Autor: Henning Rekersbrink

The traditional approach of transport logistic challenges is based on a central and static viewpoint. A given scenario is tried to be solved in an optimal way. Examples of established and well investigated scenarios in this area are the Vehicle Routing Problem (VRP) and the Pickup and Delivery Problem (PDP). The algorithms for these traditional points of view are pushed to their limits when applied on dynamically changing and close to reality scenarios. By contrast, the introduced autonomous control concept Distributed Logistics Routing Protocol (DLRP) was developed to act within a dynamic environment and to enable logistic objects to make own decisions. A comparison of the DLRP and a traditional algorithm will be presented as an evaluation study of the autonomous control concept.

Autonomously controlled transportation processes require decision making of logistic objects regarding routing alternatives. In this contribution a multicriterial evaluation assessment procedure is introduced basing on the fuzzy hierarchical aggregation, adapted and further developed at the CRC 637 “Autonomous Control of Logistic Processes” at Bremen University. The main design focus was user-friendliness within autonomous control and other fields of application. The example of use is a hierarchical structure of the subcriteria characterising the routing alternatives of an autonomous package. It is shown that the procedure can consider unprecise and fuzzy formulated knowledge directly in the model, while parameter adjusting was reduced to a minimum. Different weightings and compensation effects of subcriteria are depicted. The contribution shows the evaluation on a two-subcriteria basis and the possibilities of multicriterial evaluation as well. The evaluation of hard and soft ...

The paper describes a game called the Supply Net Game, built around the structure of a production supply network based on the “anchoring and adjustment heuristic” which is known as the one people use to make inferences about uncertain events. The game involves four players where everyone manages his manufacturing unit that consists of four production lines which proceed to the joint development of products with the other units. While planning production and controlling inventories, every person should try to minimize the costs caused by both holding items on stock and being in an out-of stock situation. The paper stresses the valuable impact of management games for production engineering education in general and particularly the significance of learning implicit skills as well as gaining insight in inventory control and management of complex distributed production systems such as the system dynamics production network model introduced in the paper.

For the implementation of autonomous control of transport processes it is tried to transfer well known and approved routing protocols from data communication to transport problems. Here structural differences between data and transportation networks prevent a direct transfer of the protocols, so that several different, particularly adapted protocols with different targets must cooperate in transportation networks. In the following a concept for autonomous controlled transport networks, called “Distributed Logistics Routing Protocol”, is introduced, developed at the CRC 637 “Autonomous Control of Logistic Processes” in Bremen.