Karnataka CET

18th August

Colleges
CET-2007 applicants with missing photos
The proposed calendar of events for ‘CET 2007’

The proposed calendar of events for ‘CET 2007’

The proposed calendar of events for ‘CET 2007’

1. Date of Notification : ................................................................................................ 28-01-2007

2. Last date for submission of D. D. to the Principals of schools
and colleges : ................................................................................................. 07-02-2007

3. Last date for submission of D. D. by the Principals

of the institutions to CET Cell : ....................................................................... 09-02-2007

4. Last date for submission of D. D. by post to CET Cell
by candidates residing out side Karnataka : .......................................................... 09-02-2007

(Including Horanadu & Gadinadu candidates)

5. Despatch of brochure with application forms :........................................ 12th – 20th Feb’ 2007

6. Last date for submission of filled application forms
to the Principals of schools and colleges :..................................................... 28-02-2007

7. Last date for submission of filled applications by post
to CET Cell by candidates residing out side Karnataka : ....................................... 03-03-2007

(Including Horanadu & Gadinadu candidates)

8. Last date for submission of filled applications by the
Principals of schools and colleges to CET Cell :.................................................... 03-03-2007

9. Date of reaching the admission tickets from CET Cell
to all the applicants will be on or before : ............................................................... 25-04-2007

10. Date of Common Entrance Test – 2007 :........................................................... 09-05-2007

11. Date of Kannada Language Test :....................................................................... 10-05-2007
(For Horanadu & Gadinadu Kannadiga candidates)

12. Last date for appearing to NATA for admission to Architecture course :................ 15-05-2007

13. Last date for submission of NATA Scores to the CET Cell :.................................. 18-05-2007

14. Date of publication of ‘CET 2007’ KEY ANSWERS :.............................................. 15-05-2007

15. Last date for submission of objections, if any, regarding Key Answers :............... 18-05-2007

16. Date of publication of ‘CET 2007’ results :.............................................................. 25-05-2007

17. Commencement of Admission round seat selection process :.............................. 30-05-2007

18. Conclusion of Casual Vacancy round seat selection process :............................. 31-07-2007

CET-2007 applicants with missing photos

List of Candidates who have not affixed their Photo on the CET 2007 Application
SL.NoApplication No.Candidate Name
1107164B. S. Reena
211696Revankar Vivek manoj
37551Naveen Kumar R
48497Arun Kumar
52244M.S.Sandeep
63319Greeshma M.M
71260Mahesh Savanur
87061Anand S Teli
910361Syed Abrar Ahmed Zaidi
1011674Hanumantha Reddy B
115853Pradeep T
125165Suraj M.S.
139554Smita S Patil
145162Venugopal A
154585Waseem Akram
16104769Syed Takhadus Hussain
1710924Rohan M Subbannavar
189024Bharathi S A

Colleges

ANJUMAN ENGINEERING COLLEGE, BHATKAL

ALPHA COLLEGE OF ENGINEERING, BANGALORE

APPA INSTITUTE OF ENGINEERING & TECHNOLOGY, GULBARGA

ADICHUNCHANAGIRI INSTITUTE OF TECHNOLOGY, CHICKMAGALUR

A.M.C. ENGINEERING COLLEGE, BANGALORE

A.P.S COLLEGE OF ENGINEERING, SOMANAHALLI, BANGALORE

AMRITA INSTITUTE OF TECHNOLOGY & SCIENCE, BANGALORE

ATRIA INSTITUTE OF TECHNOLOGY, ANAND NAGAR, BANGALORE

ACHARYA INSTITUTE OF TECHNOLOGY, BANGALORE

BASAVESHWAR ENGINEERING COLLEGE, BAGALKOT

BAHUBALI COLLEGE OF ENGINEERING, SHRAVANABELAGOLA

BANGALORE COLLEGE OF ENGINEERING AND TECHNOLOGY, CHANDAPUR, BA

BAPUJI INSTITUTE OF ENGINEERING & TECHNOLOGY, DAVANGERE

B.M.S. EVENING COLLEGE OF ENGINEERING, BANGALORE

B.N.M. INSTITUTE OF TECHNOLOGY, BANGALORE

BANGALORE INSTITUTE OF TECHNOLOGY, BANGALORE

BASAVAKALYAN ENGINEERING COLLEGE, BASAVAKALYAN

B.L.D.E.A'S DR. P.G. HALAKATTI COLLEGE OF ENGG. & TECH., BIJAPUR

B.M.S. COLLEGE OF ENGINEERING, BANGALORE

SRI BELIMATHA MAHASAMSTHANA INSTITUTE OF TECHNOLOGY, NELAMANGALA

BELLARY ENGINEERING COLLEGE, BELLARY

BASAVA ACADEMY OF ENGINEERING, BANGALORE

B.T.L. INSTITUTE OF TECHNOLOGY AND MANAGEMENT, BANGALORE

B.V. BHOOMARADDI COLLEGE OF ENGINEERING & TECHNOLOGY, HUBLI

B.M.S. INSTITUTE OF TECHNOLOGY, BANGALORE

CANARA ENGINEERING COLLEGE, BANTWAL

CITY ENGINEERING COLLEGE, BANGALORE

CHANNABASAVESHWARA INSTITUTE OF TECHNOLOGY, GUBBI

COORG INSTITUTE OF TECHNOLOGY, KUNDA, PONNAMPET

C.M.R. INSTITUTE OF TECHNOLOGY, KUNDAL HALLI, BANGALORE

DR. AMBEDKAR INSTITUTE OF TECHNOLOGY, BANGALORE

DON BOSCO INSTITUTE OF TECHNOLOGY, BANGALORE

DAYANANDA SAGAR COLLEGE OF ENGINEERING, BANGALORE

EAST POINT COLLEGE OF ENGINEERING AND TECHNOLOGY, BANGALORE

EAST WEST INSTITUTE OF TECHNOLOGY, BANGALORE

GLOBAL ACADEMY OF TECHNOLOGY, BANGALORE

GHOUSIA COLLEGE OF ENGINEERING, RAMANAGARAM

KLS GOGTE INSTITUTE OF TECHNOLOGY, BELGAUM

G.M. INSTITUTE OF TECHNOLOGY, DAVANGERE

GURU NANAK DEV ENGINEERING COLLEGE, BIDAR

GOLDEN VALLEY INSTITUTE OF TECHNOLOGY, K.G.F.

H.K.B.K. COLLEGE OF ENGINEERING, BANGALORE

H.M.S. INSTITUTE OF TECHNOLOGY, TUMKUR

S.J.P.N. TRUST'S HIRASUGAR INSTITUTE OF TECHNOLOGY, NIDASOSHI

S.J.B. INSTITUTE OF TECHNOLOGY, BANGALORE

SRI JAYACHAMARAJENDRA COLLEGE OF ENGINEERING, MYSORE

SRI JAYACHAMARAJENDRA COLLEGE OF ENGINEERING (EVENING), MYSORE

JAWAHARLAL NEHRU NATIONAL COLLEGE OF ENGINEERING, SHIMOGA

J.S.S. ACADEMY OF TECHNICAL EDUCATION, BANGALORE

JNANA VIKAS INSTITUTE OF TECHNOLOGY, BIDADI

K.B.N. COLLEGE OF ENGINEERING, GULBARGA

K.C.T. ENGINEERING COLLEGE, GULBARGA

KALPATARU INSTITUTE OF TECHNOLOGY, TIPTUR

K.L.E. SOCIETYS COLLEGE OF ENGINEERING & TECHNOLOGY, BELGAUM

KNS INSTITUTE OF TECHNOLOGY, BANGALORE

K.S. INSTITUTE OF TECHNOLOGY, BANGALORE

SRI KRISHNA INSTITUTE OF TECHNOLOGY, BANGALORE

KURUNJI VENKATRAMANA GOWDA COLLEGE OF ENGINEERING, SULLIA(D.K.)

MALNAD COLLEGE OF ENGINEERING, HASSAN

M.S. ENGINEERING COLLEGE, BANGALORE

M.V. JAYARAMAN COLLEGE OF ENGINEERING, BANGALORE

MARATHA MANDAL'S ENGINEERING COLLEGE, BELGAUM

M.S. RAMAIAH INSTITUTE OF TECHNOLOGY, BANGALORE

SIR M VISVESVARAYA INSTITUTE OF TECHNOLOGY, BANGALORE

NAGARJUNA COLLEGE OF ENGINEERING & TECHNOLOGY, MUDUGURKI

THE NATIONAL INSTITUTE OF ENGINEERING(EVENING), MYSORE

NEW HORIZON COLLEGE OF ENGINEERING, BANGALORE

THE NATIONAL INSTITUTE OF ENGINEERING, MYSORE

NITTE MAHALINGA ADYANTHAYA MEMORIAL INSTITUTE OF TECHNOLOGY, NITTE

NITTE MEENAKSHI INSTITUTE OF TECHNOLOGY, BANGALORE

OXFORD COLLEGE OF ENGINEERING, J.P. NAGAR, BANGALORE

P.A. COLLEGE OF ENGINEERING, KAIRANGALA, MANGALORE

POOJYA DODDAPPA APPA COLLEGE OF ENGINEERING, GULBARGA

PROUDADEVARAYA INSTITUTE OF TECHNOLOGY, HOSPET

P.E.S. INSTITUTE OF TECHNOLOGY, BANGALORE

P.E.S. COLLEGE OF ENGINEERING, MANDYA

RURAL ENGINEERING COLLEGE, BHALKI

SRI REVANA SIDDESHWARA INSTITUTE OF TECHNOLOGY, BANGALORE

RAJIV GANDHI INSTITUTE OF TECHNOLOGY, BANGALORE

RURAL ENGINEERING COLLEGE, HULKOTI

R.L. JALAPPA INSTITUTE OF TECHNOLOGY, DODDABALLAPUR

R.N.S. INSTITUTE OF TECHNOLOGY, BANGALORE

RASHTREEYA VIDYALAYA COLLEGE OF ENGINEERING, BANGALORE

SECAB INSTITUTE OF ENGINEERING & TECHNOLOGY, BIJAPUR

SHIRDI SAI ENGINEERING COLLEGE, BANGALORE

S.C.T. INSTITUTE OF TECHNOLOGY, BANGALORE

S.D.M. COLLEGE OF ENGINEERING & TECHNOLOGY, DHARWAD

GOVT. S.K.S.J. TECHNOLOGICAL(EVENING) INSTITUTE, BANGALORE

SAPTHAGIRI COLLEGE OF ENGINEERING, BANGALORE

SIDDAGANGA INSTITUTE OF TECHNOLOGY, TUMKUR

S.J.C. INSTITUTE OF TECHNOLOGY, CHICKBALLAPUR

GOVT. S.K.S.J. TECHNOLOGICAL INSTITUTE, BANGALORE

S.L.N. COLLEGE OF ENGINEERING, RAICHUR

SRI JAGADGURU MALLIKARJUNA MURUGHARAJENDRA INST. OF TECH., CHITRA

ST. JOSEPH ENGINEERING COLLEGE, MANGALORE

SRI TARALABALU JAGADGURU INSTITUTE OF TECHNOLOGY, RANEBENNUR

SRI SIDDHARTHA INSTITUTE OF TECHNOLOGY, TUMKUR

SAMBHRAM INSTITUTE OF TECHNOLOGY, BANGALORE

SHRIDEVI INSTITUTE OF ENGINEERING & TECHNOLOGY, TUMKUR

TONTADARYA COLLEGE OF ENGINEERING, GADAG

VIJAYANAGAR ENGINEERING COLLEGE, BELLARY

SRI VENKATESHWARA COLLEGE OF ENGINEERING, BANGALORE

VEMANA INSTITUTE OF TECHNOLOGY, BANGALORE

VIVEKANANDA INSTITUTE OF TECHNOLOGY, BANGALORE

VIDYA VIKAS INSTITUTE OF ENGINEERING & TECHNOLOGY, MYSORE

VIVEKANANDA COLLEGE OF ENGINEERING & TECHNOLOGY, PUTTUR(D.K.)

VIDYA VARDHAKA COLLEGE OF ENGINEERING, MYSORE

YELLAMMA DASAPPA INSTITUTE OF TECHNOLOGY, BANGALORE

Maharashtra CET

20 December 2007
MHT-CET-2008 First Notification

18th August

Confirmation at ARC and the Counseling Round of Admission (CAP Round-IV)
FAQ's
Schedule for CAP Round – IV Counseling

Schedule for CAP Round – IV Counseling


Schedule for CAP Round – IV
Counseling Venue – Auditorium,
Govt. College of Engineering, Aurangabad - 431 005





FAQ's

  • Engineering/Technology Institutions are required to update the reporting of the candidates online for CAP Round-III without fail by 14/08/2007 up to 5PM.If the Institute fails to update the reporting status of the candidates as per schedule then colleges will have to give the admission to such candidates against the Institute level seats.

  • Allow candidates to pay the fees in the form of either DD or Cash.
  • Reporting Period of CAP Round-III is extended till 14th August 2007 up to 5PM.


  • All the information pertaining to Admission in 2006-07 is available on www.dte.org.in/fe2006. Hence the Round wise allotment Lists, Cut Off Lists of last year are avialable under this section.

  • The facility to submit the Online Application form and Confirmation of the Form is available at 68 designated Application Form Receipt Centers(ARCs) all over Maharashtra State.

Confirmation at ARC and the Counseling Round of Admission (CAP Round-IV)

DIRECTORATE OF TECHNICAL EDUCATION

MAHARASHTRA STATE

3, MAHAPALIKA MARG, POST BOX NO. 1967, MUMBAI-400 001.

PH:(022) 22620601, 22690602 FAX:22692102

Help Line Nos:-(022) 22626853/54

Telegram: Edutech Internet :http://www.dte.org.in

-------------------------------------------------------------------------------------------------------------------------------------------

ADMISSION NOTIFICATION:

No.: 2A/ADM/ENGG-NOTI-2/2007/1390

Engineering/Technology

Date :- 27th July 2007

Submission of Online Option/Preference Form for CAP Round-II & III and Confirmation at

ARC and the Counseling Round of Admission (CAP Round-IV) of the Centralized

Admission Process (CAP) of the Academic Year 2007-08

This Notification is being issued only for the eligible candidates to be admitted to seats available for

respective CAP rounds of admission in First Year of Four Year Degree courses in

Engineering/Technology

in the institutes participating in the CAP.

Eligible Candidates:

Such Maharashtra State (MHT-CET-CET 2007 qualified) candidates and MS &

OMS (AIEEE-2007 Paper 1 qualified) candidates, who are eligible to participate in respective CAP

Round(s). Separate lists of candidates eligible to participate in each of CAP Round II, III & IV, will be

published on the website as per schedule and shall be subject to the 'Rules of Reporting' set out in the

Annexure-I of the Information Brochure.

In pursuance of the order passed by the Hon'ble High Court, Mumbai, in the WP(L) no. 1543/2007,

following Institute is also included in the CAP Round-II, III and IV.

EN204

: Fr. Conceicao Rodrigues College of Engineering, Bandra(W), Mumbai.-400050

.

Following choice codes of this institute are made available only to those candidates, who are eligible to

participate in the CAP Round II, III and IV.

1.Computer Engineering-

20411 2.Electronics Engineering-

20419

3.Information Technology-

20428
4. Production Engineering-

20452

It is also decided to make available seats in courses in the following institute, only to those

candidates who are eligible to participate in CAP round-II, III & IV.

EN401

:

Government College of Engineering, Jalgaon

1.Computer Engineering-

40111
2.Electrical Engineering-

40116

Filling up of the Online Option/Preference Form for CAP Round-II & III and Confirmation

at the ARC:

The “

Online Option/Preference Form

” for CAP Rounds II & III, will be made available on the official

website:-

www.dte.org.in/fe2007

only to the candidates eligible to participate in respective CAP Rounds.

Candidates eligible to participate in CAP Round II & III, are required to

:-

1.

Fill in and submit the Online Option/Preference Form of the CAP Round i.e. II & III as per the

schedule, using own Application-ID and Password.

2.

Take a printout of the Online Option/Preference Form for each CAP Round i.e. II & III, sign it and

confirm the same

in person

at any ARC. Pay processing fees of Rs.100/- in cash at the ARC.

3. Get the Receipt-cum-Acknowledgement letter of the confirmation of the Online

Option/Preference form for each CAP Round duly signed by the ARC officer along with seal of

that ARC office. Confirmation of online Option form of each CAP Round at ARC is

MANDATORY for getting possible allotment (if any).

Note:

1.

Above mentioned steps are MANDATORY

for all eligible MS & OMS candidates. Online submitted

Option Form for CAP Round-II & III will be considered valid for further processing only after the

confirmation is done at the ARC. Online filled Option Form for each CAP Round, which is not

confirmed at ARC will be rejected. No other mode of submission and/or confirmation of

option/preference form is permitted.

2.

AIEEE qualified eligible MS candidates will have to submit & confirm separate option forms for

admission against available MS & AIEEE seats in CAP Rounds II & III.

3.

Candidates are required to pay Rs.100/- in cash at ARC as a processing fee for participation in each of

CAP Round II, III & IV.

4.

There will be no change in the type of the candidature, Home University etc.

5.

For details of seats available in each CAP round and list(s) of candidates eligible to participate in each

CAP round, refer to the website www.dte.org.in/fe2007.

Reporting after allotment of CAP Round II & III:

1. The provisional allotment through CAP Round II & III shall be displayed on www.dte.org.in/fe2007, at

ARCs and also at the allotted institutes. No separate allotment letter will be issued to candidates.

2. After the display of allotment of CAP Round II & III, the candidate should report to the allotted

Institute wherein they have been allotted a seat (if any) as per the respective schedule given below and

as per the Rules of Reporting for CAP Round II & III, mentioned in Annexure-I of the Information

Brochure. Candidates shall report to the allotted institute with

ALL original certificates

and the

Receipt-cum-Acknowledgement letter

of Online CAP Application form.

3. Principals/Directors of respective institutes are required to carefully scrutinize all the required

documents submitted by the candidates at the time of reporting. It is mandatory for the respective

Institute to carry out “

Online Update

” of the confirmation of the candidate’s admission at the Institute,

on DTE website through their Institute’s login immediately when the candidate is being admitted at the

Institute.

Admission Round by counseling i.e. CAP Round-IV:

Only MS candidates whose names have appeared in the list of candidates eligible to participate in the

CAP Round-IV, are required to appear in person at the following Center of Admission as per the

schedule:

Government College of Engineering

Station Road, Osmanpura, Aurangabad-431005

Phone:(0240) 2332635

Note:

Candidate who will be offered admission in CAP Round-IV, is required to confirm the said

admission on the spot by paying Rs.15000/- (in cash). Candidates are required to report to the

respective institute as per the schedule.

Provisional Schedule of activities for CAP Round-II& III (by allotment) and CAP Round-IV (by

Counseling)First Date Last Date

1.

Display of seats available and list of candidates eligible to participate in

CAP Round-II, on website dte.org.in/fe2007 29-07-07 at 5.00 PM

2.

Online Submission of Option/Preference Form for CAP Round-II

through www.dte.org.in/fe2007 by eligible candidates

Confirmation of the Online Option/Preference Form for CAP Round-II

in-person

at ARC

30-07-07 02-08-07

3. Display of provisional Allotment list of CAP Round II on web site

www.dte.org.in/fe2007 04-08-07 at 5.00 PM

4. Reporting by the candidates as per allotment of CAP Round-II to the

Respective Institute 05-08-07 06-08-07

5. Display of seats available and list of candidates eligible to participate in

CAP Round-III, on web site www.dte.org.in/fe2007 08-08-07 at 5.00 PM

6.

Online Submission of Option/Preference Form for CAP Round-III

through www.dte.org.in/fe2007 by eligible candidates

Confirmation of the Online Option/Preference Form for CAP Round-III

in-person

at ARC

09-08-07 10-08-07

7. Display of provisional Allotment list of CAP Round III on web site

www.dte.org.in/fe2007 11-08-07 at 5.00 PM

8. Reporting by the candidates as per allotment of CAP Round-III to the

Respective Institute 12-08-07 13-08-07

9.

Display of available seats and list of Maharashtra State candidates eligible

to participate CAP Round-IV (by counseling) on web site

www.dte.org.in/fe2007

16-08-07 at 5.00 PM

10. Admission Round by counseling

in person

i.e. CAP Round-IV 18-08-07 at

11.00 AM 19-08-07

11. Reporting by the candidates as per allotment of CAP Round-IV to the

respective Institute 20-08-07 21-08-07

12. Commencement of classes 20-08-07

13. Cut off date for all Engineering/Technology admissions 31-08-07

Note

: All ARCs and the Institutes will remain open on all days of the schedule (including Sundays)

between 11AM to 5 PM. Changes in the schedule (if any) will be made available on the website and no

separate notification will be issued.

Gujarat

18th August
Gujarat Technical Education

Gujarat Technical Education

Engineering Education : its Early Beginnings
Engineering education, unlike other types of professional education, has not had a long history. Though the ancients and medievals had built large brick and stone houses, castles, cities and huge temples, bad constructed long highways and aqueducts and dug canals, which show considerable knowledge of what are now earned civil and hydraulic engineering and of properties of building materials, this knowledge must have been derived empirically. Beginnings of mechanical engineering are to be found in the manufacture and use, of tools, means of transport, simple machinery like lathes, and weapons of offence and defense. Rudiments of chemical engineering are to be seen in the old metallurgical practices. But there were no organised schools for teaching apprentices the use of machinery or knowledge of processes; knowledge passed from generation to generation of craftsmen and artificers, by word of mouth, and was thus confined to castes and guilds.*1

The Industrial Revolution With the advent of the Industrial Age, which was ushered in by the discovery of the steam engine by James Watt about 1780, and the ability to, generate and to handle large amounts of power rendered possible by the invention of the steam engine, men passed from dependence on human labour and hand tools to large and complicated machinery ; production of commodities passed from cottage workshops to factories. Transportation by bullock-carts, horse-driven carriages, and wind or man driven boats, gave way to railroads and steamships. All this necessitated the construction of large machines, engines, ships and carriages, and gave rise to problems of industrial finance and labour.

Early Engineering School in Europe-While inventive genius was called upon to devise new kinds of machines and to handle new types of processes, the craftsmen and artisans were called upon to put these designs into actual practice. They were asked to test and handle these machines and to repair them whenever necessary. The engineer was thus evolved from two different streams- first from the artisans and craftsmen on one side, who belonged to the lower orders of the less specialised society of the last century, and on the other side from the genteel class who had knowledge of sciences, and had acquired habits of disciplined and organised thinking. Sometimes the two types merged in the same person i.e. the craftsman taught himself science, and learnt to think and invent, (e.g., James Watt); or the man with scientific definite objective 9 e.g., Sadi Carnot).

It was soon found that it was not possible to depend upon unlettered mechanics and craftsmen to manufacture, according to designs given to them, the new types of machines which were constantly coming into use, or upon apprentices to handle these machines properly, unless they were instructed in their use. Schools for general education of craftsmen and artisans, and for teaching apprentices the use of machines were founded by John Anderson at Glasgow about 1790, and Dr. Birkbeck in London in 1823. Anderson s university ultimately became The Royal Technical College, Glasgow. Amongst the universities, Cambridge took the lead in admitting engineering to the rank of university education. France started technical education about the same time (1794) when Ecole des Traveaux Publiques, later Ecole Polytechnic, was founded. In the U.S.A. the first technical school was founded at Bowdoin College, Maine in 1823, but this did not live along. The oldest surviving technical institute in the U.S.A is the Rensselaer Polytechnic Institute at Troy (New York State), which was founded in 1823, and started giving degrees in civil engineering in 1835. Germany started late, but it built up, after the Franco-Prussian war a chain of technological institutes (culminating in the Technische Hochschules) which provided for the teaching of all grades of men from craftsmen to researchers, and this was mainly responsible for the great technical and industrial superiority of Germany which was noticed during the first world war. The great Technische Hochschule at Charlottenburg, Berlin was founded in 1879, as part of the university, but was later separated from it for the sake of administrative convenience. The success of this institution led to the foundation of the Imperial College of Science and Technology in London by the amalgamation of a number of smaller institutes in 1907. "By the terms of its Charter the Imperial College stands alone in being specially charged to develop postgraduate studies in their application to industries." (Universities Quarterly, Vol. 2, 1948).

Growth of Engineering Sciences
The nineteenth century has witnessed the birth of many branches of engineering and technology in addition to the classical ones of civil and mechanical.

The range of development in engineering and technology is illustrated by the following lists of separate engineering fields which are recognised and in which four or five years of under-graduate courses leading to a degree are offered in American universities and colleges. Within each one of the fields, there are further sub- divisions and specialisations, each being the subject of special postgraduate study and research.

Technology and engineering are products of fundamental discoveries in basic sciences, and as is well known, these began to accumulate in the late nineteenth and in the twentieth centuries and in greater variety than in all the previous 50 centuries of civilised life. Inventive genius in Europe and America tried to utilise these science for new industries, and for other human needs. Thus new branches of engineering began to grow. To give a few examples:

Electrical engineering which now claims as many as, or more professionals and students than the older branches of civil or mechanical, started actually from the year 1882, when Edison built the first central electric power house to supply electrical power to factories, and light and power for domestic use to dwellers of a city The discovery of the law of electromagnetic induction was made by Faraday in 1831, but it required work of a half a century to put the discovery to practical use.

With the multiplication of the number of e electrical power houses, and with the long distance transmission of power, the demand for men trained in the use of electrical machinery and acquainted with the fundamentals of the science began to grow, find the universities and technical colleges began to introduce courses in electrical engineering. But only one or two colleges are known to have introduced electrical engineering courses earlier than 1880. So rapid has been the progress in this field that the number of electrical engineers, technicians and craftsmen in the U.S.A. is now estimated to be nearing the million mark. The same is trite of automotive engineering which dates from the time of the discovery of the internal combustion engine by Otto in 1870. Rudiments of chemical engineering were known in earlier metallurgical practices, but the great discoveries in organic, physical and inorganic chemistry subsequent to 1880, led to more and more large scale chemical industries. Chemical engineering courses began to be introduced about 1890, almost simultaneously in the German Technische Hoschschules and in great American Technical Colleges like the Massaschusetts Institute of Technology (M.I.T.). The first courses were introduced in England in the Imperial College of Science and Technology in 1911.

Electrical engineering is a typical example of this change. For about 20 years it dealt mainly with electrical power generation, transmission and utilisation. With Marconi s discovery of wireless telegraphy (1898), electrical engineers began to study and watch the progress of Radio Communication. In some, university and technical colleges, the new science began to be pursued as a subject for post-gradate study and research. Then came the discovery of the use of triode valves in 1914 which revolutionised radio communication, and made broad- casting possible. This led to the need for a large number of engineers trained in the fundamentals of radio communications, and in the use of the necessary appliances. So universities and technical colleges were called upon to open undergraduate classes for the train- ing of radio engineers.

Many developments of electrical engineering have emerged, such as power plant and transmission engineering, radio communication, telephone communication, electronics, electrical calculating machines, electric railway engineering, electrical recording appara- tus, electricity and electronics in medicine, and surgery, electrical control apparatus, servo-mechanisms and many others.

These subdivisions of the engineering field illustrate how a mature economy develops a great variety of ways for controlling and using the processes and resources of nature. The great productiveness of a country like America is due less to possession of natural resources than to the development of a wide range of skills. Thus three basic types of engineering have developed into numerous new technologies, which have tended to become independent field.

The engineer should be alert for any fundamental discovery winch may be, turned to practical use and for betterment of the processes he is using. The structure of engineering education should be such that when opportunities occur it will be possible for the country or the industries to collect requisite personnel, from technicians to executive engineers, to turn the discovery to use within as short a period as possible. Such a set-up of engineering education existed in Germany, and exists in the U.S.A., but not in the United Kingdom, of which the Indian system was for long a bad and obsolete copy. Thus though many of the great and fundamental discoveries which led to Radar and Atomic Energy utilisation were made by British physicists, their large scale utilisation was for war purpose was possible only in America, where the requisite personnel of all types could be assembled and set to work*2. The British recognized this defect in their structure of Engineering and Technological Education during the course of the last way, Their Ministry of Education set up a committee under Lord Eustace Percy "To advise the Ministry on the needs of higher technical education in England and Wales, with particular attention to the means required for maintaining appropriate co-operation between universities and technical colleges."

POST INDEPENDENCE SCENARIO
The last half of this century has transformed our environment, perhaps radically, and brought more changes in our lives and thinking than in any corresponding period in history. These are the consequences of discoveries of sciences and applications of technology. The concept of absolute knowledge in the sense of storing all knowledge is perhaps no more relevant today. Our efforts for reconciling the traditional concepts and ways with the demands of technological age cannot provide simple solutions for our difficulties and complexities based on such stored knowledge. Frontiers of knowledge are themselves expanding rapidly making it possible to device newer and more efficient methods of solving problems of the society. Education must therefore make efforts for securing knowledge and mastering modern skills and methods than merely storing and distributing the traditional ones. For this purpose of training of mind and mastering of skills and for harnessing science and technology to profitable and productive processes of economic growth and social well-being, the technological education system has to be continuously reviewed and adopted. This has indeed been the basis of our efforts during the last three decades, the result is that there is a well-organised structure and a wide network of technical institutions offering different types of programmes: craftsman courses, technician (diploma) courses, graduate and post- graduate courses, etc., catering to the various levels of knowledge, skills and competences required by the economy.

CRAFTSMEN COURSES: FACILITIES AVAILABLE
Vocational Training - Training is imparted in 32 Engineering and 22 non-engineering trades approved by the National Council for Training in Vocational Trades to young people within the age group of 15 to 25 years. For this purpose 357 Industrial Training Institutes with an overall capacity of 1,55,000 training places have been established in the various parts of the country. Period of training ranges from 1 year to 2 years. The Industrial Training Institutes are also used as Basic Training Centres for the Apprenticeship Training Programmes under the Apprentices Act 1961. The 103 trades designated under the Apprentices Act follow our national classification of occupations and cover 216 industries.

Craft Instructor Training - There are seven Central Training Institutes for training of Instructors under the Directorate General of Employment and Training. These Institutes conduct regular, refresher and retraining programmes for the Craft Instructors in various engineering and non-engineering trades. The Instructor- trainees are deputed mostly by the various Industrial Training Institutes and Industrial Establishments in the country.

At the end of the last decade, it was realised that higher or advanced levels of skills were required by the industry both in Public and Private sectors for working on the more modern and highly specialised type of machine tools and equipment coming to be used extensively. To meet this need the following institutes have been established:-

(i) Advanced Training Institute, Madras-The advanced Training Institute, Madras, imparts training in Advanced Vocational skills such as Tool Design, Tool and Die-Making, Heat Treatment, Metallurgy, Machine Tool Maintenance and Advanced Welding etc.

(ii) Foreman Training Institute, Bangalore - The Foreman Training Institute, Bangalore imparts training not only in developing further skills but also in managerial skills for first line supervisors.

(iii) Central Staff Training and Research Institute, Calcutta-The Central Staff Training and Research Institute set up at Calcutta is charged with the responsibility of conducting training programmes for officers and staff of the Central and State Governments and from industry, who control, regulate and direct Vocational and Apprenticeship Training Programmes. This Institute is also involved in the Research and Developmental activities in the field of vocational Training.

(iv) Advanced Training Institute in Electronics, Hyderabad-The Advanced Training Institute in Electronics, Hyderabad, has been set up last year to provide training at Craftsmen and Technician level for the electronic personnel required in the country.

TECHNICIAN COURSE: FACILITIES AVAILABLE
Post-Matric Technical Education - Diploma level courses for the training of middle level man power needed for a wide range of professional duties, for application of knowledge in field operation, in production and construction, testing and development etc., and such functions are offered in 291 polytechnics with an annual enrolment capacity of about 50,000 students. They offer a variety of specialization in engineering and technology as well as in a few non- technological fields. The courses are normally of three years duration where full-time institutional instruction is offered and 31/2 to 4 years when instruction is on a Sandwich or on part-time basis. Recently a number of diversified courses and facilities for evening part-time education have also been provided in some polytechnics situated in metropolitan cities where the demand for such courses exists.

About two dozen Women Polytechnics with courses of special interest to, and employment potential for, women, have also been established, particularly to cater to the needs of the socially/ economically inhibited classes who might be reluctant to take advantage of the facilities generally available in the regular polytechnics.

The products of the diploma courses are expected to take up supervisory positions in field and industry.

DEGREE LEVEL: FACILITIES AVAILABLE
Degree level-For the professional engineers and technologists, facilities for technical education are available in 141 engineering colleges offering courses leading to the award of Bachelor Degree in Engineering and Technology. The total admission capacity annually for these courses is of the order of 25,000. The duration of most of these degree courses is five years and with the new pattern of Secondary Education of 10+2, it is expected to change over completely by 1981-82 to a duration of four years.

POST-GRADUATE COURSES: FACILITIES AVAILABLE
Post-Graduate Courses-For the benefit of those who have higher level academic achievements as also for under taking research and development activities in engineering and technology, post- graduate courses have been offered widely in the various selected institutions offering degree courses. The number of the institutions offering such post-graduate courses is 65 with an annual intake capacity of about 2,000. These courses normally lead to the Master s Degree in the concerned discipline and are of two years duration. Facilities also exist at these centres offering part-time courses at the Post- graduate level for those who are already in service. Duration of such courses normally is three years.

MANAGEMENT COURSES: FACILITIES AVAILABLE
Management Education- Any effort at improvement of the utilisation of available resources and maximisation of results has necessarily to take into account better concepts of management and organisational development of the system as a whole. With this in view a chain of institutions numbering about 30 mostly in the University sector offering management courses both at the First Degree and Advanced levels has been started. The courses offered at the various institutions to date cover training at the Master s Degree level for the M.B.A. degree with an annual admission capacity of about, 1000.

INSTITUTIONAL FRAMEWORK
As has been mentioned above, the Vocational Training/Craftsmen Courses are offered at the Industrial Training Institutes. The Diploma courses are offered in the Polytechnics which are widely spread over all the States and Union Territories and are affiliated to the respective State Boards of Technical Education who lay down in general the levels and standards of the courses and guide the system of evaluation of the students appearing at the examination. Degree and Post-Graduate courses are offered in colleges affiliated to the various Universities, certain University Departments, and institutions declared as of national importance or as deemed Universities.

Indian Institutes of Technology- These are our apex institutions for engineering education and research. Each Institute conducts a First degree course and Master s Degree course in a wide range of subject fields, and also offers facilities for Research and Doctoral work. The main emphasis at the Institutes is on the Post-Graduate studies and Research with an inter-disciplinary approach. To this end each Institute has developed good departments of Physics, Chemistry, Mathematics, and Social Sciences which inter-act with the departments of Engineering and Technology. The student enrolment at the Institutes at the Undergraduate level is limited to 1250 and admission at the Post-Graduate level is designedly kept at about the same order as in the under-graduate courses. The Institutes are in various stages of consolidation and development. As part of the national plan of science and technology, five Centres of Advanced Study and Research have been set up in the Indian Institutes of Technology in Energy Studies (Delhi), Material Science (Kanpur), Cryogenic Engineering (Kharagpur), Ocean Engineering (Madras) and Resource Engineering (Bombay).

Regional Engineering Colleges - Fifteen Regional Engineering Colleges have been established in various States as a joint and co- operative enterprise of the Central and the State Governments concerned. Each Engineering College is functioning as an all-India institution admitting students and recruiting faculty from all parts of the country. Fifty percent of the admissions of these institutions (each of which is being equipped for a total annual students intake of 250) is reserved for students from the other States than the ones in which they are located. In addition to the under-graduate courses these Colleges (which are academically affiliated to the Universities in the respective regions and administratively autonomous being managed by Board of Governors) also offer Post-graduate courses in various subject fields. A list of courses offered both at the Under- graduate and Post-graduate levels at these institutions is at Annexure F . Special feature of some of these institutions are the industrially oriented Postgraduate courses in Engineering and Technology to train specialist Engineers for Design, Construction and Production work.

State Colleges and University Departments - In addition to the above institutions offering courses at degree and post-graduate level, there is a wide net work of engineering colleges established and administered by the State Governments, Universities and private agencies; they are also affiliated to the respective Universities, and offer degree courses in a variety of subject fields. Some of them are more than a century old and have been pioneers in engineering education in the country. Many of these State colleges and University Departments are making significant contribution in the field of technical education.

Special Institutions - In additions to the above institutions there are certain specialised institutions which offer education/training in specific fields-

Indian Institutes of Management - Three Institutes of Management have been established at Ahmedabad, Calcutta and Bangalore. Ahemdabad, and Calcutta Institutes were established quite some time ago and the Bangalore Institute has just graduated its second batch of full time students for the M.B.A. programme. These Institutes, in addition to the offering of the M.B.A. courses at pre-employment stage for fresh University graduates, offer advanced fellowship programmes in various areas of their specialisation. They also conduct a number of in-service Executive Development Programmes and are concentrating on different sectors of the economy such as Rural Development, Energy, Transportation, etc.

Other Institutions - There are also other institutions offering courses in architecture and town planning (such as School of Planning and Architecture at New Delhi which offers degree course in Architecture and Post-graduate course in Town Planning with specialisation in Urban Design, Housing and Community Planning, Transportation and Traffic Engineering). Sugar Technology. (National Institute of Sugar Technology, Kanpur), Food Technology Industrial Design (National Institute of Industrial Design, Ahmedabad), Marine Engineering (College of Marine Engineering, Bombay), etc.

UPGRADING OF THE FACULTY AND IMPROVEMENT OF INSTRUCTION STANDARDS
By the end of the Third Plan in 1966, most of the above institutions had been started and it was considered necessary to Jay special emphasis thereafter on consolidation and development of the facilities rather than on setting up of additional institutions. Accordingly a special scheme of Quality Improvement was launched for raising the standards of instruction/training at these institutions. The measures under the Quality Improvement programme included the development of faculty, revision and improvement of curriculum including laboratory practices, and schemes for industrial training and refresher courses for the teachers. Facilities are provided at 14 Centres including the I.I.Ts, Roorkee University, and the Indian Institute of Science, Bangalore for enrolling serving teachers sponsored by the various institutions/agencies for Master s Degree and Doctorate Degree programmes. In this effort of updating and upgrading the level and standard of the faculty, provision was also made for appropriate industrial training for periods of 1-3 months. Short-term and Winter Schools offering special orientation courses, refresher courses etc., were also organised both at these advanced centres and others wherever facilities could be identified and organised. So far about 26,000 teachers have taken part in these programmes. (Annexure H gives the number of teachers participating in the Various programmes). Curriculum Development Centres were also set up in respect of the various branches of Engineering and Technology to update the curriculum at the under-graduate level in consultation with the users of the institutional products. These Curriculum Development Centres have also engaged them selves in developing concepts for laboratory lay-out, workshop practice etc.

On a similar analogy of the teachers for degree level institutions, considerable efforts have also gone in for the training of teachers for the technician courses. Because of the large number involved and the specialised training required it was considered to have a specific institutional frame work for this type of programme and accordingly four regional institutions were started for this purpose. These Technical Teacher s Training Institutes at Bhopal, Calcutta, Chandigarh and Madras have been offering a regular two-years course for serving teachers from the polytechnics in the respective regions. This two year programme consists of updating of subjects of the concerned teachers, industrial training and pedagogic training. In addition to these specific programmes, these institutes have also done work in areas of curriculum development, Short-term courses, refresher courses, production of teaching materials and textbooks etc.

APPRENTICESHIP TRAINING PROGRAMME
Apprenticeship Training Programme - With the sparsely distributed and relatively under-developed industrial base in the country and with a large number of technical institutions having been situated not within the easy access of industrial establishments, it was not possible in the earlier years of planning to arrange for in- industry training of all technical students. Nonetheless it was recognised and it is imperative that the institutional training should be supplemented with appropriate field/industrial training for adequate practical exposure to practical experience. With this end in view a practical training stipends scheme was operated in a limited way in cooperation with the then existing industrial establishments. Later on, however, a massive apprenticeship training programme was introduced in 1962 for the vocational Training level and in 1974 for the Diploma and Degree levels under the Apprentices Act, 1961 as amended. While for the craftsmen course, training is provided within the course framework, the training at the degree and diploma level is provided after the institutional courses for the duration of a year. This is expected to be both an extension of the educational process as also a preparation of the candidates for later employment.

CONTINUING EDUCATION
Recognising that opportunities for technical education might have been denied to some on various considerations of economic/ income constraint and other factors, efforts are being made to provide for a vertical advancement of the personnel from one level of a technical education/training to the next higher one. Thus a worker with a National Trade/Apprenticeship Certificate, can take on a diploma course and similarly facilities for some who have a proven ability for academic achievement might go for specialty designed degree courses in some of the institutions. Availability of part-time courses, evening courses, etc., in certain of the Centres also provides for this vertical mobility. These are, however, offered at present on a limited scale and within the structure of diploma/degree courses. Part-time post-graduate courses for serving engineers also cater to those who are desirous of these facilities at higher levels.

PROBLEMS AND PERSPECTIVES
Significant as the achievements in creating facilities for technical education in the country over the last three decades are, there appears a good need now for total review of the system that has been built up, with a view to make it more relevant and effective to the national needs. For historical reasons, the technical education system has been more or less inward looking: the impact of the system on the other elements of the economy is yet to be objectively assessed. The professional engineer or technologist is not a solitary individual unconnected with the happenings in the other spheres of the system. Of immediate concern, perhaps, for the professionals is, no doubt, the chosen field of his profession but the interaction with the allied professionals, as also the neighbouring community has also to be taken into account to determine the professionals, place in the whole system.

Wastage in the System - To take first the building of the competence of the professional itself, we might try to understand the efficiency with which the system has worked so far. Considerable facilities have been created in the institutions over the last number of years and even on the basis of the non-uniform and separate evaluation results themselves, one is rather constrained to find that there is a large wastage in the efforts put in the institutions. The figures of intake and out turn at the degree and diploma level are given at Annexure F , which reveal that the wastage at the degree level is of the order of about 20 to 22 % and at the diploma level nearly 52 %. The figures for the out turn at the degree level include those of the IITs also. Taking into account that the wastage at the IITs is very marginal, the wastage naturally is largely accounted for by the other institutions and we may, therefore, say that this would be of the order of about 30 %. Similarly at the diploma level this is as high as 52 %. These figures, if we remember our experience with the system for the last three decades, are not flattering. The Institute of Applied Manpower Research made a study of this problem some time ago. From a survey made by the Institute of the reaction of a few of the students that had undergone these courses, the possible reasons for wastage were stated to be:

(i) lack of necessary aptitude for the course among the concerned students;

(ii) inadequacy of instructional facilities;

(iii) ineffective teaching, possibly because of the teachers not being trained; and

(iv) a heavy curriculum. Valid as these reasons are even today, there may be many other contributory factors also such as: (i) non-selective admission of students to the institutions;

(ii) changing mix of urban and non-urban background of students without corresponding modifications/orientation of educational methods contributing to the detriment of the non- urban element;

(iii) inadequate utilisation of even the existing instruction facilities;

(iv) in spite of adequate capital investment and hardware provided in the institutions quite often, the lack of appropriate matching provision for adequate departmental operating and training costs;

(v) insufficient development of the correct attitudes to the professional education by both the teachers and the students; and

(vi) external factors, such as lack of motivation because of inadequate or assured employment opportunities at the end of the course.

(3) The intensive study of this problem of wastage is very necessary. This is needed on both academic and planning considerations. Any effort for improvement of existing courses, introduction of new courses, diversification of programmes etc. would be helped a great deal by such feedback information as would be available from such a study. From the planning point of view, any effort to reduce wastage would contribute to the efficiency of the system as such and thus provide for out-turn of additional manpower that may be required without further inputs.

(4) Improvement of the System - Any efforts at improvement of the system have naturally to take into account the various elements which contribute to its weaknesses as mentioned above. Under the " Quality Improvement Programmes " some steps have been taken to tone up that aspect of the system which concerns the teaching-learning process. Apart from these efforts, which, of course, require to be strengthened to a very great extent, there are other steps which might enhance the effectiveness of the system. Some of these are enumerated below :

(a) Special remedial courses for non-urban/non-elite students It would appear that the courses at present offered, based as they are on urban aptitudes, situations and characteristics, tend to cater to the needs of the elitist group. A majority of the students are from the non-urban sectors and from the institutions in the mofussil/interior areas. The background of the students also is not uniform. in that many of the students may be first or second generation learners. Because of the lack of communication facilities on the same basis as his urban counterpart, such a student would require to be given special orientation/remedial course to be brought on par with the other students. Not only that, even the programmes sometimes have to be appropriately changed to suit his non-urban experience and background.

(b) Multiple entry and flexibility - At present the attitude and aptitude of the students who take these professional courses have no obvious relationship with the professional courses offered to them. Quite often both because of the lack of aptitude, or absence of developing the correct attitude, or because of various other factors such as the duration of the course, the sudden change the student has to undergo in the professional courses as compared to his earlier academic experience, etc., have an adverse effect on his performance. Again for reasons beyond one s control or because of economic and social background etc., the student might have taken up a different course and might like to opt for a professional course at a later stage. Even within the professional courses, the student might like to change either the branch or particular study which he has chosen earlier, or the orientation of this particular course. Occasionally the possibility of the student having to migrate from one place to another within the country itself also exists. The present system is rather a straight jacket one, with more or less a single entry point and perhaps a rigid course structure. To allow for different types of contingencies, It is necessary to think in terms of multiple entry points (depending upon the earlier academic/field experience) as well as of flexibility of the course structure and organisation.

(5) Need for review of course content - It is necessary to have a good look at the courses being offered now not merely for the organisational purposes of "graded" facilities. Mere accumulation of information is not knowledge, and complete knowledge by itself does not give the necessary wisdom. The purpose of education is not to produce " educated " individual at one stretch by putting all information and knowledge into course at one time, but, on the other hand, it is to take the individual to progressive stages where he would be in a position to acquire what further information and knowledge he wants for his future activities. If we accept this philosophy, it is to be conceded that what is important is not to " load " the curriculum but to arrange it in such a way that different requirements and needs of the individual s calling are provided in the process of life-long education. The credit system no doubt can go quite some way in this regard. But a deliberate attempt is to be made to recognise the fact that many of those who pursue these courses of studies will remain as technologists whereas quite a few of them might end up as managers. Further even a technologist has to have sufficient insight into the marginal areas of the allied fields, if not in-depth study in that field itself. The course content therefore should be so modified as to allow for the technologist to have an overall view in addition to this core discipline, e.g., the professional may have to have managerial training in addition to his professional calling. The education in our institution campuses should break away from the rigid stand of a unidisciplinary approach and a fixed framework but cater to a larger interest to acquaint and give an insight in various fields of expertise of which the institutional faculty and facilities are capable of, by offering on a massive scale refresher courses, study programmes, etc. Attempts should also be made even in the undergraduate programme to provide for an intensive managerial training for those who desire it within the course frame work apart from those who want to pursue the technological programme. Complementary courses might also be provided for the technologist to acquaint himself with the necessary management techniques and practices, and vice versa.

(6) Diversification, new courses, etc. The infrastructure that has been built up appears to be quite adequate to meet the major requirements of the system for most of the efforts mentioned above. However, with the changing technology and development there may be many areas where specialised personnel are required. Many of the emerging areas have been enumerated in Annexure G , for industrial and rural requirements, etc. A cluster of courses might be required, organisation of diversification on a large scale and occasionally new courses also might be called for. This has to be looked into by appropriate agencies taking care at the same time to see that the fresh inputs for any such effort would be marginal and capable of diversion, whenever required. This is easily said than achieved in practice, but nonetheless the issues are important to be considered.

(7) Proliferation of courses - The facilities available at various levels right from the craftsman to the post-graduate level are adequate and any further expansion of these facilities has to be gone into only after a deep study and with caution. The ratio between the graduate, technician and craftsmen in some of the more industrialised economies is of the orders of 1:3:5; facilities for education being also provided for in that order. With us, the facilities provided at the graduate and technician level are in the ratio of 1:2, but in the output the ratio comes down to about 1:1. Organisation of any new course/diversification at one or the other levels has to take into consideration a systematic study of the manpower requirement and utilisation, linked with the occupational structure of the various employing sectors. It is, therefore, necessary to keep this in mind while organising any new course/diversification at any level right from the craftsmen to the post-graduate so that the entire spectrum of activities in the employing fields are kept in mind. This is not to forget the needs of the research and development activities where academic considerations might point to growth potential at a particular level.

(8) Sisterhood programmes - While there is no doubt that certain segments of the Technical Education system have built up strong potential (IITs, University Departments, some of the State Colleges, for example), there are others which are rather weak. It is here that practicable and effective system of cooperation programmes between institutions of different types at different levels are to be organised. Desirable are the programmes of exchange of teachers on short term and long-term, on a massive scale planned in relation to specific levels and goals of development, providing opportunities and appropriate programmes for making available at specific and for known periods the facilities available at the better institutions for the use of the staff of the not-so-well-off institutions, organising of special programmes of refresher courses, extension lectures, etc. by the faculty of the better institutions at the other institutions etc. Efforts at curriculum development, faculty development etc., though now well organised and recognised, have yet to be gone through on a much larger scale and in a more purposeful way. Preparation of manuals for lectures, workshop practice etc., production of text-books, preparation of teaching aids etc. also have to be undertaken by all the institutions by pooling the resources that are available.

(9) Industry-Institution collaboration-For the improvement and further development of the system it is necessary that there is interaction between technical institutions and industry and other field organisations. There has been an awareness of the need for such interaction: creation of agencies such as Industrial Liaison Boards in the States, Co-option of Industrial representatives on the various academic bodies such as the Boards of Management, Boards of Studies etc., and the system of Visiting Professorship/guest lectures etc. has helped to an extent in breaking this ground. But much more remains to be done in this direction. This initiative so far has been with the technical education system with the industry and field organisations, unfortunately, not always showing more than lukewarm interest. This attitude had radically to be changed in that both technical institutions, who produce manpower for the industry and the field organisations, and also the latter themselves are partners in the same enterprise of developing the economy; and it is high time that this responsibility, is duly realised by setting up this interaction. The employing sector should go all out to associate and involve itself in all matters and at all levels of technical education, planning and implementation. On the other hand, the technical education system should make this possible by appropriate incentives and safeguards for such involvement by personnel from the industry and employing organisations. A stage has been reached where purely academic consideration in a system of professional education should not be the criteria in determining about the suitability of personnel for technical education. Sufficient credit should be given by the educational authorities for giving appropriate recognition for field expertise- while considering the faculty requirements. Schemes such as adoption of institutions by industry etc., which have been initiated, should be encouraged totally by the industry.

(10) Improvement of teaching methods-Production of textbooks, other teaching material and teaching aids which have been started now on a small measure have to be considerably stepped up. Manuals for better utilisation of the laboratory and workshop equipment, use of the library as a resource centre both by the teachers and the students have to be encouraged. In all these attempts of preparation of teachers and students materials, emphasis also has to lay on the possible slower comprehension of the non-urban student to the methods employed in the urban situation.

(11) Integration of practical training with the institutional courses-Because of the lack of sufficient training places in industry and field organisations, the provision of training under the Apprenticeship Training Programme has been after the institutional course. For a more effective and coordinated approach, it is necessary to think in terms of integrating the practical/industrial training with the institutional course itself, at appropriate stages of the course. This will lead not only to better supervision but also better comprehension of the field precepts and practices by the student.

RESOURCE BANK FOR TECHNICAL i.e., DOMESTIC AND INTERNAL
In terms of the magnitude of human resources and expertise available and of physical facilities created over the last three decades, the system of technical education has become a formidable reservoir of technical expertise, which, perhaps, no other sphere of the economy has developed in such a concentrated manner. What is, therefore, required is to utilise this bank of expertise for the improvement of the system itself as also for the improvement of other elements of the economy.

2 As pointed out, the potential for technical education system both in terms of human and physical resources are so large that it is worthwhile for us to now think from the national stand-point to have a pooled bank for technical expertise and aid, both for domestic or external purpose. A well organised and processed pool of such resources would be of great advantage for any need in any sector of the economy of the country including the technical education system itself for delivering many of the responsibilities for which now outside help is sought. Indigenous expertise has been sufficiently appreciated and, perhaps, in most of the other countries, we might not have anything better or even as good as what we have among the professionals in the country. Except, therefore, in special fields and areas of highly sophisticated technology, perhaps our expertise could be easily drawn up even for giving appreciable aid to many of the countries in the neighborhood and elsewhere. Concerted efforts have, therefore, to be made to channelise all this expertise available in the technical education system so that it will permit the system to grow vertically and also to support itself since the resources generated that way could not be in any way less considerable. This will also ensure job satisfaction to those who have expertise and higher attainments in sophistic technology and thus brain drain from the country.

RURAL AND COMMUNITY DEVELOPMENT AND SERVICES
As mentioned above, in addition to his own field of specialisation and the group in which he works, the professional has also to discharge his responsibilities satisfactorily both to himself and others in the community. It is necessary, therefore that the professional instead of being in isolation as an individual under training, has also an in built training/education in the environmental aspects so that he will be able to appreciate when he later enters the profession of the various aspects that come to play on his role as a professional in the community.

Even as a professional he is not to be considered as if he is in his ivory-tower. It is necessary that the institutions also are considered as part of the total community activities. While considering the totality of his activity, it becomes imperative that the courses offered at institutions relate to the various demands of the neighborhood in particular and the community in general, both at present and in the foreseeable future. The education which is offered in the institutions should be of relevance to the various problems that are posed by the society. It is not correct that in their attempts to attain excellence or even the highest standards that the immediate need of the society are forgotten. The various sector such as rural development including food and agriculture, energy, natural resources (water, mineral oils, forests, etc., both renewable and non- renewable), transport and communications all require immediate attention from the institutions and the courses offered therein. Here it should be recognised that this sort of platitudinous statement is easily made than could be practicable. In our current system of technical education, the main elements of human resources, i.e., the faculty expertise and the student power, if these are to be utilised for the benefit and advantage of the community in the specific sectors mentioned above, a great deal of attention is to be paid as to what exact role these elements have to play in the total set up, as otherwise the danger of the institutions degenerating into more social service organisations, forgetting their real objective of technical education and training is always present. The academic curriculum for the students should be so organised as to give appropriate credits for practical projects/ service to be made by the students as part of their curricular programme in the investigations taken up by the faculty in the above sectors. Without dilution of he vigorous and curricular content and bringing to bear upon it professional requirements, the possibilities of dovetailing the investigations in the programmes in institutions has to be worked out carefully. Similarly, the investigations carried out with the existence of the students should be amenable to proper supervisions, scrutiny and appropriate assessment by the faculty who in turn will carry it on further for the benefit of the community without sacrificing the permanent interest of either the institution or the community into which they are looking for the time being. This again underlines the factor that any attempts to take all social projects naturally will have to consider projects of long-term and permanent benefits instead of issues of local popularity or short-term propaganda. This sort of interaction with the problem of the society would help the institution- faculty/the individual students to grow both professionally as also in relevant fields.

FINANCING OF TECHNICAL EDUCATION
Increasing costs - This brings us to the issue of financing of the technical education system as such. By and large, the efforts at building up and development of the system has so far been under official auspices - either Central and/or States. However, looking into the enormous costs involved, the maintenance of these courses/institutions and the increasing prices around of men and material, it would not be difficult to envisage a situation where let alone the sponsored agencies, but even the Government agencies, would find it difficult to adequately meet the rising cost of technical education. This is a matter of serious concern and has to be faced squarely before it is too late when this system which has been built with so much of care might crumble because of lack of adequate attention.

Resource Generation by Technical Institutions-It is true that considerable efforts have to be made by the institutions them- selves for augmenting their resources, by way of various measures for resource generation such as consultancy practice, servicing and testing, production, etc. However, as was pointed out earlier In connection with the involvement of the system in community services, here again one should not lose sight of the primary objective of the system as such. Any attempt at raising the resources should have only a secondary role that too complimentary to the academic culture of the system and not for its own sake. If this obvious principle is accepted then the limitations on the institutions raising their own resources will become evident. So, we are left with the major issue again of the provision of adequate funds for the technical education system. It is here, perhaps, one should consider the ways and means by which large users of the products of the system also share the responsibility adequately for the cost of production. There have been suggestions over the years in this direction for motivation by way of incentives, or raising of resources by levying a technical education cess on the users etc. Certain incentives, of course, have been offered by giving to an extent exemption for industry in Income Tax, towards contribution to educational programmes and for a cess in the research and development establishment for R & D purposes. But, however, this has not resulted in a large shift and on the whole most of the burden has been solely on that of the Government. This has been because technical education has been considered as part of social service and governmental responsibility for the social welfare programmes has had to take care of such programmes. It is now necessary for us to have a detailed and fresh look at this issue.

NATIONAL ASSESSMENT AND ACCREDITATION AGENCY
BOARD OF ASSESSMENT OF QUALIFICATIONS
The Board of Assessment of Qualifications of the Government of India, which also deals with professional qualifications and equivalence of various awards has a limited view of assessment for a specific purpose, i.e., for governmental employment. Further, as it is practiced, the work of the Assessment Board is a sort of one time evaluation based on a minimum requirement.

For a healthy and effective growth, what is required is a sort of continuous and objective assessment aiming at higher and still higher standards. Even though many agencies, particularly, statutory agencies are involved and any such attempt may not be looked upon with unmixed favour, the point to be remembered is that we should without further delay, strengthen our system, by identifying the weaknesses and strength of a particular sector/course/institutions so that there is adequate motivation and direction for further improvement. This comprehensive purpose of assessment, not limited for any objective of recruitment by official agencies only, will act as a spur when such evaluation and assessment is done periodically. This agency for accreditation and evaluation of standards should be a national agency, with perhaps, regional and sectoral wings, as may be required. Professional organisations and persons of standing in the profession and representatives of accredited user agencies should be intimately involved in the work of an agency. A system of frequent and periodical evaluation with provision for a graded scale of attainment of individual courses/departments should be the objective. Such an agency might work under the auspices of the Ministry of Education but not as a part of it; it should be an autonomous Organisation so that it would be free to draw upon expertise wherever available.

(3) Monitoring and Information System: Manpower planning- The setting up of such an agency, of course, presupposes the availability and easy flow of the required information from the various organisations to this agency. A national (and regional) agency for such an information system should be built up without further delay. Any monitoring of man power requirements, availability and utilisation, naturally will be depending upon such an information system being readily available.

Courses offered in P.G. degree level
1 Civil Engineering 2 Mechanical Engineering 3 Electrical Engineering 4 Chemical Engineering 5 Food & Bio-Chemical Engineering 6 Pharmacy 7 Chemical Technology 8 Textile Engineering 9 Electronics & Communication Engineering 10 Metallurgical Engineering 11 Architecture 12 Mining Engineering 13 Silicate Technology 14 Applied Mechanics 15 Town Planning 16 Applied Geology 17 Space Engineering & Rocketry 18 Aeronautical Engineering 19 Operations Research 20 Exploration Geophysics 21 Regional Planning 22 Mineral Engineering 23 Industrial Management & Industrial Engg. 24 Agricultural Engineering

Courses offered in P.G. Diploma level
1 Traffic Engineering 2 Refrigeration & Air Conditioning 3 Hydrology 4 Technology of Food & Drugs 5 Computer Science 6 Computer Control Engineering 7 Scientific Instrumentation 8 Instrumentation Technology 9 Highway Engineering 10 Irrigation & Hydraulics 11 Inland water navigation Engineering 12 Town Planning.

Courses offered in Indian Institutes of Technology
Under Graduate Level
1 Civil Engineering 2 Mechanical Engineering 3 Electrical Engineering 4 Chemical Engineering 5 Textile Technology 6 Metallurgy 7 Aeronautical Engineering 8 Mining Engineering 9 Agricultural Engineering 10 Naval Architecture 11 Architecture 12 Applied Geology 13 Exploration Geo-Physics 14 Electronics and communication

Post Graduate Level
1 Aeronautical Engineering 2 Agricultural Engineering 3 Chemical Engineering 4 Civil Engineering 5 Electrical Engineering 6 Electronics and Electrical Communication Engineering 7 Mechanical Engineering 8 Metallurgical Engineering 9 Mineral Engineering 10 Mining Engineering 11 Industrial Management and Industrial Engg. 12 Operations Research 13 City Planning 14 Regional Planning 15 Architecture 16 Applied Geology 17 Exploration Geophysics.

Courses offered in Regional Engineering Colleges
Under Graduate Level
1.Civil Engineering 2 Mechanical Engineering 3 Electrical Engineering 4 Electronics and Communication 5 Metallurgy 6 Architecture 7 Chemical Engineering

Post Graduate Level
1 Civil Engineering 2 Electrical Engineering 3 Mechanical Engineering 4 Metallurgical Engineering 5 Public Health Engineering 6 Structural Engineering

M.Tech. Industry-oriented Courses in Regional Engineering Colleges
1 Design & Production Engineering Machine Tools. 2 Electronics Instrumentation 3 Transportation Engineering 4 Chemical Plant Engineering 5 Advanced Physics 6 Advanced Engineering Mathematics 7 Hydraulics and Ground water Resources Eng 8 Design & Production - Power Plant Machinery Hydro-Electric. 9 Design & Production - Power Plant Machinery-Thermal 10 Design & Production - Power Plant Machinery-Heavy Electrical Equipment. 11 Foundation Engineering (Applied to Vibratory System) 12 Engineering Materials 13 Design & Production Engineering Medium Duty Machines 14 Mechanical Shaping of Metals (Rolling, Forging and Heat Treatment) 15 Extractive Metallurgy and Foundry with emphasis on Alloy Steel Production 16 Production of Fertilizers. 17 Extractive Metallurgy 18 Foundry Technology 19 Public Health Engineering 20 Integrated Power System and Diploma course in Metallurgy Ferro Alloys Production 21 Marine Structure 22 Industrial Structures 23 Industrial Physics 24 Analysis and Design of Process Equipment 25 Production of Process Machines and Equipment 26 Design of Process Machines 27 Design & Production - High Pressure Boilers and Accessories 28 Design & Production - Heavy Machines with emphasis on mechanical equipment for steel plants 29 Technology of Metallurgical Furn

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