Please use this identifier to cite or link to this item: https://hdl.handle.net/10321/4462
Title: Relevance of Work Integrated Learning (WIL) in the geomatics programme at the Durban University of Technology
Authors: Raghubar, Avidesh 
Keywords: Work integrated learning (WIL);Experiential learning;Practice-based learning
Issue Date: 13-May-2022
Abstract: 
The Durban University of Technology (DUT) phased out the National Diploma:
Surveying and the B-Tech: Surveying qualifications and introduced a new qualification,
Bachelor of the Built Environment (BBE): Geomatics in January 2018. Work integrated
learning (WIL), which is also referred to as experiential learning (EL), emphasises
workplace learning encompassing a career-focused educational strategy, inclusive of
classroom-based and workplace-based forms of learning that are appropriate for a
professional qualification. WIL has become an integral part of the teaching and learning
pedagogy within the surveying profession at a national diploma level across many of
the technikons and universities of technology (UoTs) nationally over the past few
decades, including the DUT. WIL has become widely recognised as the cornerstone
of student development because this interaction with industry encourages students to
understand and appreciate the mechanisms of real WPL and the dynamics of a
professional working environment, with the opportunity to reflect on their strengths and
weaknesses while inculcating a sense of work identity and professionalism. Sattler
(2011) explained that the term WIL is often used interchangeably with work-based
learning, practice-based learning, work-related learning, vocational learning,
experiential learning, co-operative education, clinical education, internship, practicum,
and field education etc. For the purposes of this study, the terms ‘experiential learning’
and ‘work integrated learning’ will be used interchangeably.
WIL has now been excluded from the new BBE: Geomatics qualification, as this
qualification seeks to be more academically oriented and aligned. However, the lack
of a WIL component could possibly result in a graduate who exhibits deficiencies in
practical knowledge, technical skills, and work-related proficiencies when compared to
the traditional survey technician/technologist that industry has become accustomed to
over the years, which may have further detrimental consequences for the learner and
the industry sector. The aim of this study was therefore to investigate and evaluate the
historical impact of EL in terms of the impact on the student’s personal and professional
development, in the National Diploma: Surveying programme, and to evaluate the
relevance of WIL in the geomatics programme at the DUT. Data was collected through interactions with industry practitioners within the surveying
and geomatics fraternity in the KwaZulu-Natal (KZN) region. The motivation for the
study was to increase our understanding of industry’s perspectives on WIL to assist in
terms of informed decision making and best practices, which will be beneficial to all
stakeholders. There is an abundance of supporting literature highlighting the relevance
and benefits of WIL which has been widely acknowledged as a vehicle for contributing
to student development and increasing graduate employability outcomes. Dressler and
Keeling (2011, cited in Baker 2014), summarised over 100 research publications on
the benefits of WIL, regarding academic, personal, professional, and work skill
development aspects. Smith (2012, cited in Wingrove and Turner 2015) explains that
WIL creates the opportunity for higher education institutions (HEIs) to design, refine
and teach curricula that are responsive to current and future workplace requirements,
equipping students with the knowledge and capabilities to actively engage with industry
and community partners, and improve work readiness.
The study was conducted by employing a mixed-method approach incorporating
quantitative and qualitative methods. The quantitative method however was the
predominant technique since it constituted a significant part of the study. Quantitative
techniques involve data collection, organisation, analysis, interpretation, and
presentation of numerical data in both tabular and graphical formats. Appropriate
statistical techniques were applied through the use of SPSS data analysis software.
The qualitative method involved brief analysis of employer comments from the
experiential training (ET) report data set and feedback from the open-ended question
on both questionnaire surveys. The findings confirmed that the EL in the National
Diploma: Surveying had a positive and meaningful impact on the development of the
Diploma graduate. Further, the findings are that there is significant consensus from
industry and students regarding the importance and relevance of WIL in promoting an
enriching career focused education, and in facilitating the acquisition of discipline
knowledge, practical proficiency, graduate attributes, employability skills, and core
competencies that will culminate in an all-round holistic graduate to meet the needs of
a modern workforce for the various industry sectors. Some of the recommendations
arising from the study to support informed decision making going forward include:
implementation of a six or twelve month WIL programme, increase in industry
engagement and collaboration, implementation of WIL simulation methods, establishment of a survey camp, WIL staff industry secondment, and reintroduction of
the WIL empowerment project.
Description: 
Submitted in fulfillment of the academic requirements for the degree of
Master of Engineering: Civil Engineering and Geomatics, Durban University of Technology, Durban, South Africa, 2021.
URI: https://hdl.handle.net/10321/4462
DOI: https://doi.org/10.51415/10321/4462
Appears in Collections:Theses and dissertations (Engineering and Built Environment)

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