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Higher Education in India: What should our priorities be?. Naushad Forbes Forbes Marshall, Pune Science, Technology and Society, Stanford University. Overview. India as a huge producer of Technical and Management professionals - some numbers
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Higher Education in India: What should our priorities be? Naushad Forbes Forbes Marshall, Pune Science, Technology and Society, Stanford University Higher Education, Dec 2005
Overview • India as a huge producer of Technical and Management professionals - some numbers • So much Quantity, and some Quality at the Undergrad technical and management end • What constraints with the current system? • What should our priorities be? Higher Education, Dec 2005
The current state of higher education in India • We are a huge producer of Technical and Management professionals – but see this as a BE factory! • We produce more BE s (400,000) than the US and Europe combined, second only to China (650,000) • Quality at the Undergrad technical and management end – the IITs, IIMs and at the second tier a few private and public institutions like BITs, Thapar & Roorkee • Now much focus on building a research culture and graduate (esp PhD) programmes in the IITs • The void outside the technical fields – not even ONE institution that can claim to be anywhere near world-class, either at the graduate or undergraduate level Higher Education, Dec 2005
Technical and Management Education • We were an early investor in Technical and Management Education with world-class institutes in the IITs (for undergraduate education) and IIMs and a few others • Massive recent growth in private technical education in some states • 5 states (TN, AP, Maharashtra, Karnataka, Kerala) account for 31% of population but 69% of engineers • 5 states (UP, Bihar, Gujarat, Rajasthan, Orissa) account for 43% of population but 14% of engineers • This explains why our IT industry is located where it is, but the BE factory has serious quality issues Higher Education, Dec 2005
The IITs (and IIMs): Quality in education • Highly selective system ensures truly world-class students at the undergrad level • Not just a selection mechanism, but high quality education • No significant resource constraint • Now a heavy emphasis on graduate education and on building a research culture • Strong recruitment of faculty at some institutes, such as IIT Bombay Higher Education, Dec 2005
The difference with Graduate Technical Education • We were also an early investor in Graduate technical education - in 1990, India equalled PhD production in Science and Engineering for China+Japan+S Korea+ Taiwan • China in 2004 second only to US – up from nothing in 1990 • Growth of PhD technical education since 1990 has been very slow, while undergraduate engineering (and MBAs) each grew more than ten-fold • Some signs of life now (expanding PhD programme at the IITs), but a very long way to go Higher Education, Dec 2005
University research as end in itself • Doing research in universities as the only way to provide top-class graduate education • Research benefits too - research trainees are developed alongside the best scientists • Trained people are the key linkage between industry and institutes - nothing else can come close, least of all another seminar on Industry-Institute Interaction... • So the key benefit of doing research in the higher education system, is precisely that you get better graduate students: you train researchers Higher Education, Dec 2005
How we differ in India • Massive numbers of undergrad engineers and MBAs (350,000 BEs per year, vs 70,000 in US and 100,000 in Europe. And 60,000 MBAs per yr) • Tiny share of R&D in the university system (3%, vs 15 - 25% in every OECD country plus Taiwan + Brazil. China is 10%). The great bulk of R&D is done in autonomous state R&D institutions • Tiny share of Public Medical R&D (1% of public R&D spending, vs 50% in US and some European countries) – precisely an area where we have strong firm R&D, and where we have specific public health needs that private investment will not address adequately Higher Education, Dec 2005
Some priorities for reform • Improve the quality of mass technical/management education primarily through competition • Improve graduate technical education by doing public research in the university system • Invest public funds in building full-service research universities Higher Education, Dec 2005
Improve the quality of mass technical education • Growth of 20% a year in engineering colleges, and 60% for MBA institutes • A 20% vacancy rate for faculty, and a 60% vacancy rate of officially qualified faculty (the pass rate is currently running at 2 %) • Accreditation as the way forward, with NBA assessment playing a useful role • It is my sense that private institutions do not broadly use pay flexibility, but follow rigid public scales – we have to move to a more performance-based system • Can industry help with endowed professorships? Higher Education, Dec 2005
Improve the quality of mass technical education (2) • As a state government • Focus on assessing quality – and do it publicly • Ensure more supply than demand (this is happening in TN, AP, Maharashtra) • Let private colleges compete for the best students and faculty • Allow fees to be set as colleges wish – in a public, transparent manner • Provide scholarships and comprehensive loans to ensure full access • Use a few public colleges to set quality standards Higher Education, Dec 2005
Improve graduate technical education through public research • Higher Education accounts for under 3% of national R&D spending - vs 15 - 25% in every other major economy • Give the universities the research budgets that currently go to autonomous R&D institutes • Start at the IITs and IIMs with sponsored research • Change the evaluation systems within colleges to require research - which will be painful, but is essential – how? Higher Education, Dec 2005
Building a research culture • All the IITs and IIMs, and the best of the rest too all say they want to do much more research • Growing PhD programmes is one thing, but we could usefully learn from US universities • What they did in the 50s and 60s to build a research culture • First recognise it is difficult, and will be painful • Combine long-term strong leadership with a few committed faculty • Ensure resource availability and have flexibility that is used to reward moving in the right direction – and leaving behind people who don’t • And how competition is used throughout the system • For the best students – we have that in abundance for undergrads • For the best faculty – we are just starting • For research grants – we have too little demand • For funding PhD students, who should not be supported automatically Higher Education, Dec 2005
Key elements of vibrant world-class research universities • The bulk of public research is done in the university system • We have a uniquely tiny share of R&D in the university system (3%, vs 15 - 25% in every OECD country plus Taiwan + Brazil. China is 10%). The great bulk of R&D is done in autonomous state R&D institutions • Doing research in universities as the only way to provide top-class graduate education • Research benefits too - research trainees are developed alongside the best scientists • The key benefit of doing research in the higher education system, is precisely that you get better graduate students: you train researchers • Undergraduate and Graduate education is combined • Technical and non-technical fields are equally valued • Professional schools are situated within the university system Higher Education, Dec 2005
And building full service universities • Start at the IITs and IISc • The IISc should start a strong undergraduate programme • All six (the five original IITs and IISc) should aim over 20 years to widen into full-service universities • Adding fields is easier than creating a culture of excellence • Perhaps start with social sciences, then add humanities, plus the other professional schools (medicine, law) • But we will have to ensure they are not seen as second-class citizens! • Deepen & strengthen basic sciences (scrap the artificial S T divide) • Provide funds on a purely competitive basis for the existing universities to build research-teaching centres of excellence – are Cochin and Osmania candidates? • Permit private universities – and let them compete for these same discretionary funds Higher Education, Dec 2005
Conclusions We have a huge opportunity in higher education • Building quality through competition in a largely private mass technical education system • Building a few public research universities out of our existing IITs and IIMs • Creating some other centres of excellence in other public and private institutes • Balance focus on the technical/professional fields with sciences, social sciences and humanities Higher Education, Dec 2005
Reforming public research • Split Scientific Research Institutes into a Technology Assistance Institute, 100% dependent on industry sponsorship • Move the scientists to universities, and ensure they both research and teach (preferably including undergraduates) • Indeed, let the universities plunder CSIR’s 10,000 scientists as a pool of trained researcher-teachers • Give the universities the research budgets that currently go to autonomous R&D institutes • As a second-class alternative, let the research institutes become teaching institutes – but ensure they teach at least at the Masters and preferably Bachelors level too, not just PhDs Higher Education, Dec 2005
What is true for undergraduate engineering, is true for technical education generally Higher Education, Dec 2005