First, on Monday last week, I read in the news that the UK government announced the creation of a new Institute for Web Science. Prime Minister Gordon Brown said that 30 million pounds will be used to create this institute to help make "'public data' public," and act as an bridge between research and business.
Then, this Monday, I read Tim O'Reilly's excellent article on "the State of the Internet Operating System," in which he talked about how the way we organize computing systems in the world is completely different from how we now (still) teach computing architectures. He is right. When you think about how we enable a user to type in some keywords and get back, say, pictures of a moose, there are a lot of moving parts that all have to work together seamlessly. These components include server farms, IP and caching networks, parallel large-scale data analysis, image and facial recognition algorithms, and maybe even location-aware data services. He said that the "Internet Operating System" components includes search engines, multimedia access (including all its glory of access control, caching, analytics), systems relating to user identity and your social network, payment systems, advertising, activity streams, and location. How many universities can say that they have experts in all of these areas? These topics are often only covered in computer science departments as either advanced topic courses, or, worse, not offered at all.
What does these two pieces of news tell us about the state of the world? There is wide recognition that the Web has changed the world.
"Well, duh!" you say. But there is more…
Finally, today, I read that Rensselaer Polytechnic Institute (RPI) has created the nation's first undergraduate degree in Web Science. The news release said that the students in this interdisciplinary degree program will investigate issues on the Web relating to "security, trust, privacy, content value." RPI President Shirley Ann Jackson was quoted as saying: "With these new degree programs, students and researchers here at Rensselaer will help to usher in a new era of understanding and study of the Web from its social and economic impacts to the evolution of data". Amen!
When I got my degrees, the university taught compilers, complexity theory, AI, algorithms, operating systems, and databases. While these courses enable me to learn new techniques such as MapReduce, large-scale analytics, visualization, etc., I often feel that my education only equipped me to prepare for the Web world, but not actually prepare me for the Web world. How I wished that my undergraduate curriculum included required studies on security and privacy, large-scale data analytics, advanced data mining techniques, HCI research methods like remote user studies, eyetracking, survey methods, or even detailed study of recommendation algorithms and systems.
Am I saying that compilers and theory don't matter anymore? Of course not. They are still excellent academic research pursuits in their own domains, but there might be other new topics that should make it into the curriculum now to better prepare the students for a new world. The construction of the new social Web (that is ever changing) requires a different set of skills! The world has changed, and so should the computing science curriculum as well.
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