wow-inequalities/02-data/intermediate/wos_sample/a3edb316ff76af6c286761acefdd8e74-ali-asha-and-aliyar/info.yaml

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abstract: 'From the unique `Gurukula'' style of teaching prevailed during the Vedic
period, education as on date has evolved to the most modern concept of
e-learning. The method of imparting knowledge through coexistence of
teacher and students in ancient times has been transformed to such an
extent where the direct physical interaction between students and
teacher is not at all required. However, it is a fact that we are still
accustomed to the traditional way of classroom teaching, memory checking
tests, compulsory attendance etc. even in our post graduate level of
technical education. Teaching pattern followed in high school level is
followed in the same intensity even at engineering colleges. It is well
known that science and mathematics are important tools of engineering
programme but they are not themselves sufficient for one''s success as an
engineer. As world''s dependence on technology is increasing
tremendously, the need of the hour is to mould engineering graduates
with adequate skills and will power required to explore and exploit the
new opportunities of the world and thereby to contribute successfully
towards the social and economic prosperity of our country. This paper
makes a humble attempt to uncover the limitations of current engineering
education and also tries to put forward some proactive measures to
attain the desired results.
It is a fact that the technological advancement we had made is not used
up to the full potential in the field of education. The factors that
restrain engineering colleges from doing so may be listed as financial
constraints, lack of professionalism, method of `result-oriented''
teaching rather than knowledge based teaching and shortage of skilled
teaching manpower. Serious exploration of the following areas will be
required to overcome some of the above deficiencies felt in the current
engineering education:
1. Thrust on Research \& Development
2. Entrepreneurship development programmes
3. Social informatics
4. Electronic Technology
5. Industry-oriented education and Institute -industry interface
The judgement regarding the intellectual capability of technical
professionals can be done on the basis of research work carried out in
their respective countries. For every one lakh people, there are 150
researchers in India while the same is 3800 in US. Number of patents per
one million is approximated as one in India where as it is 289 in US.
Today''s engineers in the computer and IT field are well settled with
their jobs after graduation. Due to the high salary and lucrative
facilities offered by various IT companies, fields like research,
teaching etc. are ignored by youth. One of the reasons for above
backwardness is the lack of orientation given in the field of research
during their graduation. A remarkable progress can surely be made if
they are given motivation in pursuing career in the filed of research
and teaching during their graduation. Availability of highly skilled and
research-oriented teaching faculty is a necessity for inculcating the
flair of research to fresh engineers. Thrust on research should be
assured for assignments and project work carried out by the engineers
during their course of study. Research-oriented learning makes our youth
capable of out-of-the-box thinking and therefore innovative ideas will
be generated even at student level. As a result, teaching faculty will
also be equally benefited.
Tomorrow''s success is highly guaranteed for those engineering
professionals who can address the entrepreneurial requirements and
balance them with the specialized technological competencies. The skills
and knowledge required to become a successful entrepreneur is not given
due importance in the current engineering curriculum. Presently,
entrepreneurship is taught only in business schools, but now the
situation demands the same to be incorporated sufficiently in
engineering curriculum. This will help an engineer to develop business
skills along with technical skills so that opportunities can be
efficiently transformed into workable business models.
Social informatics relates to the interaction between society and
information-communication technologies (ICT). Addition of social
informatics to engineering curriculum will help IT professionals to
increase their accountability in social, cultural, political,
economical, legal and ethical areas where their technical competencies
will be applied. The other advantage is the extension of learning
process beyond the classroom to the society and developing a sense of
caring for others.
We are now blessed with the latest networking technologies like
Internet, Intranet, Cloud computing, Wi-fi etc. It is with concern to
mention that most of the engineering colleges had made use of the above
technologies for improving their administrative efficiency and not for
bettering academic efficiency of students. Educational institutions
should embrace latest networking technologies in developing new learning
platform. Since jobs become more and more insecure and mid life career
changes are frequent, lifelong learning is becoming an essential
requirement for engineering professionals. This situation can be
effectively utilised by engineering colleges for conducting virtual
classrooms for practising engineers that can yield financial advantage
for teaching faculty and college as well.
It is often said that engineering may be the only professional course
largely taught by non-practitioners. Hence institute-industry interface,
can very well compensate the missing link of industrial exposure.
Industries today demand teamwork from fresh recruited engineers whereas
teamwork is given less priority in the current engineering curriculum.
Industry being the end user of engineering graduates, restructuring of
the curriculum in line with industrial demands may also be tried out.
Adaptability to industrial environment is a main factor for the
successful discharge of an engineer''s responsibilities. Universities
must recognise the fact that industry is their main client and hence
students must be given ample opportunities to interact with industries.
Industry-oriented learning for engineering students is almost like a
`give and take policy'' since both industries as well as students is
equally benefited.
India had made a remarkable progress in recent years especially in the
service sector. Global community is well aware of our mettle in IT and
BPO industries. The unique advantage we are having is the pool of
skilled manpower, which we would need to grow consistently in order to
sustain our competitive edge in current market scenario. Now we have to
aim for an equilibrium in which we should focus equally on R\&D sector
along with BPO. More than 200 companies listed in the fortune 500
companies had already established their R\&D facilities in India. To
accelerate India''s growth as a hub for R\&D, availability of employable
engineers with passion for research is utmost essential. This requires
additional infrastructure and faculty requirement as well as radical
changes in current technical education system. The stage is now set for
industry experts, academia think tanks and top brass of government
policy makers to review the existing engineering education and to
initiate debate and discussions to enhance the quality of education. It
is presumed that this paper will be an eye opener for the above purpose.
This paper discusses the different challenges faced by the engineering
education systems and suggestions based on various alternative
strategies are discussed which can easily be incorporated into the
engineering curricula; the introduction of which makes the system
complete in all meaning.'
affiliation: 'Ali, A (Corresponding Author), Ilahia Coll Engn \& Technol, Dept Informat
Technol, Muvattupuzha, Kerala, India.
Ali, Asha; Aliyar, Liyamol, Ilahia Coll Engn \& Technol, Dept Informat Technol,
Muvattupuzha, Kerala, India.'
author: Ali, Asha and Aliyar, Liyamol
author-email: 'ashaali2002@gmail.com
liyanousheer@gmail.com'
author_list:
- family: Ali
given: Asha
- family: Aliyar
given: Liyamol
book-group-author: IEEE
booktitle: '2012 IEEE INTERNATIONAL CONFERENCE ON ENGINEERING EDUCATION: INNOVATIVE
PRACTICES AND FUTURE TRENDS (AICERA)'
da: '2023-09-28'
files: []
isbn: 978-1-4673-2267-6
keywords: 'Engineering Education; Social Informatics; Industry-Institute Interface;
Entrepreneurship; Research; Industrial oriented teaching and learning'
language: English
note: 'IEEE International Conference on Engineering Education - Innovative
Practices and Future Trends (AICERA), Amal Jyothi Coll Engn, Kottayam,
INDIA, JUL 19-21, 2012'
number-of-cited-references: '11'
orcid-numbers: Ali, Asha/0009-0006-0479-9595
papis_id: 4260de122636c112ce7ecbf97703acc8
ref: Ali2012reengineeringict
times-cited: '1'
title: Re-engineering of ICT Engineering Education
2023-10-01 08:15:07 +00:00
type: proceedings
2023-09-28 14:46:10 +00:00
unique-id: WOS:000312406000052
usage-count-last-180-days: '2'
usage-count-since-2013: '37'
web-of-science-categories: 'Computer Science, Interdisciplinary Applications; Engineering,
Electrical \& Electronic'
year: '2012'