research at CMU, and during that time I helped to raise the funding for and launch the McWilliams Center for Cosmology, a new center run jointly between Physics Dept and CS Dept, for computational astrophysics. I was also deeply involved in several efforts related to eScience initiatives in earth sciences, biology, and materials. Today, I am spearheading CMU's initiative in Next-Generation Computing, to provide the computing infrastructure necessary for the university's eScience efforts

11. Wei Wang Associate Professor; University of North Carolina at Chapel Hill Wei Wang is an associate professor in the Department of Computer Science and a member of the Carolina Center for Genomic Sciences at the University of North Carolina at Chapel Hill. She received a MS degree from the State University of New York at Binghamton in 1995 and a PhD degree in Computer Science from the University of California at Los Angeles in 1999. She was a research staff member at the IBM T. J. Watson Research Center between 1999 and 2002. Dr. Wang's research interests include data mining, bioinformatics, and databases. She has filed seven patents, and has published one monograph and more than one hundred research papers in international journals and major peer-reviewed conference proceedings. Dr. Wang received the IBM Invention Achievement Awards in 2000 and 2001. She was the recipient of a UNC Junior Faculty Development Award in 2003 and an NSF Faculty Early Career Development (CAREER) Award in 2005. She was named a Microsoft Research New Faculty Fellow in 2005. She was recently honored with the 2007 Phillip and Ruth Hettleman Prize for Artistic and Scholarly Achievement at UNC. Dr. Wang is an associate editor of the IEEE Transactions on Knowledge and Data Engineering and ACM Transactions on Knowledge Discovery in Data, and an editorial board member of the International Journal of Data Mining and Bioinformatics. She serves on the program committees of prestigious international conferences such as ACM SIGMOD, ACM SIGKDD, VLDB, ICDE, EDBT, ACM CIKM, IEEE ICDM, and SSDBM

12. Microsoft Research Faculty Summit 2008

13. Microsoft Research Faculty Summit 2008