Lars Lüpke scite author profile

In the past, most companies in the European apparel industry focused on minimizing manufacturing costs in the design of supply chains in conjunction with long-distance shipping from production sites in the Far East and relatively long production cycles. Today, for some market segments, the speed of production cycles is more important than the cost because short throughput time allows the flexibility to adjust to rapidly changing fashion trends in these market segments. Accordingly, choosing the most beneficial supply chain strategy has become an established research topic. However, apparel markets are complex systems. Therefore, attempts to reduce the underlying complexity in order to model these markets have limited existing research to the consideration of only selected aspects of markets (e.g., considering only homogeneous buyers, a single period, a single product, or a single manufacturer in the absence of competition) rather than taking a more comprehensive view. These limitations can be overcome by applying an agent-based simulation approach—an approach that can account for a wider range of factors, including several competing manufacturers utilizing different supply chain strategies, individual consumer preferences and behavior, word-of-mouth communication, normative social influence, and first-hand experience, as well as advertising. In this paper, the capability potential of such agent-based market simulation is demonstrated by investigating two supply chain strategies (fast fashion vs. traditional fashion) with varying product and communication strategies (product attributes and advertising) in several market scenarios.

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Home charging and electric vehicle diffusion: Agent-based simulation using choice-based conjoint data

Klein

Lüpke

Günther

2020

Transportation Research Part D: Transport and Environment

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Beaming market simulation to the future by combining agent-based modeling with scenario analysis

2021

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Agent-based simulation has become an established method for innovation and technology diffusion research. It extends traditional approaches by modeling diffusion processes from a micro-level perspective, which enables the consideration of various heterogeneous stakeholders and their diverse interactions. While such a simulation is well suited to capture the complex behavior of markets, its application is challenging when it comes to modeling future markets. Therefore, we propose a multi-method approach that combines scenario analysis that generates multiple “pictures of the future” with an agent-based market simulation that offers insight into the potential outcomes of today’s strategic (technological) decisions in each of these futures. Thus, simulation results can provide valuable decision support for corporate planners and industrial engineers when they are engaged in technology planning. This paper describes the novel approach and illustrates it through a sample application that is based on an industry-related research project on the development and market introduction of smart products.

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Supply Chain Strategies of the Apparel Industry in Research: A Literature Review

Backs

Jahnke²,

Lüpke

et al. 2020

SSRN Journal

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An Agent-Based Simulation Using Conjoint Data: The Case of Electric Vehicles in Germany

Günther

Klein

Lüpke

2018

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Lars Lüpke

Traditional versus fast fashion supply chains in the apparel industry: an agent-based simulation approach

Home charging and electric vehicle diffusion: Agent-based simulation using choice-based conjoint data

Beaming market simulation to the future by combining agent-based modeling with scenario analysis

Supply Chain Strategies of the Apparel Industry in Research: A Literature Review

An Agent-Based Simulation Using Conjoint Data: The Case of Electric Vehicles in Germany

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