David Staš scite author profile

David Staš

5Publications

32Citation Statements Received

52Citation Statements Given

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Škoda Auto University

Publications

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Green Transport Balanced Scorecard Model with Analytic Network Process Support

et al. 2015

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Abstract:In recent decades, the performance of economic and non-economic activities has required them to be friendly with the environment. Transport is one of the areas having considerable potential within the scope. The main assumption to achieve ambitious green goals is an effective green transport evaluation system. However, these systems are researched from the industrial company and supply chain perspective only sporadically. The aim of the paper is to design a conceptual framework for creating the Green Transport (GT) Balanced Scorecard (BSC) models from the viewpoint of industrial companies and supply chains using an appropriate multi-criteria decision making method. The models should allow green transport performance evaluation and support of an effective implementation of green transport strategies. Since performance measures used in Balanced Scorecard models are interdependent, the Analytic Network Process (ANP) was used as the appropriate multi-criteria decision making method. The verification of the designed conceptual framework was performed on a real supply chain of the European automotive industry.

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A3 Method as a Powerful Tool for Searching and Implementing Green Innovations in an Industrial Company Transport

Lenort

Staš

Holman

et al. 2017

Procedia Engineering

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Sustainable Logistics Management in the 21st Century Requires Wholeness Systems Thinking

et al. 2018

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The 21st century is characterised by the unprecedented speed and scope of changes, creating a new external environment, where the logistics systems are managed. The latest development in logistics management is influenced by sustainability, which complements the economic dimension with environmental and social dimensions. The fundamental principle of logistics management is systems thinking (ST). Until now, the reductionism ST (RST), focusing on the maximal economic performance of a logistics system’s parts and interactions has been applied. However, the RST approach does not sufficiently consider the implication of the external environment to the economic performance. The article’s aim is the introduction of the new wholeness ST (WST) approach and confirmation of its fundamental role in deriving of the performance of the selected logistics system’s parts and interactions from the external environment. WST’s role was demonstrated in a case study, comparing the WST and RST approach in management of particular automotive logistics’ system. The WST approach in the management of the whole selected logistics system assures a considerable reduction in the consumption of resources. Based on the comparative case study’s results, the conceptual framework for the application of the WST approach in all sustainable dimensions is proposed.

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Autonomous Mobile Robot Technology for Supplying Assembly Lines in the Automotive Industry

Čech¹,

Wicher²,

Lenort³

et al. 2020

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State of the Art in the End-of-Life Vehicle Recycling

et al. 2021

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Growing ecological awareness in society and legal regulations aimed at reducing the negative impact of used products on the environment means that waste management begins to play a significant role in the modern world. Therefore, it is necessary to conduct research towards the organization and implementation of waste management. It has been noticed that an important link in the economy is the recycling of used products. Thus, numerous studies are undertaken in the direction of organization, improvement, automation and computerization of the product and material recycling process. The article presents the results of literature research in terms of the implementation of the end-of-life vehicle recycling process.

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David Staš

Green Transport Balanced Scorecard Model with Analytic Network Process Support

A3 Method as a Powerful Tool for Searching and Implementing Green Innovations in an Industrial Company Transport

Sustainable Logistics Management in the 21st Century Requires Wholeness Systems Thinking

Autonomous Mobile Robot Technology for Supplying Assembly Lines in the Automotive Industry

State of the Art in the End-of-Life Vehicle Recycling

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