Envy helped drive Internet Hall of Fame inductee Ira Fuchs into action.
A 2017 inductee into the Internet Hall of Fame, Fuchs is a co-founder of BITNET, a cooperative network between the City University of New York and Yale University that provided email, file transfer, and instant messaging to faculty, researchers and students throughout the world in the early 1980s.
“The fact is that I was envious of ARPANET users,” he said. “It was only available to a small number of schools and universities within the United States…and I thought this was great, but when is it going to be available and affordable to a larger group?”
The Internet Hall of Fame’s induction ceremony went to a new locale in 2019.
Previously hosted in Geneva, Berlin, Hong Kong and Los Angeles, this year is the first time that the awards were held in Latin America. Costa Rica was selected to organize the event in part because of the strong example it has set in using a collaborative approach to Internet governance and the systematic steps it's taken to help close the country’s digital divide.
In a recent interview with the Costa Rica News, Internet Society CEO and President Andrew Sullivan lauded the 11 inductees’ ingenuity in addressing the problems that their own communities have faced in establishing and increasing network access.
“Internet design has always allowed people to see a problem and get to work to solve it,” he said. “This year’s new members have given us great gifts of their creative approaches to the problems they saw on the Internet. We can be inspired by them to face the next round of challenges.”
Measuring the Internet is not exactly an easy task for Kimberly "kc" Claffy, a 2019 Internet Hall of Fame inductee.
The founder and director of the Center for Applied Internet Data Analysis and a resident research scientist at the University of California - San Diego’s Supercomputer Center, Claffy has had a hand in facilitating Internet widespread access across multiple disciplines.
In a recent video interview, Claffy acknowledged that cybersecurity has become a bigger issue than ever contemplated, in part because the web has grown faster than anticipated.
“We’re using an architecture that was deployed for a government experiment and it escaped from the lab,” she said.
Due to the rapid growth, it has moved beyond the intended scope of an 'end-to-end Internet.' The future will continue to involve multiple sources of data that will need to be tied together in order to find the truth behind questions asked, according to Claffy. Accomplishing this lies in accurate measurement.
By Leonard Kleinrock
Editor’s Note: A simple, two-line entry into an academic activity log at UCLA 50 years ago today helped mark the Internet's rather inconspicuous beginnings – when it was still being developed as ARPANET technology and wasn’t yet available for use by academics and researchers – let alone public, commercial applications.
2012 Internet Hall of Fame inductee Leonard Kleinrock was leading the team at UCLA responsible for this two-line entry, dated October 29, 1969, which undramatically stated, “Talked to SRI Host to Host.” This straightforward memo belied the event’s eventual impact: it was, in fact, the very first connection two computers had made in the experimental network.
That first connection ultimately crashed, but the global Internet that resulted has gone on to create billions of connections among people all over the world. In ways both good and bad. On the anniversary of that first connection, Dr. Kleinrock has shared with us his thoughts about where the Internet will take us, and what the next iteration will look like.
On July 3, 1969, four months before the first message of the Internet was sent, I was quoted in a UCLA press release in which I articulated my vision of what the Internet would become. Much of that vision has been...
Part of the Internet Hall of Fame’s inaugural class, Kleinrock was one of the developers of ARPANET, the forerunner of the modern Internet. His laboratory at the University of California-Los Angeles hosted the first ARPANET node computer and in October 1969, directed the network’s first transmission.
In a recent interview with the ...