Implementing Systems Engineering in Civil Engineering Consulting Firm: An Evaluation

Graaf, Robin de; Voordijk, Hans; Heuvel, Len den

doi:10.1002/sys.21336

Cited by 15 publications

(7 citation statements)

References 28 publications

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“…The importance of knowledge and skills to improve SE practices is mentioned in SE literature as well (Sheard et al ., ; Bonnema et al ., ; Van Nederveen et al ., 2008; Bhasin et al ., ; Godfrey et al ., ; De Graaf et al ., ; De Graaf et al ., ). For example, in their article on SE process improvement, Sheard et al .…”

Section: Discussionmentioning

confidence: 97%

“…De Graaf et al . () also found that in projects carried out by an engineering consulting firm, SE tasks were carried out inadequately because team members had not been given enough training. This, in turn, was due to the time pressure of the project.…”

Section: Discussionmentioning

confidence: 99%

“…More recently, it gets increasing attention in the civil engineering industry too. For example, SE in this industry is addressed in academia (Gusakov et al ., ; Elliott et al ., ; Blockley, ; Van der Meer et al ., ; De Graaf et al ., ; De Graaf et al ., ) and in practice (Doukas, ; Godau, ; Williams et al ., ; U.S. Department of Transportation, ; Aslaksen et al ., ; Rijkswaterstaat et al ., ; Crow, ). Moreover, public clients in the civil engineering industry increasingly use SE too.…”

Section: Introductionmentioning

confidence: 99%

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Exploring Team Effectiveness in Systems Engineering Construction Projects: Explanations Why Some SE Teams Are More Effective than Others

Graaf

Loonen

2018

Syst. Res

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The use of teams in systems engineering (SE) projects has become standard practice in many industries. Yet little attention is given in SE literature to explaining why some SE teams are more effective than others. In this study, four civil engineering projects were studied in which SE was used. Two projects were considered effective and two moderately effective. It was explored whether the differences in effectiveness could be explained from the characteristics of the teams. The Team Diagnostic Survey was used to analyse and compare the teams. The findings demonstrate that the Team Diagnostic Survey was able to discriminate between the effective and moderately effective projects and appeared to be a relevant instrument for analysing teams in civil engineering SE projects. The study also revealed that the process of actively exchanging and using team members' knowledge and skills explains for a substantial part the differences in effectiveness of the projects. © 2018 John Wiley & Sons, Ltd.

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Section: Discussionmentioning

confidence: 97%

Section: Discussionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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Exploring Team Effectiveness in Systems Engineering Construction Projects: Explanations Why Some SE Teams Are More Effective than Others

Graaf

Loonen

2018

Syst. Res

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“…First, the five risk management objectives of "safety, quality, construction period, cost, and environment" are used as the evaluation criterion layer, and then the risk factors are identified to establish the evaluation index layer. The specific methods are as follows: (1) Systematically sort out the whole process engineering consulting cases and related research documents [6][7][8], and analyze the construction accidents that have occurred in recent years; (2) Combining the analysis results, according to the "Technical Standards for Engineering Consulting Services for the Whole Process of Housing Construction and Municipal Infrastructure Construction Projects" (draft for comments), from the survey, Design, bidding, procurement, and supervision to extract the main risk factors that affect the life cycle consulting of engineering construction. (3) Through questionnaire surveys, collect opinions on risk factors from experts in the construction, design, and consulting fields of the construction industry.…”

Section: Setting Of Evaluation Criteria and Rating Indicatorsmentioning

confidence: 99%

Life Cycle Consulting of Engineering Construction Risk Evaluation Based Intuitionistic Fuzzy Sets and Euclidean Similarity

Yu¹,

Xu²,

Cong³

2020

dtcse

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This paper studies life cycle consulting of engineering construction risk. Firstly build a risk evaluation hierarchy for the life cycle consulting of engineering construction risk, and then transform expert evaluation information into intuitionistic fuzzy sets to form an evaluation matrix, use intuitionistic fuzzy entropy to describe the degree of fuzziness of expert information and determine the criterion weight; then use Euclidean distance to determine the similarity of expert information The expert weight is determined by combining the degree of hesitation with the degree of hesitation, and the score function is used to determine the comprehensive score value of each risk factor, and the risk factor is predicted accordingly. KEYWORDSLife cycle consulting of engineering construction, intuitionistic fuzzy sets, euclidean similarity, risk evaluation. Research OverviewArdeshir et al. [1] used fuzzy fault trees to determine the severity of risks based on time, cost, quality, and safety standards, and ranked the risk factors of urban tunnel projects. Fan Ying[2] uses the geometric characteristics of AHP and triangular fuzzy numbers to calculate fuzzy weights, and ranks risk factors according to the _______________

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“…For example, the magazine “INSIGHT” has published a special issue on infrastructure SE, including articles on the civil engineering industry . Handbooks and guidelines have also appeared in the past 15 years, such as the “Guide for the Application of SE in Large Infrastructure Projects,” the guidebook on SE in the civil engineering industry in The Netherlands, and the “Systems Engineering Guidebook for Intelligent Transportation Systems.” Moreover, articles have been published in which the use of SE in specific civil engineering projects is discussed . Finally, SE in the civil engineering industry is considered in relation to education and training and procurement .…”

Section: Introductionmentioning

confidence: 99%

Successful verification of subcontracted work in the construction industry

Makkinga

Graaf

Voordijk

2018

Systems Engineering

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Due to the introduction of new types of contracts, such as Design, Build, Finance, & Maintain (DBFM), a major shift in tasks and responsibilities from client to contractor can be seen in the construction industry. To manage these new contracts and corresponding shifts in responsibilities, systems engineering (SE) is seen as a relevant instrument and applied increasingly in this industry.When these new, integrated contracts are applied in combination with SE, the contractor becomes responsible for verification. The contractor, however, is not the only organization that executes verification tasks as contractors regularly subcontract work to suppliers. Although the main contractor bears the final responsibility toward the client, it may be expected that the supplier verifies its own work. This requires verification to be carried out further down the supply chain. However, many problems are experienced when allocating these verification responsibilities to the suppliers. This paper explores which verification problems are faced in construction work that is subcontracted to suppliers. A conceptual framework is applied to categorize these problems and to analyze the solutions applied in the construction industry. The major finding of this study is that causes of verification problems can be found at both the contractor and the supplier side. Improvements are suggested for both these sides.

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Implementing Systems Engineering in Civil Engineering Consulting Firm: An Evaluation

Cited by 15 publications

References 28 publications

Exploring Team Effectiveness in Systems Engineering Construction Projects: Explanations Why Some SE Teams Are More Effective than Others

Exploring Team Effectiveness in Systems Engineering Construction Projects: Explanations Why Some SE Teams Are More Effective than Others

Life Cycle Consulting of Engineering Construction Risk Evaluation Based Intuitionistic Fuzzy Sets and Euclidean Similarity

Successful verification of subcontracted work in the construction industry

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