2019 is the year nano-satellites will deliver internet access to all, Forbes magazine predicted in November 2018.
A couple of months later, India signed up to train 45 countries in small satellite making; two months after that, in a historic launch on April 1, 2019, India launched 28 international nano-satellites along with the homegrown for DRDO from Sriharikota.
ISROs PSLV C45 lifted off from the Satish Dhawan Space Centre in Sriharikota at 9:27 AM, Monday, in a mission that could see the space agency manoeuvering satellites of global customers in various orbits and orbital experiments, including on maritime satellite applications and systems to detect enemy radar.
Mission report
At the end of a 27-hour countdown on Monday, ISRO used a new variant of the dependable Polar Satellite Launch Vehicle (PSLV-QL) to launch these satellites from its second launch pad at the Sriharikota spaceport. In this ongoing mission, ISRO scientists will be placing the satellites and payloads in three different orbits.
The PSLV C45 carried and shot off the 436 kg primary satellite in less than an hour after liftoff, followed by 25 3U , two 6U type and one 2U type nano satellites from Lithuania (two), Spain (one), Switzerland (one) and the US (24).
DRDO’s electronic intelligence was the first to be placed in a 749 km orbit, at around 17 minutes from liftoff. It will carry out electromagnetic spectrum measurement over the course of the next few months, coming right on the heels of Mission Shakti.
Thirteen of the 28 nanosats, injected into orbits in its PS4-fourth stage, were in orbit by 11:20 AM according to the space agency. These third-party satellites have been launched under commercial arrangements, the ISRO said.
Orbital experiments onboard
This is the first time ISRO is this close to providing a micro-gravity environment for research and academic institutes to perform experiments. The huge potential benefits for lower-income countries to improve economic opportunities, communication, education, and more through nanosatellites also remain in front view.
The three missions sent aboard the PSLV C45 craft were designed by students and a startup. Exceed Space, for one, made history by becoming India’s first private company (and second ever) to go to space, where it will test the feasibility of a new way to clean up space debrisa cause for growing concern after every launch.
After the PS-4 adjusts itself into its track at 500km altitude, it will house three experiments inside it for 5-6 months in microgravity, according to FirstPost.
An Advanced Retarding Potential Analyzer for Ionospheric Studies (ARIS) from Indian Institute of Space Science and Technology (IIST) in Kerala has made it to the mission, besides an Automatic Identification System (AIS) from ISRO and an Automatic Packet Repeating System (APRS) from Radio Amateur Satellite Corporation, India.
Why ISRO needs to think small
Nano-satellites are small satellites weighing between 1-10 kg, with smaller guidance systems, altitude controls, computers, sensors, and solar panels. Although the technology has been around for quite some time, its potential to disrupt global telecommunications especially in lower-income economies is finally getting its due recognition.
A system of 200 nanosatellites is believed to do the trick in creating a global network of reliable and affordable internet and telecommunications services, helping reach the unreachable. Not only is the operational cost significantly less, often outperform traditional satellite telecommunication services in many ways.
With frequent failures of large government satellitespacked with multiple state-of-the-art sensors to provide exquisite detail of the space weather environment, and small satellites may be the only way of averting a bleak future, says Daniel Baker, director of the University of Colorados Laboratory for Atmospheric and Space Physics.
That said, the small-satellite industry is presently booming with . US-based aerospace player SpaceWorks Enterprises claims nano/microsatellite launches have increased 40% a year since 2011 and is expected to rise 10% by 2023. With fast-moving private players from other countries, ISRO was looking for ways to improve its marketing game and retain its hard-earned advantage.
By entering the business of launching third-party satellites into space, ISRO’s small satellite launch vehicle (SSLV) programme has finally received the boost it needs to stay in orbit.
India’s space aspirations and achievements
Nanosats which were used predominantly for affordable remote sensing until now, being developed for wider communications.
India which is en route to complete and internet can benefit greatly from its nanosatellite system going live; it can fast-track that future, especially for people in remote areas where laying of cables is cumbersome. Coverage and affordable services can have a large impact; besides will add to India’s defence capability after A-SAT.
In January this year, ISRO launched a programme named Unispace Nanosatellite Assembly and Training by ISRO (UNNATI) to “share its knowledge and expertise in space sector to other countries that can benefit from it.”
This is another first for the space agency, a week after it made history with the DRDO in achieving anti-satellite missile (A-SAT) that’s allowed India to enter an elite four-member grouping.
In a similar mission last November, ISRO launched Indias first earth observation Hyperspectral Imaging Satellite (HySIS) and 30 commercial foreign satellites, including one micro and 29 nanosatellites that are currently engaged in earth observation, communication, Internet of things (IoT), and scientific experiments from various countries.
The latest and PS4 orbital experiments mark a successful prologue for ISRO’s highly-anticipated Chandrayaan-2 mission to the moon.
Prarthana Mitra is a Staff Writer at Qrius