Credit: Shutterstock/monicaodo
Rutgers’ Dipankar Raychaudhuri in the forefront of
creating a mobile-friendly internet that can handle billions of devices and
smart gadgets
The Internet of Things includes smart objects like
fitness monitors, smart watches, smartphones and home thermostats.
Newswise, October 24, 2016 — This century, our world will be
flooded with hundreds of billions of smartphones, gadgets, sensors and other
smart objects connected to the internet.
They will perform myriad services, such as monitoring our
health, helping run households and boosting driver safety. At Rutgers, Dipankar
“Ray” Raychaudhuri is at the forefront of efforts to redesign the
internet to handle the enormous increase in traffic.
“The traffic that comes from mobile devices into the internet
has been increasing exponentially. It used to be 10 percent five years ago –
now it’s over 50 percent,” said Raychaudhuri, a distinguished professor in the Department of Electrical and
Computer Engineering in the School of Engineeringand director of the WINLAB (Wireless
Information Network Lab).
“As a result, mobile wireless capacity is beginning to run
out,” he said.
“That’s why cellular operators have to give you data limits.
When you try to use a mobile phone and you’re downloading a web page, it stalls
unexpectedly at times and you have to wait for the signal to improve. Also,
there are all kinds of holes in the security system that need to be fixed.”
In 2010, the National Science Foundation (NSF) launched a Future Internet Architecture initiative
and invited academics to take a fresh look at the internet. Raychaudhuri and
colleagues proposed a“MobilityFirst” project aimed at reimagining the
Internet, winning major NSF funding.
The MobilityFirst project, now in its sixth year, includes
experts at Rutgers, the University of Massachusetts-Amherst, Massachusetts
Institute of Technology, Duke University, University of Michigan, University of
Wisconsin-Madison and University of Nebraska-Lincoln.
The NSF provided $3.275 million to Rutgers from 2010 to 2014
and $2.9 million since 2014, said Raychaudhuri, the project’s principal
investigator.
“The internet has a lot of duct tape on it,” he said. “It
works very well, but it has some limitations, especially when you try to do
more mobile communications. How to re-architect the internet is a very
ambitious goal.”
The MobilityFirst project is centered on shifting from the
current internet protocol (IP) – an elegant, address-based
routing technology designed in the 1970s – to name-based routing, he said.
An IP address is a unique number for an internet device,
according to the Internet
Corporation for Assigned Names and Numbers (ICANN), which allocates
the numbers used to route internet traffic to devices.
MobilityFirst’s name-based approach would be a fundamental
change. Names would represent people, mobile phones, internet devices, small
sensors or any other objects connected to the internet, said Raychaudhuri, a
native of India who received his master’s and doctoral degrees in electrical
engineering from the State University of New York, Stony Brook.
The benefits of MobilityFirst include more flexible services,
better security, support for mobility across many technologies, efficiency and
the ability to handle large volumes of traffic and data.
“We are not expecting to rip out the old internet,”
Raychaudhuri said. “The internet has a lot of nice properties that we don’t
want to lose.
“But one of the challenges for today’s internet is that with
all these different modes of communication, some of them such as mobility
services, broadcasting or content delivery are not handled very efficiently,
and this could lead to flooding the network with too much data.”
The different modes of communication include the “Internet
of Things” – a swiftly flowering field featuring smart objects, such
as fitness monitors and smart watches, home thermostats and lighting,
smartphones and devices with sensors.
Smart objects are expected to become pervasive in society,
managing energy use in homes, monitoring food consumption, diagnosing health
problems, monitoring cybersecurity and making driving safer, among other benefits.
Some 50 billion smart objects are anticipated by 2020, and 1
trillion sensors soon thereafter, according to the NSF.
“The Internet of Things has a lot of potential, but it needs
fast and low delay networks that can ensure that data are received in time,”
Raychaudhuri said.
“A lot of people are working on how to make cellular networks
faster – so-called '5G' –
and more functional, and many of the goals are similar to what we have in the
MobilityFirst project.”
Three MobilityFirst trials are underway or planned, including
one with SES,
a satellite services company with a Princeton office. SES is using the
MobilityFirst system to deliver content closer to its users, reducing the cost
and improving user experience.
The second trial – with the University of Wisconsin-Madison –
will show how an internet service provider’s circuits can be extended to offer
mobile service.
The third trial, led by the University of
Massachusetts-Amherst in Texas, will look into how to do targeted emergency
messaging in a disaster-recovery scenario, such as following a terrorism
incident or a major hurricane like Katrina
in 2005.
The Internet of Things also covers virtual reality and
augmented reality, with people wearing special glasses that, for example,
provide directions as they walk or show the stores in a shopping center, said
Raychaudhuri, who joined Rutgers in 2001 after working at a startup company
called Iospan Wireless in Silicon Valley, as well as the NEC USA C&C
Research Laboratory and Sarnoff/ RCA Laboratories, both in Princeton, New
Jersey.
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