In a
country where schools and universities have long championed rote learning,
a team of engineering students is doing pioneering work on “a submarine with a
brain of its own.”
Since December
2011, students at the Indian Institute of Technology-Bombay have been working
on Matsya, an autonomous underwater vehicle (AUV) that can control its own
movements and execute specific tasks without human intervention.
The
project, if successful, can change the future of defence in India by making
underwater vehicles intelligent enough to understand their surroundings and
react accordingly. For now, the unmanned vehicles used by the country’s naval
forces are not exactly intelligent machines—they’re piloted remotely.
This means they cannot venture into unknown waters and respond to unusual
activity or even an enemy submarine by themselves. Matsya’s technology could
train machines to act independently.
Military
forces in the US and China already
use unmanned submarines and the global AUV market is on track to more than double from
$211.8 million in 2016 to $497.9 million in 2022, thanks mainly to defense
demands. India’s foray into the field is fairly new, though. “While
space exploration has been unmanned for obvious reasons, development of
underwater unmanned vehicles started [in India] only recently,” the IIT
project’s 21-year-old team leader, Varun Mittal, told Quartz.
Matsya,
named after Hindu god Vishnu’s fish avatar, can ensure constant monitoring and
immediate intelligent action during military operations, eliminating the room
for human error. Using it, ecologists, too, can explore depths hitherto off
limits for humans or monitor ocean life more consistently and accurately.
Even
though Delhi Technological University, IIT-Madras, and other government
entities worked on AUVs before 2011, the Matsya team is
“aiming to make something no one in our country has achieved ever before.”
Their autonomous submarine is intelligent enough to re-attempt a task if the
previous try is unsuccessful.
Testing new waters
The AUV-IITB team comprises up to 30 undergraduate
students from the mechanical, software, and electronics verticals, who spend
late nights—9.30pm to 12.30am—every day after regular classes. On weekends,
they work longer. “It’s a challenge to motivate people when doing something
related to tech because it can take months or years of hardwork to get
results,” Mittal said.
Matsya’s
initial prototype operated on a simple “single-hull system” that could navigate
from one point to another and identify objects underwater. Seven years in the
making, its applications have extended to “dropping markers, shooting
torpedoes, grabbing objects, listening to underwater sound sources, [and]
identifying different colours and shapes all on its own,” Mittal said.
Each
year, the team recruits freshmen and seniors graduate. Despite the churn, their
performance is unaffected: They have won the best Indian team title at RoboSub,
an international AUV competition, for four consecutive years since 2012. During
RoboSub 2016, when 50 teams from 11 countries faced
off in San Diego, Matsya bagged the second place overall despite
being penalised for exceeding the 38-kg limit. The top
spot went to Caltech University by a slim margin, according to the breakdown of the scores. Last December, the team
came out on top at the National Institute of Ocean Technology’s (NIOT) Student
Autonomous Vehicle (SAVe) competition held in Chennai.
Next
up, it is creating a more hydrodynamic fifth-generation prototype for the 20th edition of RoboSub this
July. The competition is organized by the US Navy and the Association
for Unmanned Vehicle Systems International (AUVSI), the world’s
largest nonprofit organization with an exclusive focus on advancing unmanned
systems and the robotics community.
Swimming big
Currently,
the 3.5-feet Matsya ventures up to 150 feet underwater with batteries that last
four hours. In comparison, Boeing’s AUV is over 30 feet long and dives as
deep as 20,000 metres (6,096 feet).
Leena
Vachhani, an associate professor in IIT-B’s systems and control engineering
department who has been involved with project since it’s inception, describes
Matsya as “a mini AUV” designed for shallow-water tasks like “cleaning of water
tanks and lakes.” Once the IITians master its functionality, they hope to scale
up their “micro-submarine” technology for real world applications.
“Each
team leader comes up with his vision on his own,” Vachhani told Quartz. The
team is in talks with the Indira Foundation to map River Ganga’s dolphin
population using Matsya’s hydrophones, an underwater microphone that detects
sound waves. The Indira Foundation is an association of IIT-B alumni, providing
scholarships and funding student research.
IIT-B’s
design could prove revolutionary for Indian military operations: autonomously
shooting torpedos; placing and monitoring sensors on the seabed; tracking down and destroying
enemy submarines by itself. AUVs could also carry out rescue
missions, recover remnants from plane crash sites and locate black boxes,
Mittal says, like the AUVs looking for the missing
Malaysian Airlines plane.
Matsya
can also conduct routine subsea inspections like checking for leaking
underwater oil pipelines, while ecologists can use it to monitor flora and
fauna and environmental conditions.
Funds crunch
The IIT
students are strapped for funds, though. To build and showcase Matsya at
competitions, AUV-IIT needs Rs2.5 million ($36,743) this year, of which more
than half the amount goes towards purchasing sensors and cameras. Apart from
their institute’s limited budget allocation, the government’s Defense Research
and Development Organisation (DRDO), too, has contributed Rs1.5 million
($22,046) to the project. But the team desperately needs more.
Unfortunately,
private sponsors are reluctant to place their bets on a first-time experiment.
“Especially in our country, technology is just starting to boom here,” says
Mittal. “So people think a lot before investing.” The only way companies
provide sponsorships is in the form of discounted parts for Matsya.
“If
asked where do we stand now on a scale of one to 10, where one denotes only a
prototype and 10 a product of industry level, I would say we are currently
somewhere near six or seven,” said Mittal. Although there is no official launch
date for Matsya’s defense or ecological deployment, he says an optimised,
functioning version of their vehicle could be ready within four years.
Source :- Quartz India
0 Comments