The development of a protocol for the organization of a decentralized warehousing system within the internal logistics chain of the production process (also known as in tralogistics) is presented in this master’s thesis. Upon reviewing the existing research work, we found that within the FlexSim simulation environment, there is currently no solution that allows the validation of algorithms based on decentralized organization, particularly those algorithms that address system robustness in terms of disturbance elimination. The initial goal of the master’s thesis is to develop a simulation model of the production process in the FlexSim environment. This is followed by the develop ment of a decentralized protocol for organizing the production process based on the open market. This approach allows greater flexibility and adaptability of the system, since it enables units within the warehousing system to make independent decisions based on local information. The final goal of the master’s thesis is to demonstrate the robustness of the developed algorithm for organizing the warehousing system. Using the simulation of the production process in the FlexSim environment, we will test the impact of various disturbances on the system helping us to evaluate its ability to maintain uninterrupted operation.
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