In this paper, the map of a network of air routes was updated by removing the non-optimal routes and replacing them with the best ones. An integer linear programming model was developed. The aim was to find optimal ro...In this paper, the map of a network of air routes was updated by removing the non-optimal routes and replacing them with the best ones. An integer linear programming model was developed. The aim was to find optimal routes in superspace based on performance-based navigation. The optimal routes were found from a DIJKSTRA algorithm that calculates the shortest path in a graph. Simulations with python language on real traffic areas showed the improvements brought by surface navigation. In this work, the conceptual phase and the upper airspace were studied.展开更多
Human vision,confined to visible wavelengths,represents a mere fraction of the electromagnetic spectrum exploited by other species.Pit vipers detect infrared radiation through specialized pit organs,integrating therma...Human vision,confined to visible wavelengths,represents a mere fraction of the electromagnetic spectrum exploited by other species.Pit vipers detect infrared radiation through specialized pit organs,integrating thermal and visual data to navigate darkness[1].Conventional retinal prosthetics,limited to visible light and requiring external power or injectable nanomaterials,fail to address this sensory deficit[2–5].展开更多
文摘In this paper, the map of a network of air routes was updated by removing the non-optimal routes and replacing them with the best ones. An integer linear programming model was developed. The aim was to find optimal routes in superspace based on performance-based navigation. The optimal routes were found from a DIJKSTRA algorithm that calculates the shortest path in a graph. Simulations with python language on real traffic areas showed the improvements brought by surface navigation. In this work, the conceptual phase and the upper airspace were studied.
基金supported by the National Key Research and Development Program from Ministry of Science and Technology(No.2023YFB3208102).
文摘Human vision,confined to visible wavelengths,represents a mere fraction of the electromagnetic spectrum exploited by other species.Pit vipers detect infrared radiation through specialized pit organs,integrating thermal and visual data to navigate darkness[1].Conventional retinal prosthetics,limited to visible light and requiring external power or injectable nanomaterials,fail to address this sensory deficit[2–5].
