A church as the control room, the bishop\'s house doubling up as the office, a bicycle to ferry the rocket and naked eyes to track the smoke plume. That was how it was in the early 1960s when India\'s space odyssey was taking its first baby steps.
It has been an epic journey to the far frontiers of the universe from those early days in the town of Thumba in the southern Indian state of Kerala. India\'s space programme has since launched lunar probes, built satellites, even for others, ferried foreign satellites up and is now working on a Mars mission.
The launch of a US-made Nike-Apache Sounding Rocket from Thumba on Nov 21, 1963, marked the beginning of not just an exploration into space but also a thriving industry. India now launches the satellites of other countries as a commercial proposition.
As there were no buildings at the Thumba Equatorial Rocket Launching Station (TERLS) then, the first office was in the bishop\'s house and the St. Mary Magdalene church building there.
\"During those days infrastructure was not available. We utilised whatever was available. In Bangalore, we even converted a toilet into a data receiving centre for our first satellite Aryabhata,\" U.R. Rao, former chairperson of the Indian Space Research Organisation (ISRO), said.
Today, India is a serious emerging player in the global satellite launch and manufacturing industry and the market leader in vending images sent by its remote sensing/earth observation satellites.
On Feb 25 this year, for instance, the Indian rocket, Polar Satellite Launch Vehicles (PSLV), placed in orbit seven satellites, including the Indo-French satellite SARAL.
In April 2008, the PSLV put into orbit 10 satellites at a go - the highest ever.
Last year, India touched a major milestone-the 100th space mission with the launch of two foreign satellites. India has successfully launched 35 foreign satellites for a fee since 1999.
The country has also been successful in launching medium-weight satellites for overseas agencies.
Apart from launching third party satellites, India has also jointly built two heavy satellites - 3,453 kg W2M and 2,541 kg Hylas - for the French agency EADS Astrium.
A high point in the space journey has been the moon mission Chandrayaan-1 - the Hindi term for moon vehicle - in 2008. Chandrayaan-2 is slated for 2014.
The government has also sanctioned a mission to Mars, which is expected to take place this year.
India\'s many achievements in rocket and satellite launches rest on trials and tribulations that its space scientists underwent during the initial days.
Though India has been flying sounding rockets (experimental rockets) from Thumba since 1963, efforts to launch a rocket with a heavier payload actually started with the Satellite Launch Vehicle-3 (SLV-3) in 1980.
By that time, India had already built and launched two satellites - the 358 kg Aryabhata and the 444 kg Bhaskara-1.
\"Starting from the scratch was the challenge before us while we began the Aryabhata project. A majority of the team members were new to this field.
\"The time given was just two and a half years so it could be flown in a Russian rocket. Building clean room, thermo vacuum room and other facilities were all new,\" recalled Rao.
After Bhaskara-1, India built the APPLE communication satellite and laid the ground for the INSAT series satellites possessing multiple capabilities - telecom, television, meteorological and imaging.
\"Building the four-in-one satellite was a challenge. While we designed the INSAT-1A satellite, it was made by Ford Aerospace and was launched by an American rocket. The satellite had a short life,\" Pramod Kale, the first project director for INSAT now retired, told IANS.
Success came from INSAT-1B onwards. It ushered in the communication revolution in India, according to Rao.
According to ISRO chief K. Radhakrishnan, India today is internationally viewed as a front-running space faring nation.
India will aggressively pursue the international market for satellites in the future, he said.
Looking to up capabilities, the country, which presently develops satellites in the 3-3.2 tonne class lift of mass and of around 8 kW power, is developing a four-tonne class communication satellite. The GSAT-11 will have around 14-kw power and a Ka/Ku band hybrid payload and there are plans to develop a six-tonne class communication satellite with even higher payload capacity, Radhakrishnan said.
And it\'s not all about money or commerce.
According to scientists, the ambitious space programme is evolving with the impetus for national imperatives and for social and economic well-being of the people.
As President Pranab Mukherjee said recently: \"Space-based applications like tele-education and tele-medicine have enabled greater access to our rural population to these basic needs.\"
India uses its satellites for civilian (earth observation/remote sensing, communication, meteorology) and defence purposes.
Even as India was perfecting satellite technology, its rocket scientists were toiling to get the space vehicle right as the SLV and Augmented SLV (ASLV) missions gave mixed results.
\"The two ASLV failures were the real test beds for perfecting the PSLV rocket. Issues like rocket tumbling, monitoring of rocket\'s main forces, detailed profiling of wind and other issues were done,\" S.C. Gupta, former director of the Vikram Sarabhai Space Centre (VSSC) part of ISRO, said.
The Indian space agency has now three PSLV variants.
\"As technology was not available we developed our own navigational systems, propellant and all the elements of the launch vehicle with help of Indian industry,\" Gupta recalled.
Scientists are busy perfecting the technology for the heavier Geosynchronous Satellite Launch Vehicle (GSLV) so that heavy communication satellites can be launched.