Tuesday, August 23, 2011

Google at the Joint Statistical Meetings in Miami



The Joint Statistical Meetings (JSM) were held in Miami, Florida, this year. Nearly 5,000 participants from academia and industry came to present and discuss the latest in statistical research, methodology, and applications. Similar to previous years, several Googlers shared expertise in large-scale experimental design and implementation, statistical inference with massive datasets and forecasting, data mining, parallel computing, and much more.

Our session "Statistics: The Secret Weapon of Successful Web Giants" attracted over one hundred people; surprising for an 8:30 AM session! Revolution Analytics reviewed this in their official blog post "How Google uses R to make online advertising more effective"

The following talks were given by Googlers at JSM 2011. Please check the upcoming Proceedings of the JSM 2011 for the full papers.

Google has participated at JSM each year since 2004. We have been increasing our involvement significantly by providing sponsorship, organizing and giving talks at sessions and roundtables, teaching courses and workshops, hosting a booth with new Google products demo, submitting posters, and more. This year Googlers participated in sessions sponsored by ASA sections for Statistical Learning and Data Mining, Statistics and Marketing, Statistical Computing, Bayesian Statistical Science , Health Policy Statistics, Statistical Graphics, Quality and Productivity, Physical and Engineering Sciences, and Statistical Education.

We also hosted the Google faculty reception, which was well-attended by faculty and their promising students. Google hires a growing number of statisticians and we were happy to participate in JSM again this year. People had a chance to talk to Googlers, ask about working here, encounter elements of Google culture (good food! T-shirts! 3D puzzles!), meet old and make new friends, and just have fun!

Thanks to everyone that presented, attended, or otherwise engaged with the statistical community at JSM this year. We’re looking forward to seeing you in San Diego next year.

Tuesday, August 16, 2011

A new MIT center for mobile learning, with support from Google



MIT and Google have a long-standing relationship based on mutual interests in education and technology. Today, we took another step forward in our shared goals with the establishment of the MIT Center for Mobile Learning, which will strive to transform learning and education through innovation in mobile computing. The new center will be actively engaged in studying and extending App Inventor for Android, which Google recently announced it will be open sourcing.

The new center, housed at MIT’s Media Lab, will focus on designing and studying new mobile technologies that enable people to learn anywhere, anytime, with anyone. The center was made possible in part by support from Google University Relations and will be run by myself and two distinguished MIT colleagues: Professors Eric Klopfer (science education) and Mitchel Resnick (media arts and sciences).

App Inventor for Android—a programming system that makes it easy for learners to create mobile apps for Android smartphones—currently supports a community of about 100,000 educators, students and hobbyists. Through the new initiatives at the MIT Center for Mobile Learning, App Inventor will be connected to MIT’s premier research in educational technology and MIT’s long track record of creating and supporting open software.

Google first launched App Inventor internally in order to move it forward with speed and focus, and then developed it to a point where it started to gain critical mass. Now, its impact can be amplified by collaboration with a top academic institution. At MIT, App Inventor will adopt an enriched research agenda with increased opportunities to influence the educational community. In a way, App Inventor has now come full circle, as I actually initiated App Inventor at Google by proposing it as a project during my sabbatical with the company in 2008. The core code for App Inventor came from Eric Klopfer’s lab, and the inspiration came from Mitch Resnick’s Scratch project. The new center is a perfect example of how industry and academia can collaborate effectively to create change enabled by technology, and we look forward to seeing what we can do next, together.

Saturday, August 13, 2011

Our Faculty Institute brings faculty back to the drawing board

Posted by Nina Kim Schultz, Google Education Research

Cross-posted with the Official Google Blog

School may still be out for summer, but teachers remain hard at work. This week, we hosted Google’s inaugural Faculty Institute at our Mountain View, Calif. headquarters. The three-day event was created for esteemed faculty from schools of education and math and science to explore teaching paradigms that leverage technology in K-12 classrooms. Selected via a rigorous nomination and application process, the 39 faculty members hail from 19 California State Universities (CSUs), as well as Stanford and UC Berkeley, and teach high school STEM (Science, Technology, Engineering and Math) teachers currently getting their teaching credentials. CSU programs credential 60 percent of California’s teachers—or 10 percent of all U.S. K-12 teachers—and one CSU campus alone can credential around 1,000 new teachers in a year. The purpose of gathering together at the Institute was to ensure our teachers’ teachers have the support they need to help educators adjust to a changing landscape.

There is so much technology available to educators today, but unless they learn how to use it effectively, it does little to change what is happening in our classrooms. Without the right training and inspiration, interactive displays become merely expensive projection screens, and laptops simply replace paper rather than shifting the way teachers teach and students learn. Although the possibilities for technology use in schools are endless, teacher preparation for the 21st century classroom also has many constraints. For example: beyond the expense involved, there’s the time it costs educators to match a technological innovation to the improvement of pedagogy and curriculum; there’s a distinct shift in thinking that needs to take place to change classrooms; and there’s an essential challenge to help teachers develop the dispositions and confidence to be lifelong evaluators, learners and teachers of technology, instead of continuing to rely on traditional skill sets that will soon be outdated.

The Institute featured keynote addresses from respected professors from Stanford and Berkeley, case studies from distinguished high school teachers from across California, hands-on technology workshops with a variety of Google and non-Google tools, and panels with professionals in the tech-education industry. Notable guests included representatives from Teach for America, The New Teacher Project, the Department of Education and Edutopia. Topics covered the ability to distinguish learning paths, how to use technology to transform classrooms into project-based, collaborative spaces and how to utilize a more interactive teaching style rather than the traditional lecture model.

On the last day of the Institute, faculty members were invited to submit grant proposals to scale best practices outside of the meeting. Deans of the participating universities will convene at the end of the month to further brainstorm ways to scale new ideas in teacher preparation programs. Congratulations to all of the faculty members who were accepted into the inaugural Institute, and thank you for all that you do to help bring technology and new ways of thinking into the classroom.



This program is a part of Google’s continued commitment to supporting STEM education. Details on our other programs can be found on www.google.com/education.

Thursday, August 11, 2011

Culturomics, Ngrams and new power tools for Science



Four years ago, we set out to create a research engine that would help people explore our cultural history by statistically analyzing the world’s books. In January 2011, the resulting method, culturomics, was featured on the cover of the journal Science. More importantly, Google implemented and launched a web-based version of our prototype research engine, the Google Books Ngram Viewer.

Now scientists, scholars, and web surfers around the world can take advantage of the Ngram Viewer to study a vast array of phenomena. And that's exactly what they've done. Here are a few of our favorite examples.

Poverty
Martin Ravallion, head of the Development Research Group at the World Bank, has been using the ngrams to study the history of poverty. In a paper published in the journal Poverty and Public Policy, he argues for the existence of two ‘poverty enlightenments’ marked by increased awareness of the problem: one towards the end of the 18th century, and another in the 1970s and 80s. But he makes the point that only the second of these enlightenments brought with it a truly enlightened idea: that poverty can be and should be completely eradicated.



The Science Hall of Fame
Adrian Veres and John Bohannon wondered who the most famous scientists of the past two centuries were. But there was no hall of fame for scientists, or a committee that determines who deserves to get into such a hall. So they used the ngrams data to define a metric for celebrity – the milliDarwin – and algorithmically created a Science Hall of Fame listing the most famous scientists born since 1800. They found that things like a popular book or a major controversy did more to increase discussion of a scientist than, for instance, winning a Nobel Prize.

(Other users have been exploring the history of particular sciences with the Ngram Viewer, covering everything from neuroscience to the nuclear age.)


The History of Typography
When we introduced the Ngram Viewer, we pointed out some potential pitfalls with the data. For instance, the ‘medial s’ ( ſ ), an older form of the letter s that looked like an integral sign and appeared in the beginning or middle of words, tends to be classified as an instance of the letter ‘f’ by the OCR algorithm used to create our version of the data. Andrew West, blogging at Babelstone, found a clever way to exploit this error: using queries like ‘husband’ and ‘hufband’ to study the history of medial s typography, he pinned down the precise moment when the medial s disappeared from English (around 1800), French (1780), and Spanish (1760).

People are clearly having a good time with the Ngram Viewer, and they have been learning a few things about science and history in the process. Indeed, the tool has proven so popular and so useful that Google recently announced that its imminent graduation from Google Labs to become a permanent part of Google Books.

Similar ‘big data’ approaches can also be applied to a wide variety of other problems. From books to maps to the structure of the web itself, 'the world's information' is one amazing dataset.

Erez Lieberman Aiden is Visiting Faculty at Google and a Fellow of the Harvard Society of Fellows. Jean-Baptiste Michel is Visiting Faculty at Google and a Postdoctoral Fellow in Harvard's Department of Psychology.