An embedded system includes an application specific digital electronic system being embedded in a larger device (e.g. factory automation equipment, military and aerospace systems, telematics and entertainment systems, cameras, cellular phones, PDAs, etc.) In the post-PC era, embedded systems emerged as cores of most important electronic products. Embedded systems are configured to fulfill demands of various market segmentations. Thus, the nature of embedded systems complicates the design. To fulfill different customers’ demands from various market segmentations, the marketing concept of “user-centered design”, which emphasizes the importance of having a good understanding of the users while users are not necessarily be involved in the market research process, can be leveraged. Furthermore, the concept of the user-centered design implies that a product development may start from a deep analysis of user needs, which can be introduced to replace the traditional marketing approach. Traditionally, embedded system marketers usually define the systems based on their intuition which could be subjective and misleading. Thus, this research aims to resolve this system configuring issue by introducing a novel fuzzy multiple criteria decision making (FMCDM) based embedded system design method by introducing the concept of emotional design. By using the proposed method, customer needs can be elicited through explorations of their emotions, and the lead user method is introduced to discuss the situation of customers’ unfamiliar industry such as embedded system industry. The modified Delphi method will first be leveraged to derive customers’ needs as well as possible components to be included in the embedded system. Further, the interpretive structural modeling (ISM) method is extended to permit identification of a single sink diagraph tree as a special type of structural model and to develop a hierarchy framework. Based on the hierarchy being derived by the ISM, the fuzzy analytic hierarchical process (FAHP) will be leveraged for deriving the weight versus each criterion. Further, considering the characteristic of inter-dependences between criteria, the non-additive fuzzy integral will be introduced to aggregate the performance scores on each component of the embedded system platform. In this research, an empirical study being modified from a real-world mobile phone design project in several large IT manufacturers will be leveraged for demonstrating the feasibility of this proposed non-additive fuzzy integral based FMCDM emotional design framework. A satisfying mobile phone can be designed based on the embedded system consisting of the components being derived by the newly proposed FMCDM framework. The empirical study will demonstrate the feasibility of this method. The proposed methodology can be used for understanding customers’ needs and configure the application of embedded system in the real world.