Developing standards for undergraduate university construction education internship programs

Hager, Cassandrea Jane

29 August 2005

Personally observed variability among construction education internship programs prompted this investigation. The schools of construction that form the Associated Schools of Construction (ASC) encourage its members to provide curricula that produces qualified professionals for the construction industry. There is agreement within ASC that a practical component along with classroom curriculum is needed for construction students?? education (Senior, 1997). Although construction programs have different ways of accomplishing this experiential component, most do have some sort of internship or cooperative program (Chapin, et al., 2003). Construction internships vary greatly from one program to the next ?? in length, supervision, academic deliverables, and whether credit is earned. No common set of internship field experience standards or best-practices guidelines have been developed for construction education. This study was divided into three subproblems. Subproblem One describes the status of construction internship programs currently administered in selected American undergraduate universities. Subproblem Two identifies elements that students, companies and schools perceive to support valuable, satisfying internship experiences. And, Subproblem Three incorporates findings from Subproblems One and Two to identify common elements to provide a structure for construction internship programs, in order to develop a set of guidelines for construction education internship programs. Three constituencies were surveyed: 1) university undergraduate construction programs, 2) construction companies, and 3) students of the respective construction programs. The school survey utilized ASC membership rosters to survey 91 schools, with 56 participating (62%). The company survey randomly sampled 200 of the Top 400 U.S. Construction Companies listed in Engineering News Record??s ENR Sourcebook 2003, with 75 participating (37.5%). The student survey had 31 students from eleven schools in nine different states voluntarily participate. Univariate analyses on only one variable at a time served to describe the survey population, and by extension, the population from which the sample was selected. The data were analyzed utilizing frequency percentages and summary averages including mode and mean. Based on the findings of this study, it was concluded that a set of ??best-practices?? guidelines were needed for construction education internship programs. A set of best practices guidelines for developing construction education internship programs are provided.

Construction Education

Internship

Standards

The relationship of constructivism to language and mathematics learning /

Grigoruk, Melissa Sue Wright,

January 1997

Thesis (Ed. D.)--Lehigh University, 1997. / Includes vita. Bibliography: leaves 127-135.

Teaching Prevention through Design (PtD) Principles Using a Non-Traditional Pedagogical Strategy

January 2017

abstract: Many accidents occur during construction and maintenance of facilities. Both research and practice have demonstrated that decisions made during the design and planning phases before work at a construction site can influence workers’ safety. The Prevention through Design (PtD) concept is the consideration of construction site safety in the design of a project. In one research study, more than 200 fatality investigation reports were reviewed, and the results showed that 42 percent of fatalities reviewed were linked to the absence of the PtD concept (Behm, 2005). This work indicates that the associated risk that contributed to the incident would have been reduced or eliminated if PtD had been utilized. Researchers have identified the reasons for not applying the PtD concept. The predominant reason is that most architects and design engineers do not learn about construction safety and construction processes required to eliminate construction safety hazards through design. Therefore, Prevention through Design education of architects, design engineers, and construction managers is vital. However, in most curricula, there is no room for an entire course focused on PtD. Therefore, one researcher implemented 70 minutes long lecture-based intervention in a project management class of the civil engineering discipline, but it did not prove effective (Behm, Culvenor, & Dixon, 2014). Hence, there is an opportunity to teach PtD to students using alternative teaching strategies such as computer games. Computer games are routinely considered as the most important and influential medium by college students. In this research study, a serious game and a paper-based game (paper version of the serious game) were developed and implemented. The aim of the study was to measure the effectiveness of alternative teaching methods to train students for safe design thinking. The result shows that the computer game engaged the students in comprehensive hazard recognition challenges. The learning experience of the students was compared to two other interventions: paper-based game and lecture-based teaching. The in-class lecture and the computer game were effective in delivering the prevention through design topics. The game was more effective compared to the lecture. The paper-based game failed to motivate students to learn. This dissertation discusses the possible reasons for success and failures of these pedagogical approaches. / Dissertation/Thesis / Doctoral Dissertation Civil, Environmental and Sustainable Engineering 2017

Civil engineering

Construction education

Prevention through Design

Serious games

Fulk, Brandon - Masters Thesis.pdf

Brandon M. Fulk (5930624)

21 December 2022

<p>The thesis aims to evaluate (ground) and influence (inform) the intersection of the Construction Engineering Education (CEE) field with Engineering Education (ENE) by evaluating three research objectives:</p> <ol> <li>Does literature indicate that CEE (Construction Engineering Education) in the US higher education system actively integrate established ENE (Engineering Education) Recommended Practices (RP) pedagogically?</li> <li>Does Purdue’s Division of Construction Engineering and Management (CEM) incorporate Engineering Education Recommended Practices?</li> <li>Can Engineering Education Recommended Practices be applied to CEM courses?</li> </ol> <p>The framework developed to evaluate the research objectives established a mixed-method research approach that employed systematic literature review and action research. The author is motivated to provide students with authentic and centered experiences allowing students to attempt complex activities and fail with a controlled environment before entering the AEC profession. The volume of literature discovered in the research indicates an opportunity to implement and promote ENE RP. The deployment of the CEE-accepted ENE RP demonstrates the agility and impact of the RP options. As a result, the author’s work contributes to the growth of the CEE field, the development of CEM courses implementing ENE RP, and the engagement of the construction student. </p>

Construction engineering

Engineering education

Engineering education standard

Construction education

Impact of Interactive Holographic Learning Environment for bridging Technical Skill Gaps of Future Smart Construction Engineering and Management Students

Ogunseiju, Omobolanle Ruth

25 July 2022

The growth in the adoption of sensing technologies in the construction industry has triggered the need for graduating construction engineering students equipped with the necessary skills for deploying the technologies. For construction engineering students to acquire technical skills for implementing sensing technologies, it is pertinent to engage them in hands-on learning with the technologies. However, limited opportunities for hands-on learning experiences on construction sites and in some cases, high upfront costs of acquiring sensing technologies are encumbrances to equipping construction engineering students with the required technical skills. Inspired by opportunities offered by mixed reality, this study presents an interactive holographic learning environment that can afford learners an experiential opportunity to acquire competencies for implementing sensing systems on construction projects. Firstly, this study explores the required competencies for deploying sensing technologies on construction projects. The current state of sensing technologies in the industry and sensing technology education in construction engineering and management programs were investigated. The learning contents of the holographic learning environment were then driven by the identified competencies. Afterwards, a learnability study was conducted with industry practitioners already adopting sensing technologies to assess the learning environment. Feedback from the learnability study was implemented to further improve the learning environment after which a usability evaluation was conducted. To investigate the pedagogical value of the learning environment in construction education, a summative evaluation was conducted with construction engineering students. This research contributes to the definition of the domain-specific skills required of the future workforce for implementing sensing technologies in the construction industry and how such skills can be developed and enhanced within a mixed reality learning environment. Through concise outline and sequential design of the user interface, this study further revealed that knowledge scaffolding can improve task performance in a holographic learning environment. This study contributes to the body of knowledge by advancing immersive experiential learning discourses previously confined by technology. It opens a new avenue for both researchers and practitioners to further investigate the opportunities offered by mixed reality for future workforce development. / Doctor of Philosophy / The construction industry is getting technically advanced and adopting various sensing technologies for improving construction project performance, reducing cost, and mitigating health and safety hazards. As a result, there is a demand in the industry for graduates that can deploy these sensing technologies on construction projects. However, for construction engineering students to acquire the skills for deploying sensing technologies, it is necessary that they are trained through hands-on interactions with these technologies. It is also imperative to take these students to construction sites for experiential learning of sensing technologies. This is difficult because most institutions often experience barriers and hindrances like weather constraints, difficulty in accessing jobsites, and schedule constraints. Also, while some institutions can afford these sensing technologies, others cannot, making it difficult to train students adequately. Due to the benefits of virtual learning environments (such as mixed reality and virtual reality), this study investigates a mixed reality (holographic) environment that can allow learners an experiential opportunity to acquire competencies for implementing sensing systems on construction projects. To achieve this, this research first investigated the required competencies such as skills, knowledge, and abilities for implementing sensing technologies on construction projects. The current state of sensing technologies in the industry and sensing technology education in construction engineering and management programs were investigated. The results from the first study in this research informed the learning contents of the learning environment. Afterwards, a learnability study was conducted with industry practitioners already adopting sensing technologies to assess the learning environment. Feedback from the learnability study was implemented to further improve the learning environment after which a usability evaluation was conducted. To investigate the pedagogical value of the learning environment in construction education, a summative evaluation was conducted with construction engineering students. The research contributes to the definition of the domain-specific skills required of the future workforce for implementing sensing technologies in the construction industry and how such skills can be developed and enhanced within a mixed reality learning environment. The design features such as the concise outline and sequential design of the user interface, further revealed that knowledge scaffolding can improve task performance in a mixed reality environment. This research further contributes to the body of knowledge by promoting immersive hands-on learning discourses previously confined by technology. It opens a new avenue for both researchers and practitioners to further investigate the opportunities offered by mixed reality for future workforce development.

Sensing technologies

Mixed reality

workforce development

Construction education

experiential learning

The Impact of Experiential Learning:   Assessing the Outcomes of Internship Experiences for Students Entering the Construction Industry

Short, Kathleen M.

08 May 2013

The state of the economy has brought changes in the construction industry creating a more competitive employment environment in the construction industry as well as an increase in project requirements due to complexity, duration of work, fewer employees to do the work, and the type of projects being undertaken.  These changes have created an increased need for managers to possess both technical skills and also emotional competencies.  Employers are now seeking to hire individuals who exhibit emotional competencies and other soft skills, such as empathy, verbal communication and relationship building. Soft skills improve the development and maintenance of relationships among the diverse group of professionals necessary to complete projects.  With the construction industry being nomadic in nature, the ability to develop and maintain relationships can be especially important. Employers are placing more emphasis on these soft skills when evaluating potential hires and starting salaries. With these changes comes the realization that students seeking to gain employment in the industry need to have a competitive edge.  While soft skills are critical for students graduating from construction focused programs, opportunities to learn and enhance these skills are not always available within the curriculum. The majority of students graduating from college programs today are part of a generation referred to as Millennials"a generation differing greatly from those that have come before them. For Millennials to gain a competitive edge and maximize employment opportunities, they must first have an understanding of what the industry perceives students need to be successful in the industry.  Program curriculums must also find a way to produce students that offer more than just technical knowledge to employers.  This is not always possible within existing programs trying to meet the demands of accreditation requirements within the credit hours required.  One option construction focused programs could consider to incorporate opportunities for students to gain a competitive edge would be through the mandatory participation of a structured internship experience. This research sought to address these issues and offer insight into what characteristics industry felt were necessary for student success.  The work also sought to establish whether students had an understanding of these characteristics and whether they felt they were strong or deficient in these areas.  The research also identified the role internships played in current accredited construction focused programs and whether student participation in internships had an impact on their understanding of the characteristics required to be successful in the construction industry. / Ph. D.

Experiential Learning

Internships

Construction Education

Soft Skills

Millennials

Assessing Experiential Learning in Construction Education by Modeling Student Performance

January 2019

abstract: The typical engineering curriculum has become less effective in training construction professionals because of the evolving construction industry needs. The latest National Science Foundation and the National Academies report indicate that industry-valued skills are changing. The Associated General Contractors of America recently stated that contractors expect growth in all sectors; however, companies are worried about the supply of skilled professionals. Workforce development has been of a growing interest in the construction industry, and this study approaches it by conducting an exploratory analysis applied to students that have completed a mandatory internship as part of their construction program at Arizona State University, in the School of Sustainable Engineering and the Built Environment. Data is collected from surveys, including grades by a direct evaluator from the company reflecting each student’s performance based on recent Student Learning Objectives. Preliminary correlations are computed between scores received on the 15 metrics in the survey and the final industry suggested grade. Based on the factors identified as highest predictors: ingenuity and creativity, punctuality and attendance, and initiative; a prognostic model of student performance in the construction industry is generated. With regard to graduate employability, student performance in the industry and human predispositions are also tested in order to evaluate their contribution to the generated model. The study finally identifies threats to validity and opportunities presented in a dynamic learning environment presented by internships. Results indicate that measuring student performance during internships in the construction industry creates challenges for the evaluator from the host company. Scoring definitions are introduced to standardize the evaluators’ grading based on observations of student behavior. 12 questions covering more Student Learning Objectives identified by the industry are added to the survey, potentially improving the reliability of the predictive model. / Dissertation/Thesis / Doctoral Dissertation Construction Management 2019

Civil engineering

Curriculum development

Cognitive Theories

Construction Education

Experiential Learning

Statistical Modeling

Student Performance

Survey

Leveraging Artificial Intelligence for Improving Students' Noticing of Practice during Virtual Site Visits

Olayiwola, Johnson Tumininu

11 January 2023

Complementing the theoretical concepts taught in the classroom with practice has been known to enhance students' contextual understanding of the subject matter. Exposing students to practical knowledge is crucial as employers are expressing discontent with the skills of newly hired graduates. In construction education, site visits have been identified as one of the most effective tools to support theory with practice. While site visits allow students to observe construction projects and engage with field personnel, numerous barriers limit its use as an effective educational tool. For instance, there are safety, cost, schedule, and weather constraints, in addition to the logistics of accommodating large class sizes. As a result, instructors employ videos of construction projects as an alternative to physical site visits. However, videos alone are insufficient to draw students' attention to essential practice concepts. Annotations can be used to attract students' attention to practical knowledge while reducing distractions and assumptions. Leveraging on the recent progress in computer vision techniques, this study presents an AI-annotated video learning tool that instructors can utilize to equip students with practice knowledge when there is limited access to physical construction sites. First, this study investigated the construction practice concepts that industry practitioners would want students to know when engaging them in site visits. Afterward, the design and development of the AI-annotated learning tool were guided by the identified practice concepts, cognitive theory of multimedia learning, and dual coding theory. To determine if the learning tool can call students' attention to annotated practice concepts in videos, a usability evaluation was conducted. Finally, this research investigated the influence of individual differences that could contribute to how learners notice practice concepts in videos. This study contributes to the body of knowledge by identifying what construction professionals notice about their work and what they would like students to notice about construction practice. This study reveals that annotations of learning contents in construction videos can direct students' focus to the annotated contents, thereby contributing to the cognitive theory of multimedia learning and dual coding theory. By leveraging machine learning classification algorithms, this research identified the extent to which individual differences such as gender, academic program, and cognitive load can be detected from the ways students notice information in construction videos. Results from this research provide opportunities for researchers to further advance the potential of annotated videos in the construction domain and other fields that employ video as a learning tool. / Doctor of Philosophy / Instructors often support classroom teaching with practical experiences to enhance students' understanding. This is especially important as employers are expressing discontent with the skills of fresh graduates. In construction engineering education, taking students to construction sites to observe the processes and operations is one of the common ways of providing students with these practical experiences. However, barriers such as safety concerns, cost, schedule, weather constraints, and the logistics of accommodating large class sizes make it challenging to engage students in construction site visits. Owing to these barriers, instructors utilize construction site videos instead of physical site visit experiences. Despite the benefits of using videos to teach, research has shown that presenting videos only to students might not be sufficient for learning as relevant and irrelevant information are usually present in videos. Therefore, calling out relevant information in videos would enable students to focus on them, enhancing their learning. To this end, this study presented a video-based learning tool that instructors can utilize to provide students with site visit experiences. In the environment, important information are called out using boundary boxes and texts. To achieve this, first, the study identified the practical knowledge that industry experts would want students to know about construction sites. Then, the identified information was annotated in construction videos via the guidance of learning theories such as the cognitive theory of multimedia learning and dual coding theory. A usability evaluation was conducted to test if students could notice the annotated contents in the video. Afterward, individual differences such as gender, academic program, and mental workload that could contribute to how students would notice annotated information in construction videos were investigated. The study contributes to the practical concepts learners need to acquire to prepare them for the workforce. Additionally, this study proved that annotating important information in videos can direct student attention to those contents. Furthermore, to make learning environments flexible for different learners, this study identified the extent to which individual differences such as gender, academic programs, and cognitive loads can be recognized from the way learners notice annotated contents of videos. Finally, the outcomes of this study would make it possible for other researchers to further advance the potentiality of teaching with annotated videos in the construction domain and other related fields.

Construction Education

Video-based Learning

Annotated Video

Computer Vision Techniques

Multimedia Learning.

Ethics Education and Its Relationship to  Undergraduate Construction Students' Professional Ethical Sensitivity

Sands II, Kenneth Stafford

22 November 2014

The construction industry is inundated with many ethical problems that have supported its negative stigma as an unethical and corrupt industry. This inundation instigates the requirements of ethics instruction by accrediting bodies of construction education with the art of teaching this secondary topic left up to construction educators. Literature offers suggestions; however, there is not much understood regarding pedagogical best practice to ensure students are ethically sensitive (aware) to ethical issues related to the construction industry. This research attempts to move toward an understanding of construction ethics education's influence on students' ethical sensitivity. Two research strands were employed. The first strand included the development of a broad collection of ethics pedagogical techniques used in construction education (independent variable), via the administration of a how ethics is taught in construction survey (HETC) to both faculty and students of purposefully selected construction programs. The second strand included the development and administration of a Test for Ethical Sensitivity in Construction (TESC) to evaluate construction students' ability to recognize ethical issues that are specific to the construction industry (dependent variable). Results of the first strand illustrate a wide range of pedagogical techniques available to teach ethics in construction programs to assist and inspire the improvement of construction ethics education. Results of the second strand illustrate various degrees of difficulty students had recognizing ethical issues of the TESC and how this related to ethical content coverage in construction programs' curricula. In addition, regarding participants of this study, there were significant differences found in student level of ethical sensitivity based on program of enrollment; however, there were no significant differences found based on student recollection of the placement of ethics in their curriculum, professional experience, age, or gender. It appears that ethics education has some influence on the professional ethical sensitivity of construction students; however, more research is necessary to confirm the degree of influence. Additional research is necessary to identify the most current and critical ethical issues of the construction industry to develop an auxiliary form of the TESC while controlling for other variables such as co-curricular and personal experiences. / Ph. D.

ethical sensitivity

undergraduate construction students

construction ethics education

undergraduate construction education

Byggarbetsplatsen som skola - eller skolan som byggarbetsplats? : En studie av byggnadsarbetares yrkesutbildning / Construction Site as School - or School as Construction Site? : A Study of Vocational Education and Training for Workers within Building and Construction

Berglund, Ingrid

January 2009

The issue of this dissertation is the relationship between Vocational Education and Training (VET) in general and VET for building and construction in particular, as well as implications of the fact that Swedish VET is carried out both in school and in working life. Vocational construction education includes a three year Construction Programme at upper secondary school followed by two to three years of on-the-job training in the construction industry. In this case study of an upper secondary Construction Programme, the school based daily instruction as well as work based training, is explored and documented. These constitute a base for descriptions and analysis of education as a whole from the perspective of Cultural Historical Activity Theory (CHAT). The aim of the analysis is to identify the main motives for vocational construction education. The case study results are further based on descriptions and CHAT-analyses of the historical development of construction work as well as of Swedish VET in general and of vocational construction area in particular. The case study illustrates that two activities form vocational construction education; the dominating activity being construction production, and school-activity. The terms of construction industry seem to greatly determine the realisation of the school based construction production activity.  E.g. teamwork is emphasised in both activities. The school activity is marked by the implementation of infusion of core subjects by vocational subjects, aimed at preparing the students for continued professional development in the trade. The conclusion drawn here is that the new Swedish apprenticeship seems to contribute to a narrow professional knowledge base, whereas the use of infused core subjects seems to contribute to a broader professional knowledge base.

Apprenticeship

Construction Education and Training

Construction Programme

Cultural Historical Activity Theory

Enculturation

Hybrid Practices

Infusion of Core Subjects

Learning Practices

Practice and Theory

Vocational Education and Training

Subject didactics

Ämnesdidaktik