Purpose
The purpose of this paper is to empirically investigate an effective project management practice focusing on planning and control. By doing so, it contributes to the debate on rethinking traditional project management practices and accentuates the need for adjustments based on the project context.
Design/methodology/approach
This paper extends the project management theory by proposing a lean project planning (LPP) and control framework, developed and tested in collaboration with ten engineer-to-order (ETO) companies. By following a design science research approach, elements from lean thinking and current project planning and control practices are combined into a maturity model (MM).
Findings
ETO project characteristics are identified, and their implications for planning and control are discussed. Nine enablers that transform current project planning and control approaches into a lean approach are defined, allowing the analysis of the underlying complexity of planning and controlling ETO projects and thus facilitating the determination of the actions required to improve project performance.
Research limitations/implications
Once fully embedded in an organization, the presented MM can provide a safe framework for self-criticism and can be used to conduct self-assessments without the need for an external facilitator. Thus, this paper is of particular interest to practicing project managers who aim to implement LPP and control.
Originality/value
To the authors’ best knowledge, this paper is the first to empirically examine the journey toward LPP and control from a MM perspective. This research attempts to describe the enablers of LPP and control.
This article explores how waste reduction approaches as found in lean thinking can be applied to engineering design in Engineer-To-Order (ETO) projects based on a multiple case study of ten companies over a 2-year period. ETO projects deliver capital goods that are customised to individual customer requirements. Customisation and ultimately value generation are achieved through an iterative engineering design process. Although inevitable, iterative engineering design allows much leeway for waste generation, expressed in higher costs and longer lead times. Accordingly, this paper investigates the iterative nature of engineering design in current practice and discusses how these iterations create wastes. It applies the concept of lean engineering design and elaborates on how this concept can eliminate wastes. The findings extend the literature on lean thinking by demonstrating its applicability to engineering design and provide a unique description of the most common wastes found in ETO projects. Furthermore, this article provides managerial implications on how lean engineering design can eliminate wastes and ultimately improve ETO project performance based on lessons learned from the case companies.
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