Technical and vocational education in Malaysia: policy, leadership, and professional growth on Malaysia women

Technical and Vocational Education (TVE) is facing new challenges in an increasingly competitive global context. The continuing under representation of women in engineering fields at semi-skilled and high-skilled levels is receiving renewed attention. This paper explores women as part of special population in Malaysia who desire to be placed as equal to men in Malaysian context. Policy, leadership, and professional growth are discussed comprehensively to support Malaysian females’ involvement in engineering disciplines, one of Technical and Vocational Education (TVE) programs in Malaysia. This paper also explores issues and challenges facing by Malaysian women in order to be recognized by the sub-ordinates, peers, leaders and society within male-dominated professions and environment

Challenges for Holistic Engineering Education Development in India

The new challenges for engineering education go more than the need to keep students abreast of cutting edge technology and calls for a better equilibrium in the various areas of engineering. There is considerable concern that upholding of the old standard by engineering institutions will all but degrade the quality of engineers as well as difficulty in adapting to the growing difficulties of the worldwide marketplace globally. This requires the new development model for the holistic growth of engineering education. However, adaptation of new development model will not be easy since lots of our research universities are faced with monetary pressures. Indian government has made significant contribution toward this growth phase for the development of nation. This paper addresses for an assessment study of the methods developed by reputed engineering institutions in India to lay the foundation for future engineering education. The looking forward segment provides suggestions and plans for engineering education in India.DOI: http://dx.doi.org/10.11591/ijere.v3i1.558

SASICE: Safety and sustainability in civil engineering

The performance of the built environment and the construction sector are of major importance in Europe’s long term goals of sustainable development in a changing climate. At the same time, the quality of life of all European citizens needs to be improved and the safety of the built environment with respect to man-made and natural hazards, such as flooding and earthquakes, needs to be ensured. Education has a central role to play in the transformation of a construction sector required to meet increasing demands with regard to safety and sustainability. In this work, the SASICE project is presented. The aim of this project is to promote the integration of safety and sustainability in civil engineering education. The project is organised in the context of the Lifelong Learning Programme, funded by the European Community. The coordinator organisation is the University of Bologna. Nine partner universities from different countries are involved in this transnational project. The universities participating to the project constitute a network of high level competences in the civil engineering area, with several opportunities to improve lifelong learning adopting different media: joint curricula, teaching modules and professor and student exchanges. As a response to the challenge regarding new educational methods in sustainable engineering, teaching modules are developed in 4 thematic areas: (1) Safety in construction, (2) Risk induced by Natural Hazards Assessment, (3) Sustainability in construction, and (4) Sustainability at the territorial level. The development of the teaching modules is based on an extensive analysis of the need for highly qualified education on Safety and Sustainability involving all relevant stakeholders (European and national authorities, companies, research institutes, professional organizations, and universities).The main target is enabling students to introduce these advanced topics in their study plans and curricula and reach, at the end of their studies, a specific skill and expertise in safety and sustainability in Civil Engineering. With our natural resources fading away and our infrastructure in dire need of repair, new trends and challenges in civil engineering education in the concept of “Sustainable Development” are needed to be adressed.<br/

Current Status of Engineering Graduates and Employability

Engineering is the application of science and technology in order to design, build and maintain structure, machine, and device. India is a unique position where it has developed a reasonable infrastructure in engineering and technology in some of the fields. The new challenges for engineering education go more than the need to keep students abreast of cutting edge technology and calls for a better equilibrium in the various areas of engineering. This requires the new development model for the holistic growth of engineering education. Adaptation of new development model will not be easy since lots of our research universities are faced with monetary pressures. Indian government has made significant contribution toward this growth phase for the development of nation. This paper addresses for an assessment study of the methods developed by reputed engineering institutions in India to lay the foundation for future engineering education

ICT security curriculum or how to respond to current global challenges

The paper presents some results obtained through the implementation of the Erasmus LLP “SALEIE” (Strategic Alignment of Electrical and Information Engineering in European Higher Education Institutions). The aim of the project was to bring together experts from European universities to enhance the competitiveness of Electrical and Information Engineering (EIE) education within Europe, especially in relation to modern global technical challenges and to provide higher education models in a few EIE fields in accordance with these challenges. One of the outcomes of the project was a new ICT Security curriculum for bachelor and master levels. The research methodology comprised such stages as: identifying the most important current global challenges, conducting a survey related to existing EIE programs in order to establish the top-level criteria for an EIE curriculum, analysing the results of the survey, obtaining the industry feedback related to technical and non-technical skills required for the specific field, and proposing a new curriculum for ICT Security programmes to respond to the modern technical challenges and to meet the needs of the industry, students, academics and graduates

Learning for change : Cross-disciplinary postgraduate programmes in sustainability

Through connecting the local and global, higher education institutions play a vital role in addressing social, environmental and economic challenges and ultimately achieving a sustainable future. New Horizons: Responding to the Challenges of the 21st Century (Scottish Government, 2008), outlines the contributions which Scottish universities should make to the economy, culture and society, and to the political priorities of the Scottish Government. Learning for Change: Scotland’s Action Plan for the Second Half of the UN Decade of Education for Sustainable Development (Scottish Government, 2010) examines progress to date and sets out the actions that higher education institutions have committed to undertaking in the second half of the decade and beyond. These two important documents provide the context for work that has taken place at the University of Strathclyde in response to the challenges set out within them. The University of Strathclyde has been ranked first in the Engineering Education for Sustainable Development (ESD) Observatory Report 2008 and plans to build on this success. The challenges presented by Sustainable Development are inherently holistic, demanding equal responses from all disciplines and this requires the development of a framework for University-wide, cross disciplinary teaching. This paper describes work that has taken place within the University to develop a new university-wide, multi-disciplinary, Strathclyde Masters programme in Sustainability (SMS) aimed at articulating a framework for integrating flagship postgraduate courses & classes, sustainability literacy, skills training workshops and subsequent continuing professional development courses. Conclusions are presented from the three main bodies of work involved: a review of current thinking in ESD; a multi-stakeholder consultation process involving students, academic and professional services staff within the university, and external stakeholders, and the creation of a Sustainability Map detailing current postgraduate provision of ESD at the University

Lean Engineering Education : bridging-the-gap between academy and industry

This paper presents Lean Engineering Education (LEE) as an curricular innovation in the Engineering courses. It provides a discussion, mainly based on literature and informal dialogues, about the disconnected world of academy and industry and the demands for new educational methods and strategies. Additionally, it defines LEE as also the principles inherent to this and describes how LEE addresses two complex challenges faced by Higher Education Institutions: the globalized marketplace and the right skills from industry perspective for engineering graduates

Identifying Challenges to Infusing Ethics into the Development of Engineers at Texas State University

Over the past six years we have worked to integrate ethics education throughout the curriculum of the still-new Ingram School of Engineering. During work on an NSF funded grant, we were able to infuse ethics related modules in 13 different courses, across three colleges and at all levels of undergraduate study. Our goal in participating in the GSW ASEE meeting is to share ideas about addressing challenges that arose during this project. We also hope to learn about faculty resources others have found most helpful in allowing faculty with diverse cultural and professional backgrounds to effectively infuse ethics into technical courses.Cockrell School of Engineerin

Managing the complexities of English Language teaching in engineering

In this 21st century, engineering employers seek professional engineers who have excellent scientific knowledge and are able to demonstrate good communication and problem solving skills. With this focus on job demands, engineering education has been restructured, balancing the emphasis between scientific knowledge and soft skills. This shift in focus has not only affected the teaching and learning in engineering education, but also English Language (EL) educators who are involved in teaching non-technical components within an engineering education curriculum. This shift in focus has raised the demand for ESP which include teaching communication skills in English language discourse used in engineering, and teaching problem solving skills in English language teaching. With this demand, challenges are inevitable among EL educators who are generally prepared for teaching English for generic purposes in school settings and who bring with them pedagogical knowledge and beliefs in English language teaching, as well as identities they have developed from their previous to their new workplace. This shift also raises questions about the ways in which English language teaching is positioned, the role of English language courses within an engineering-specific context and the implications of this positioning on the design of the English language courses. The main aim of this study was to investigate how EL educators managed the complexities in teaching English at one technical university in Malaysia. In addressing the research questions, a case study design was developed to highlight the complexities within that context and the ways in \ud which EL educators managed these complexities. The data for this study were collected through qualitative and quantitative methods to unpack the complex process of teaching English for engineering which included teaching problem solving and communication skills. These methods obtained insights into the ways in which EL educators conceptualised English language teaching, positioned themselves and framed their teaching in an engineering context. The quantitative data were collected through a questionnaire involving 12 EL educators. The data from the questionnaire were used to profile the EL educators at the English Language Department of this university. Based on the profiling, four EL educators teaching undergraduate engineering students were selected for the main study. The qualitative data were collected through document study, individual semi�structured interviews, classroom observations, video recording of classroom observations and stimulated recall protocols. This study found that there were disconnections between English language teaching and the engineering discipline at this university. These disconnections were due to the dissemination process of the engineering accreditation requirements whereby these requirements went through ii multiple layers of interpretation, adaptation and translation before they reached the EL educators, causing ambiguities in positioning English language teaching and misalignments in the role of the English language courses within the engineering academic curriculum. As a result, tensions occurred in determining the emphasis of English language teaching. The ambiguities in positioning English language teaching and the misalignments of the English language courses presented the EL educators with challenges in managing their pedagogies and framing their teaching within the context of an engineering university. The study found that the strategies that the EL educators exercised in their agency resulted from the interplay between how they positioned English language teaching and the professional identities they developed in their university context. The demand for ESP required these EL educators to teach beyond their expertise, creating challenges for them to establish their professional identities. Complexities emerged when English language teaching involved integration among English language, communication skills, engineering knowledge, and problem solving skills. This study contributed to the field of English language teaching, specifically to English for Specific Purposes (ESP) by providing knowledge and understanding of the complexities of teaching English for the engineering discipline in higher education. It also contributed to research on professional identities by highlighting the tensions, struggles and negotiations that EL educators faced in positioning themselves within this context to determine their professional identities. The findings of this study deepen our knowledge and understanding of professional identities and agency among EL educators in the Malaysian context, particularly in the discipline-specific context of engineering

‘New Engineering Education’ in Chinese Higher Education: Prospects and challenges

Since becoming a formal signatory of the Washington Accord in 2016, China has outlined an initiative ‘New Engineering Education’ (NEE) to reform its engineering education at university level. This paper elaborates upon the NEE initiative by presenting analysis of its domestic and international context, the goals of the initiative, how the initiative draws upon international standards, major actions under the initiative, and the challenges remaining for NEE to achieve its goals. The paper argues that China views international practices and standards of engineering education in developed nations as highlands to imitate and surpass, and the NEE goals embody an ambitious systematic rather than partial reform of the sector. China has pushed forward the NEE reform with measures such as formulating National Standards for dozens of categories of engineering programs, commissioning 600+ research projects on NEE development, establishing new engineering programs and interdisciplinary courses, strengthening university-partnership, updating accreditation for engineering programs, and improving both external and internal quality assurance mechanism. The sector, however, still faces challenges in achieving systematic quality upgrade due to hindering factors like enlarged uneven resource allocation, downplayed teaching activities and the difficulties in reforming the curricula system. Expected changes are also discussed.Received: 06 March 2018Accepted: 07 November 2018Published online: 29 November 2018</p