Here we publish the full text of the convocation address delivered by Dr. A.P.J. Abdul Kalam, the then Scientific Adviser to Raksha Mantri and Secretary, Department of Defence, Research & Development, at the 75th Convocation of University of Mysore on Feb. 25, 1995. — Ed.
by Dr. A.P.J Abdul Kalam
Dare to Dream: I am indeed delighted and honoured to participate in this 75th Convocation of University of Mysore. I have been thinking about what to share with you on this important occasion when you are entering the most eventful phase of your life after years of learning. I know that for the past twenty-years or so you have been continuously taught various aspects by teachers. I am, therefore, not going to extend this process. Instead, I would like to share with you a few of my experiences, one at a place very close to you and others at Trivandrum and Hyderabad.
These are the experiences where people have dared to dream and met with success. Of course, we have to recognise that success is always the result of sweat of individuals and also coupled with many failures. The place close to you is the site of pilgrimage not only for me but for every one who practices rocketry in our country. Let me first tell you something about this.
First War Rocket: When I was studying in school and college, Srirangapatna interested me for two reasons — the place was the scene of battle against foreign rule and also there was a reference to a new weapon introduced. In 1960, when I visited Srirangapatna with my friends, we were thrilled to walk around this historical town. We searched for the Turukhan-hally Fort built during Hyder Ali – Tipu Sultan times and used for making rockets, way back in 1794. I had a tremendous disappointment when I did not see any permanent evidence or historical recordings in Srirangapatna regarding creation or development of first war rocket in the world.
Later, in 1963, I was at Wallop’s Island, the rocket launch facility of NASA in USA, in connection with a collaborative programme of launching of sounding meteorological rockets for research of upper atmosphere. In the lobby of their command-control centre, I saw a prominently displayed picture. The war dress and the colour of the soldiers’ skin attracted my attention. Some dark complexioned soldiers were firing rockets on their white skinned opponents. The label on the painting read, “The world’s first war rocket.” It was indeed a great pleasure to see an Indian feat acknowledged on the other side of the planet. I felt excited with happiness.
I started reading the history of rockets. I had a dream I must see Tipu’s rockets. Time continued to pass. Rocket technology engulfed me and India’s first Satellite Launch Vehicle SLV-3 was launched. In 1980, we had an opportunity to visit London. There, I saw two of the war rockets captured by British at Srirangapatna, displayed at Museum of Artillery at Woolwich in London with the heading “India’s War Rocket.” Probably, Europe learnt rocketry from our Srirangapatna rocket in the eighteenth century! It was a great thrill to see an Indian innovation on a foreign soil, well-preserved and with facts not distorted.
I got the performance of these 2 kg rockets, 50 mm in dia. and about 250 mm in length analysed by our designers. What a simple and elegant design, effectively used in war ! Surely, Hyder – Tipu Sultan would have had talented men who could look at propulsion, material, ignition and build rockets and fly them for war operations. In fact, when we look back to eighteenth century ambience, it is a technology marvel.
I would like to declare today that this land is the birth place of war rockets in the world and offer it my reverence and respect. The tradition continues.
Prof. Vikram Sarabhai – Man of Vision: Nations advance along the course charted by great dreamers. Let me narrate to you an incidence which occurred in 1968. We were working on the configuration of India’s satellite launch vehicle in Thumba. One day, Prof. Vikram Sarabhai, the then Chairman, Indian Space Research Organisation (ISRO), brought Prof. Curien, President, CNES, France, to our laboratory. France was developing Diamont satellite launch vehicles at that time. After focussing on our planned efforts, as an almost spontaneous reaction, Prof. Sarabhai proposed that we should fly India’s fourth stage of SLV-3 as the Diamont’s fourth stage. We had not flown even a meteorological rocket by that time, but Prof. Sarabhai was aware of the possibilities and trusted the capabilities of his team. His dream of SLV-3 fourth stage getting into a French launch vehicle finally came true in the form of apogee boost motor for APPLE satellite, flown by ARI
ANE, the European launch vehicle. This is the vision ! He gave us a 15-year jump in our efforts. With three experimental Indian Remote Sensing (IRS) Satellites in orbit and their images being received in the USA, Satellite Ground Stations with Indian Satellite Launch Vehicle PSLV launching our own satellite from our own land, his dream visualised in 1965 has taken form through the people born at different times. Nations are thus built by men of vision who dream and prepare ground for the coming generations.
Super Computer and Parallel Processing: In 1986, Dr. V.S. Arunachalam and myself went to US to buy a Super Computer with 400 mega flop speed. The Deputy Secretary in the Department of Defence at Pentagon first put us into long series of technical discussions and then regretted the sale on the pretext that we will use it to develop long range missiles detrimental to the security interests of the world. Travelling back disappointed, Dr. Arunachalam said, “Let us make our own Super Computer.” Today, India has a 32 node 1000 M Flops PACE SPARC 10 machine available for other countries to buy. Once we decide, we work and realise even tough dreams. That is what India expects from you.
A team of young scientists and engineers under the leadership of Dr.G.Venkataraman formed ANURAG, that is, Advanced Numerical Research and Analysis Group, to develop a parallel processing computer specially for aircraft design. At that time, AGNI also was taking shape. The payload of AGNI would re-enter the atmosphere at 15 times the speed of sound. Even at this speed, we had to keep the vehicle under control and while the payload outer temperature goes to 3000 degrees centigrade, inside of payload the ambient has to be less than 30 degrees centigrade. We have in India supersonic wind tunnel. We needed hypersonic wind tunnel for designing the AGNI payload. Various wind tunnel data could provide the loads experienced during the re-entry phase of the system. There were tunnels abroad but once they knew the application, they were refused.
This time our high-tech academic institutions rose to the occasion. Prof. S.M. Deshpande of Indian Institute of Science (IISc.) with five young bright fresh scientists from DRDL with background of mathematics and fluid dynamics, developed Computational Fluid Dynamics Software for Hypersonic Regimes in just six months. This software is the original contribution with minimum computational facility available in the world. No country would have given us this type of software. But it was done through optimum partitioning, sequencing and paralleling the task. This software solution has established that brain-power excels man-made machines, even super-computers.
I have seen that India can build her own super-computer; India can fly its own rocket system within and outside the country. Both the dreams have come out of visions. This convocation ambience, where hundreds of young graduates are entering their professional lives, is ideal for thinking about the need of visions for the next two decades. What could they be?
Vision for the Nation: With the growing population, increasing unemployment, unaffordable medical care and changing value system, our society is going through certain turbulent situation. The society looks forward to prosperity. In a decade or two, prosperity and good life is possible if the nation has the vision. Vision generates progress. As an example, we can study the period between 1857 and 1947; it was the vision of freedom which not only got us independence but during the same period in India, vision of independence generated many leaders of excellence in politics, philosophy, history, science and technology and industry. Again, can we dream for a vision to make this nation great — a nation with prosperity and peace?
Enlightened Citizens: The vision of “Enlightened Citizens” calls for a mission of integrating education, occupation and health care as one single entity. For development of self, society and nation, it is essential that hundreds of clusters of villages are divided into multiple blocks of 20,000 families. And each block can be considered as a progress group with certain number of hospitals, schools and agriculture farms which could be growing cash crops, aromatic plants or fish farms.
The experience in Kerala and Tamil Nadu indicates that integration of education and occupation resulted in small families, in addition to promoting self- sustained good life. This enlightened citizen package can be extended to the whole country.
Networking of Major Rivers: We recently conducted a workshop on the subject based on Dr. K.L. Rao’s report “National Water Grid” and Capt. Dastur’s proposal of “Garland Canal.” This has all the dimensions of becoming an important vision for the nation. Nation can aim at linking multiple rivers resulting in water distribution, flood and drought control, navigation and power generation.
Above all, this will bring together the country as it happened during the independence movement, with potential revolution in agricultural output and employment generation. Experts have indicated that this is the right time to take this as a major programme as technology exists today and the country has the capability to finance such a programme.
Today we have: satellite mapping of water resources and river flow aspects; capability to use nuclear energy for large tunnelling in mountains to direct the river flows and technological strength in mechanical, civil and communication engineering. It may be a 20-year programme for the nation.
Energy Everywhere: Similarly, the third area is “Energy Everywhere.” We believe by year 2000-plus, we will have to generate almost 50% more power. Probably, we will have to look for environment clean power. In addition to hydro and thermal energy, the non-conventional energy and nuclear energy has to contribute to power generation for which technological innovation is essential. Even hydro and thermal energy would need newer technologies so that they can provide affordable electrical energy.
Conclusion: Friends! Vision for the nation is in front of you. These dreams are bigger than the individual or group of people. Great things do not just occur; you have to dream about them and work to realise them. You can be a partner to the visions for the country and begin to experience dreams coming true. What you are is God’s gift to you. What you make out of yourself will be your gift to God. I wish you a challenging profession in your respective fields and recall the famous lines:
“The chances have just begun
The best jobs haven’t been started,
the best work hasn’t been done.”
source: http://www.starofmysore.com / Star of Mysore / Home> Feature Articles / Saturday – August 01st, 2015