Full HTML for
Given by Geoffrey C. Fox at HPCC Seminar Series at Penn State on Jan 25 99. Foils prepared May 17 99
Outside Index
Summary of Material
| Given to graduate HPCC/Computational Science seminar |
| Initially motivate reason for change based on shift of employee and then student interests to information technology |
| Describe relevant Syracuse activities and why they fit together to support new curricula; better educational materials in existing fields and novel technology support for new models of teaching and learning |
| We describe Internetics as key applied computer science knowledge |
We give a brief description of
|
| We comment on "business model" for both computer science research and for Universities |
Denote Foils where Image Critical
Denote Foils where HTML is sufficient
Physics and Engineering Education and Outreach with Modern Information Technology
Abstract of Penn State Presentation
University HPCC Issues and Requirements
Changing Choices in Education
Impact of IT Worker Shortage on Physics and Engineering education
Impact of Web Technology on Engineering and Physics Education
Possibly Useful Syracuse Activities
Why and What could one Do?
Why/What is Internetics in a Nutshell
Synergy of Parallel Computing and The Grid Internetics as Unifying Principle
What is Internetics ?
Xiaoming Li's View of Internetics
Traditional Computational Science
Internetics Extension of Computational Science
Internetics Certificate Curriculum: K-12
Internetics Certificate Curriculum: Undergraduate
Internetics Certificate Curriculum: Graduate
Internetics Certificate Curriculum: Graduate Electives
Internetics and Physics I
Internetics and Physics II
Why use TangoInteractive?
Some Principles in Tango Support of Distance Education I
Some Principles in Tango Support of Distance Education II
NeatTools and Universal Access
New Enterprise Models for University Research?
New Enterprise Models for Universities?
Useful Links
Outside Index
Summary of Material
HTML version of Basic Foils prepared May 17 99 
Full HTML Index
| Revision of Presentation at Penn State Jan 25 99 |
| http://www.npac.syr.edu/users/gcf/egywebeducmay99 |
| Geoffrey Fox |
| Syracuse University NPAC |
| 111 College Place Syracuse NY 13244 4100 |
| 3154432163 |
HTML version of Basic Foils prepared May 17 99
Full HTML Index
| Given to graduate HPCC/Computational Science seminar |
| Initially motivate reason for change based on shift of employee and then student interests to information technology |
| Describe relevant Syracuse activities and why they fit together to support new curricula; better educational materials in existing fields and novel technology support for new models of teaching and learning |
| We describe Internetics as key applied computer science knowledge |
We give a brief description of
|
| We comment on "business model" for both computer science research and for Universities |
HTML version of Basic Foils prepared May 17 99
Full HTML Index
Universities interact with HPCC in three distinct ways
|
HTML version of Basic Foils prepared May 17 99
Full HTML Index
| Students -- correctly -- perceive a growing opportunity in computer science related fields but outside biology, there is a decrease in interest in "technical sciences" such as physics, aerospace engineering etc. |
| In particular physics departments may disappear in many Universities as the number of majors is dropping at both undergraduate and graduate level. |
| Classical Computational Science is not the answer but we suggest that a generalization -- Internetics at the interface between applications and "web/commodity" technologies offers interesting attractive academic programs combining computing and the "technical sciences" |
| It is not enough to justify physics (as studying Latin and Greek was motivated to me) as "training the mind" |
HTML version of Basic Foils prepared May 17 99
Full HTML Index
| So depending on the source, one finds a shortage of 100,000 to 300,000 workers in Information Technology today -- this is forecast to grow with 1 million more jobs created by industry by year 2004 |
| So physics and "physical technology" aspects of engineering (e.g. aerospace engineering) could compete with this trend and try to attract good students from this field |
| My suggested alternative is to note that IT work typically requires the technical and problem solving skills abilities associated with physics or engineering and often NOT taught in Computer Science |
Thus set up new curricula opportunities within the general IT educational arena that we call Internetics
|
| Note IT job opportunities are in applications -- perhaps more so than in "basic systems" |
HTML version of Basic Foils prepared May 17 99
Full HTML Index
There is the same opportunity available to any education area to use new delivery and preparation methods
|
Comparing "books" with the Web, we see that Web offers opportunities for "technical people" as well as those with good "communication skills" -- Java applets combined with numerical algorithms may be more effective than streams of beautiful English words
|
| The new technologies should allow better integration of research into education -- this could help academic fields communicate their value more effectively |
HTML version of Basic Foils prepared May 17 99
Full HTML Index
1) New Curriculum: Internetics Concept as novel and powerful way of linking Computing to Applications
|
| 2) Improved curriculum in existing fields as in Physics-NPAC-Engineering-Cornell Collaborative Applets and web-based simulations |
| 3) NeatTools for universal access allowing those with disabilities to be effective teachers and learners |
4) TangoInteractive and WebWisdom as web-based distance education technology to allow broad dissemination of curriculum starting locally
|
| 5) Collaboration with NSF PACI (NCSA,UCSD supercomputer centers) to accelerate national outreach and ensure top quality |
| 6) Note NPAC was once a parallel computing center -- now 40% of its activities are either delivery of or technology development for education |
HTML version of Basic Foils prepared May 17 99
Full HTML Index
| One can integrate best information technology and leading physics and engineering research into new curriculum with both existing and new educational programs and outreach activities |
| This will invigorate traditional majors; integrate them into interdisciplinary education and improve broad based science understanding |
| One needs Internetics as key information technology curriculum |
| One needs good curricula authoring tools with universal Web API |
| One needs NeatTools to enable universal access to web-based curriculum |
| One needs TangoInteractive/WebWisdom to broadly disseminate |
| One needs outside collaboration (such as NSF PACI EOT) to ensure integration with national agenda |
| One needs physics and engineering researchers and teachers to design and develop new curriculum materials |
| One needs innovative universities interested in new "enterprise models for education" and willing to experiment |
HTML version of Basic Foils prepared May 17 99
Full HTML Index
Computational Science is Interdisciplinary field in between Computer Science and "large scale Scientific and Engineering simulation-based" applications
|
Internetics is Interdisciplinary field between CS and Both Simulation and Information-based applications
|
| Enrollment in Classic Computational Science at Syracuse has dropped from 50 to 10; enrollment in Internetics has risen from 6 to 100 (95-98) |
| Current Internetics Curriculum starts with High School Java Academy;undergraduate and graduate programs, through the four course continuing education certificate |
HTML version of Basic Foils prepared May 17 99 
Full HTML Index
| The two forms of Large Scale Computing Scale Computer for Scale Users in Proportion Power User to number of computers |
| Parallel Distributed Information Systems Computers Computational Grids |
| <--------------- Internetics Technologies ---------------> |
| 1% market |
| 99% of market driving |
| student interest and (Java) technologies |
HTML version of Basic Foils prepared May 17 99
Full HTML Index
| Emerging field centered on technologies services and applications enabling and enabled by world wide communication and computing grids |
| The contents come from Computer Communication and Information science fields but with an applied flavor so forms critical knowledge needed by many application fields such as scientific computing, telemedicine, electronic commerce, digital journalism and education |
| Students with an interdisciplinary background will be encouraged |
| The applied focus with many totally new and rapidly evolving technologies makes Internetics unique |
HTML version of Basic Foils prepared May 17 99
Full HTML Index
HTML version of Basic Foils prepared May 17 99
Full HTML Index
HTML version of Basic Foils prepared May 17 99
Full HTML Index
HTML version of Basic Foils prepared May 17 99
Full HTML Index
| K-12 is Middle and High School Students |
These 2 courses must be passed to obtain Certificate
|
| See NPAC's Java Academy at http://www.npac.syr.edu/projects/k12javaspring98/ while |
| the 1999 version was offered using TangoInteractive to students at Boston, Houston, Starkville and Syracuse http://www.npac.syr.edu/projects/k12javaspring99/ |
HTML version of Basic Foils prepared May 17 99
Full HTML Index
These 4 courses must be passed to obtain Certificate
|
HTML version of Basic Foils prepared May 17 99
Full HTML Index
| Graduate and Continuing Education have same curriculum with 4 core and 2 electives needed for certificate |
| Core Courses (total 4 courses) |
(There will also be a "booster course" offered to students who have taken the Undergraduate certificate so they can "place out" of graduate core course)
|
HTML version of Basic Foils prepared May 17 99
Full HTML Index
| Need to take 2 electives chosen from: |
Computer Science Electives
|
Application Electives:
|
HTML version of Basic Foils prepared May 17 99
Full HTML Index
Physics is declining in popularity as a major even though
|
Physics is in many ways a BETTER educational background than computer science to today's major computer science challenge -- designing and building distributed systems
|
HTML version of Basic Foils prepared May 17 99
Full HTML Index
A combination of Physics and a minor in Internetics is an interesting background for many areas such as:
|
| More generally will make Physics a more attractive major ... |
Further comparing "books" with the Web, we see that the Web offers opportunities for "technical people" as well as those with good "communication skills" (of a traditional kind)
|
This implies a "Computational Science/Internetics" minor including base information technology and optional elective in "science communication" prepared by physics/engineering
|
HTML version of Basic Foils prepared May 17 99
Full HTML Index
New Academic Curriculum suggest the use of distance education as it will allow a few experts to deliver instruction to more students and this
|
| Internetics technology such as TangoInteractive and WebWisdom (web-linked multimedia database) enables distance education |
Assume future of all education and training is "web-based" and that base Web Technology supports self paced asynchronous learning
|
| Both delivery mechanism and identification of knowledge nuggets (such as Internetics or computational science) that are smaller than a traditional degree suggests different approaches to certification |
HTML version of Basic Foils prepared May 17 99
Full HTML Index
| One needs both asynchronous (self paced) and synchronous learning |
| Asynchronous learning implies that a Web server supplies data from a multimedia Web Site or a backend database |
| Synchronous learning implemented by sharing SOME but not all information (guided tour) from an asynchronous site and combining it with audio video conferencing, chat rooms, white boards etc. |
| Must support unstructured modest size data sets ( a "few" pages from a single instructor) of disparate type and |
| Large more uniform structured datasets such as collections of courses from a large institution. |
| Web Site is unstructured and web-linked database is structured |
HTML version of Basic Foils prepared May 17 99
Full HTML Index
Need to support
|
Four Authoring Models
|
HTML version of Basic Foils prepared May 17 99
Full HTML Index
Universal Access aims at providing the capability of accessing (computer generated) information to all members of society -- current NSF wide focus
|
| "Webwindows" simplifies this task as implies all information has a pretty uniform interface and it appears that it is now technically possible to provide very powerful universal human computer interfaces |
| NeatTools allows general body signals (e.g. muscle movement) to be read into PC, calibrated and used to mimic keyboard and mouse |
| This technology allows enhanced multimodal HCI for those without disabilities |
| TangoInteractive's shared event model of collaboration allows one to share information with different optimized views for each participant |
HTML version of Basic Foils prepared May 17 99
Full HTML Index
So computer science research is very difficult these days as major challenge and opportunity is development of large scale distributed systems
|
| All projects today are collaborative -- communication revolution has dramatically increased need for travel -- I made 42 "business" trips in 1998 |
| Academia tends to give same person marketing and technical leadership responsibilities -- Industry separates |
| So NPAC will hopefully be restructured with 75% of activities transferred to 3 small businesses: WebWisdom.com(education), Translet(distributed computing), MindTel (HCI and universal access) |
| I can teach and work from a hermit's cave in a remote Adirondack hideaway |
HTML version of Basic Foils prepared May 17 99
Full HTML Index
| Distance Education is technically sound -- both synchronously and asynchronously -- today with very robust clear implementations available over next 2 years |
| Separate teaching mentoring and dormitory role of University |
| Teaching and grading naturally performed by centers of excellence which need at least an order of magnitude more customers than a single faculty in order to be able to justify investment in course preparation and maintenance |
| Continuing Education of growing importance and natural area to attack first -- corporate training is serious competition here and commercial deliverers have advantage? |
| Not obvious that will save large amounts of money as students will need more not less mentoring in today's information-overrich world -- quality of educational experience will become more uniform and better |
| Unfortunately too many universities in North East -- easier to implement in South where student body growing faster? |
HTML version of Basic Foils prepared May 17 99
Full HTML Index
| http://www.npac.syr.edu/users/gcf/pennstateeducjan99/ Internetics and engineering |
| http://www.npac.syr.edu/users/gcf/physicsfuturemar98 Internetics and Physics |
| http://www.npac.syr.edu/tango Collaboration System |
| http://www.npac.syr.edu/users/njm/jsuspring98/ Paper on teaching at Jackson State using TangoInteractive |
| http://www.npac.syr.edu/users/gcf/minnowapril99/index.html Web based education technology |
| http://www.npac.syr.edu/users/gcf/internetics Internetics Concept |
| http://www.webwisdom.org/sept1998/WebWisdomCertDescription.html Internetics Graduate or Continuing Education Certificate |
| http://suhep.phy.syr.edu/courses/ Phy 105,106, 307 |
| http://www.pulsar.org/ NeatTools and Related Universal Access work |
| http://www.mame.syr.edu/virstatics/FrameSet1.html Virtual Statics Lab |