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The cooperative education model adopted by Universities of Technology in South Africa embodies the notion that both education and training are equally essential. It incorporates productive work into the curriculum as a regular and integral element of a higher education course. The present model involves three cooperative partners namely, the university, student and employer. It should, therefore, be evident that cooperative education has two main components, namely an academic component and an experiential learning component, both of which are integral to its success. To enable students to understand the relationship between academic subjects and the world of work, cooperative education involves restructuring the educational experience. For some time, industry employer representatives have suggested that education and training offered at Universities of Technology do not always address the needs of industry. They argue that graduates lack the necessary theoretical skills, training and managerial understanding to ensure immediate meaningful employment. These inadequacies contribute to unemployment and the lack of advancement opportunity within their chosen careers. In addition, there is a need to examine the perceptions of students regarding course content before they go into industry. This was the motivation for this research. The aims of the research project are twofold. Firstly, to examine the course content offered within the civil engineering diploma programme, and secondly to measure the levels of subject satisfaction. Using an exploratory approach through a survey of 123 students, this study explores the course content and satisfaction levels based on study areas in the first year program. The results indicate that students generally perceive the subject Communication Skills to be least satisfying whereas Mathematics is considered to be the most satisfying subject. This paper concludes by presenting the subject satisfaction index tool which contributes to the range of intervention strategies as envisaged by the CIDB. This further contributes towards the improvement of the overall quality of University of Technology civil engineering academic programs and also the subsequent productive employability of its graduates.

The purpose of this paper is to present pedagogical approaches developed and implemented to deliver sustainable design education (SDE) to second-year undergraduate students on civil engineering programmes in the (then) School of Civil Engineering and Geosciences at Newcastle University. In doing so, the work presented offers an example of how to help students understand the contested and contingent nature of sustainability.

The research presented takes an action-based approach to the development of a teaching and assessment model centered on problem- and project-based learning in a real-world context.

Because of the use of a design brief, which addresses a practical infrastructure problem encountered by regional communities, the academic team were able to make arguments related to the three pillars of sustainability more accessible to the students. This suggests that pedagogical instruments based on problem- and project-based learning strategies are effective in delivering SDE.

The successful delivery of SDE requires commitment from the senior management teams leading individual departments as well as commitments embedded in the high-level strategies of Higher Education institutions. It was also found that some students need extra support from the teaching staff if their engagement through SDE is to be successful. This has practical implications for the amount of contact time built into undergraduate and postgraduate degree programmes.

The teaching and assessment model presented in this paper addresses various substantive and normative issues associated with SDE making it relevant and transferable to courses other than civil engineering.

The purpose of this study is to scrutinize the influence of individual learning styles on the effectiveness of augmented reality (AR)-based learning in structural engineering. There has been a lack of research examining the correlation between learning efficiency and learning style, particularly in the context of quantitatively assessing the efficacy of AR in structural engineering education.

Using Kolb’s experiential learning theory (ELT), a model that emphasizes learning through experience, students from the construction management department are assigned four learning styles (converging, assimilating, diverging and accommodating). Performance data were gathered, appraised, and compared through the three dimensions from the Knowledge, Attitude and Practices (KAP) survey model across four categories of Kolb’s learning styles in both text-graph (TG)-based and AR-based learning settings.

The findings indicate that AR-based materials positively impact structural engineering education by enhancing overall learning performance more than TG-based materials. It is also found that the learning style has a profound influence on learning effectiveness, with AR technology markedly improving the information retrieval processes, particularly for converging and assimilating learners, then diverging learners, with a less significant impact on accommodating learners.

These results corroborate prior research analyzing learners' outcomes with hypermedia and informational learning systems. It was found that learners with an “abstract” approach (convergers and assimilators) outperform those with a “concrete” approach (divergers and accommodators). This research emphasizes the importance of considering learning styles before integrating technologies into civil engineering education, thereby assisting software developers and educational institutions in creating more effective teaching materials tailored to specific learning styles.

The purpose of this study is to present an assessment of the sustainability content of the Nigerian engineering curriculum in universities.

Content analysis is used to generate and analyse data from three engineering documents, namely, the Benchmark Minimum Academic Standards for Engineering Programmes in Nigeria and the engineering handbooks of two Nigerian higher education institutions.

The Nigerian engineering curriculum is revealed to have a low sustainability content, with environmental concepts being the most cited themes and social topics as the least stated issues.

The sustainability assessment approach adopted in the study is constrained by the question of what constitutes a sustainability syllabus. Expert-derived sustainability themes used in the study are unavoidably incomplete and may limit the conduct of an exhaustive sustainability content assessment.

Based on the research outcome, the Council for the Regulation of Engineering in Nigeria and other stakeholders can consider ways to adequately incorporate sustainability themes in the Nigerian engineering curriculum.

The research is an effort to determine the presence of sustainability issues in the Nigerian engineering education, which has hitherto been scarcely documented. This study provides a baseline and a rationale for sustainability education interventions in the Nigerian engineering curriculum. It also presents a methodology for analysing sustainability content in university curriculum and contributes to the continuing sustainability education discourse, especially in relation to sub-Saharan Africa.

The purpose of this paper is to present the Strategic Research Consortium Centre for Technological Innovation in Building and Civil Engineering (A-CITEEC) and its scientific strategy for the promotion of research and higher education in building and civil engineering.

By means of an approach based on the comparison of strategic actions with other research consortia, a scientific programme is designed following innovative research areas.

The A-CITEEC is a supra-group structure that strengthens scientific research and provides new opportunities for innovation and technology transfer at the national and international level.

The main objective of the A-CITEEC is to improve and intensify research and knowledge transfer in the fields of engineering and sustainable construction. As a direct consequence, this consortium of research groups is promoting community well-being, economic development and optimization of ecosystem services.

The A-CITEEC enhances collaborations in the national and international university community to achieve their objectives. Other remarkable activities encouraged by the consortium are the organization of scientific events, such as visits to the research centre, the promotion of the research transfer to companies and encouraging the presence of women researchers.

The achievement of the objectives and research lines by the A-CITEEC members will lead to satisfying the sustainable development goals (SDGs), priorities of the RIS3 Strategy, Spanish Strategy for Science and Technology and Innovation 2013–2020 and with the European Strategy H2020.

The scientific activities shown in this case study are intended to ensure the continuity of the group consortium, which is unique at the regional level in the field of building and civil engineering.

The effectiveness of the construction industry highly depends on the quality of the work practices, education and training. Based on the industry’s need to strengthen the productivity and performance improvement scopes in the construction education/training practices, this study aims to develop a guiding tool for designing new training programmes in different qualification levels considering the industry’s near-future challenges.

The study methodology encompassed literature reviews, experts’ discussions/reviews and problem-based communication approaches with qualitative methods to obtain a set of expected competency outcomes (COs) for each qualification level. The necessary mapping frameworks were used to display the cross section of each CO.

The study has presented a guiding model comprising three categories of qualification levels, where each consists of 12 COs with the mapping outcomes against learning domains of a conceptual framework. The guiding model also displays the detailed steps to develop detailed curriculums for different qualification levels of training.

Though the scope of the study was limited to the Sri Lankan context, the findings can be beneficial to many other countries in similar scenarios.

Overall study outcomes are expected to make an impact on the industry’s reskilling and upskilling practices resulting in a considerable level of improvement in the quality and productivity of work operations.

The experts’ reviews highlight the developed model as a valuable tool that provides a platform for upgrading the construction education and training practices based on the industry’s near-future circumstances in productivity and performance improvement practices, also revealing its future influences in training accreditation processes.

This paper aims to explore the differences in first-year and senior engineering students’ engineering agency beliefs and career goals related to sustainable development. The authors also sought to understand how topics related to sustainable development in engineering courses affect senior engineering students’ goals to address these issues in their careers. This work provides evidence of how students’ agency beliefs may be shaped by higher education, which is essential to workforce development.

Findings stem from two national surveys of engineering first-year (Sustainability and Gender in Engineering, n = 7,709) and senior students (Student Survey about Career Goals, College Experiences, n = 4,605). The authors compared both groups using pairwise testing by class standing.

The results indicate that undergraduate studies tend to reinforce students’ engineering agency beliefs to improve their quality of life and preserve the environment. Significantly more senior students selected career goals to address environmental issues compared to first-year students. In general, students undervalue their roles as engineers in addressing issues related to social inequities. Those topics are rarely addressed in engineering courses. Findings from this work suggest discussing sustainability in courses positively impact setting career goals to address such challenges.

The study compares results from two distinct surveys, conveyed at different periods. Nonetheless, the sample size and national spread of respondents across US colleges and universities are robust to offer relevant insights on sustainable development in engineering education.

Adapting engineering curriculum by ensuring that engineering students are prepared to confront global problems related to sustainable development in their careers will have a positive societal impact.

This study highlights shortcomings of engineering education in promoting social and economic sustainability as related to the engineering field. Educational programs would benefit from emphasizing the interconnectedness of environmental, social and economic dimensions of sustainable development. This approach could increase diversity in engineering education and the industry, and by ripple effect, benefit the communities and local governance.

This work is a first step toward understanding how undergraduate experiences impact students’ engineering agency beliefs and career goals related to sustainability. It explores potential factors that could increase students’ engineering agency and goals to make a change through engineering.

This paper aims to analyze how a tangram activity improved students’ abilities to explain sustainability, articulate a positive perception of sustainable design and relate sustainability with innovation in engineering design.

The concept of paradigm shift was introduced in the classroom by using a tangram activity to help students understand that sustainable design requires out-of-the-box thinking. Instructors from three institutions teaching various levels of sustainability courses to engineering majors used the activity to introduce sustainable design, then measured the understanding and appreciation of the concepts introduced through the tangram activity with pre- and post-activity surveys.

Findings from the study indicate that students’ perceptions of sustainability significantly improved due to the activity, without regard to the institution. The activity also significantly improved students understanding of the connection between sustainability and innovation, across all three institutions, across all majors and across all years of study except second-year students. Improving engineering students’ views on sustainability may lead, over time, to changes in the industry, in which environmental performance is incorporated into the engineering design process.

Active learning approaches are needed for affective-domain learning objectives in the sustainability field for students to learn the necessary attitudes, values and motivations to implement sustainability in engineering design. Simple, easily implemented active learning techniques, such as the tangram activity presented here, can be implemented across the curriculum or to the public to introduce the paradigm shift necessary with sustainable design.

The purpose of this paper is to provide a consistent and systematic integration framework of sustainable development (SD) in a civil engineering (CE) curriculum, given the connection between the two. Curriculum integration is a challenging project and requires the development of certain protocols to ensure success.

This paper thus proposes a framework for the systematic integration of SD through the lenses of life cycle approach and associated tools to attain effective curriculum integration. The proposed framework suggests the following five steps: mapping the curriculum, setting learning targets, developing an action plan for the assessed program, implementing the action plan and assessing the final performance.

This framework was applied to the CE curriculum at Sherbrooke University. To assess its success, a student satisfaction survey was conducted, and teachers’ feedback was obtained; the results showed 85 per cent positive responses. The authors show how this study allowed the CE curriculum to be properly updated and brought in line with today’s engineering profession requirements with regard to SD.

The integration focuses on the application of life cycle approaches and tools such as environmental life cycle assessment and life cycle costing on CE content. Additionally, the presented approach can be easily adapted to other engineering curriculums and, to a certain extent, to other non-engineering curriculums.

Describes how first‐year civil engineering students interpreted the content and structure of an ecology course. Students’ learning processes were analysed from an intentional perspective, i.e. a perspective that takes into account the students’ educational aims and conceptions of the study situation. Interviews were carried out with six civil engineering students who had taken the ecology course. Classroom observations were carried out and the dialogue between the lecturers and the students recorded. Interviews were transcribed and analysed from an intentional perspective, i.e. meaning is ascribed to the students’ actions and utterances in terms of intent. Students contextualised the content of the ecology course in different ways – within natural science, cultural, social and political, applied and professional, and existential contexts. Students found the content of the ecology course to be a question of value judgement. Also, among the students there were feelings of accusation on behalf of engineers as professionals. Learning processes among the students were analysed in terms of contextual awareness and contextual inconsistency. Students mainly enhanced their knowledge in the sense that they tended to elaborate concepts solely on an empirical level and learned more facts. Suggests that environmental issues can be seen and dealt with from natural science, social science and philosophical perspectives, and that it is important that these different perspectives are explicitly addressed on a meta‐level. The tendency to enhance the amount of content matter to be taught without considering the meta‐level issues can cause the students problems in their efforts to learn. Suggested that the premises for teaching certain content should be made explicit by the teacher. To know why certain content has been included in the teaching may be of considerable help for the students in formulating relevant learning projects.