A.C.A.M. Keusters
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1
Empathy Driving Performance
A study on the interaction between empathy, the integrated design process and the performance of civil engineering projects
Therefore, this dissertation focuses on the question of how performance can be improved by focusing on integration in the civil engineering design process. An optimal, integrated approach emerges as a critical factor. Additionally, the increasingly integrative, social and dynamic character of the civil engineering design process necessitates project team members to collaborate, connect and delve into the others’ interests. Therefore, empathy turns out to be a relevant factor for project success. Moreover, the empathic abilities of the Dutch civil engineering sector appear to be relatively low, implying room for improvement. ...
Therefore, this dissertation focuses on the question of how performance can be improved by focusing on integration in the civil engineering design process. An optimal, integrated approach emerges as a critical factor. Additionally, the increasingly integrative, social and dynamic character of the civil engineering design process necessitates project team members to collaborate, connect and delve into the others’ interests. Therefore, empathy turns out to be a relevant factor for project success. Moreover, the empathic abilities of the Dutch civil engineering sector appear to be relatively low, implying room for improvement.
Empathy is receiving increasing attention as it can contribute to the collaboration and connectedness required for today's global challenges. A similar trend reveals itself at the scale of project management, given the change from technological to integration-driven challenges in projects. The necessary integrated approach affects the key competencies sought in project team participants. Since empathy enhances one's feeling for and understanding of the project participants’ interests, it could support the integration assignment. Therefore, focusing on the Dutch civil engineering industry, this study investigated whether the project team's empathic ability drives project performance. The results suggest a positive correlation between the team's empathic abilities and performance. Additionally, the study provides insights into the industry's current level of empathic ability, prompting the conclusion that there is room to improve performance by increasing the project teams’ empathic abilities.
The increasing complexity of civil engineering projects necessitates focusing on new competencies of project participants. Based on the research on team performance and design processes that are more closely linked to the relevance of the project context, it is hypothesised that empathic abilities could play an important role in the performance of civil engineering projects. Therefore, this study aims to investigate whether performance can be improved by focusing on empathic abilities during the integrated design phase.
Design/methodology/approach:
Semi-structured in-depth interviews with experts were conducted to explore the relevance of empathic abilities and their interaction with performance in a real-life infrastructure project. The project team’s empathy level was measured by means of a survey using Davis’ Interpersonal Reactivity Index method. Finally, differences between expected and measured levels of empathy were analysed.
Findings:
The results provide insights into how empathic abilities interact with performance. The measurement indicates that, on average, professionals in the civil engineering industry score relatively low on empathy. In addition, differences were identified between the expected distribution and the measured empathy levels of the team, implying a potential for improvement, in particular by increasing the empathic abilities of the project management and increasing gender diversity.
Originality/value:
To the best of the authors’ knowledge, this study is the first to investigate a relationship between empathy and the performance of civil engineering projects. The results provide initial insights into the empathic ability of civil engineering project teams and the potential of empathy to improve performance. Furthermore, from an empathy perspective, this study advocates increasing the gender diversity of project teams to improve performance. ...
Purpose:
The increasing complexity of civil engineering projects necessitates focusing on new competencies of project participants. Based on the research on team performance and design processes that are more closely linked to the relevance of the project context, it is hypothesised that empathic abilities could play an important role in the performance of civil engineering projects. Therefore, this study aims to investigate whether performance can be improved by focusing on empathic abilities during the integrated design phase.
Design/methodology/approach:
Semi-structured in-depth interviews with experts were conducted to explore the relevance of empathic abilities and their interaction with performance in a real-life infrastructure project. The project team’s empathy level was measured by means of a survey using Davis’ Interpersonal Reactivity Index method. Finally, differences between expected and measured levels of empathy were analysed.
Findings:
The results provide insights into how empathic abilities interact with performance. The measurement indicates that, on average, professionals in the civil engineering industry score relatively low on empathy. In addition, differences were identified between the expected distribution and the measured empathy levels of the team, implying a potential for improvement, in particular by increasing the empathic abilities of the project management and increasing gender diversity.
Originality/value:
To the best of the authors’ knowledge, this study is the first to investigate a relationship between empathy and the performance of civil engineering projects. The results provide initial insights into the empathic ability of civil engineering project teams and the potential of empathy to improve performance. Furthermore, from an empathy perspective, this study advocates increasing the gender diversity of project teams to improve performance.
Purpose: Civil engineering projects around the world have been underperforming for a long time. While the complexity of these projects will continue to increase, there is an urgent need to perform better. Although the integrated design process is critical for project success, the literature lacks studies describing the link to project performance. Therefore, this study aims to investigate the dominant variables that affect the integrated design process and consequently project performance. Design/methodology/approach: A multiple case study was conducted to determine the dominant variables that affect the integrated design process and project performance. The research included four projects. Semi-structured interviews were the main source of data. Findings: The cases indicated that the extent to which an integrated approach is achieved in the design process is essential for project performance. This applies to the integration of stakeholders’ interests as well as the integration of disciplines. Above all, it was concluded that the project team participants’ competencies for integration are a dominant factor for project performance, as the integrated design process has changed from a technical challenge to an integrative one. Originality/value: This study provides insights into the dominant variable of the integrated design process that affects project performance, which is underexposed in the literature. The study results reveal the importance of competencies related to integration and adoption of the design problem context, which are not yet included in civil engineering design methods. In this respect, empathy is introduced as a new and critical competence for the civil engineering industry, which needs further research.