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A Path Planning Model for Stock Inventory Using a Drone

László Radácsi, Miklós Gubán, László Szabó, József Udvaros

2022Mathematics25 citationsDOIOpen Access PDF

Abstract

In this study, a model and solution are shown for controlling the inventory of a logistics warehouse in which neither satellite positioning nor IoT solutions can be used. Following a review of the literature on path planning, a model is put forward using a drone that can be moved in all directions and is suitable for imaging and transmission. The proposed model involves three steps. In the first step, a traversal path definition provides an optimal solution, which is pre-processing. This is in line with the structure and capabilities of the warehouse. In the second step, the pre-processed path determines the real-time movement of the drone during processing, including camera movements and image capture. The third step is post-processing, i.e., the processing of images for QR code identification, the interpretation of the QR code, and the examination of matches and discrepancies for inventory control. A key benefit for the users of this model is that the result can be achieved without any external orientation tools, relying solely on its own movement and the organization of a pre-planned route. The proposed model can be effective not only for inventory control, but also for exploring the structure of a warehouse shelving system and determining empty cells.

Topics & Concepts

DroneComputer scienceTree traversalReal-time computingMotion planningPath (computing)Inventory controlKey (lock)Artificial intelligenceOperations researchSimulationComputer visionAlgorithmEngineeringRobotComputer securityGeneticsBiologyProgramming languageRobotic Path Planning AlgorithmsSmart Parking Systems ResearchUAV Applications and Optimization
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