Mine fleet cost evaluation - Dijkstra's optimized path

Souza, Felipe Ribeiro; Câmara, Taís Renata; Torres, Vidal; Nader, Beck; Galéry, Roberto

doi:10.1590/0370-44672018720124

Cited by 3 publications

(3 citation statements)

References 6 publications

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“…When the robot tracks along with the traditional Dijkstra algorithm optimal path, it cannot travel higher or lower than the curved surface and must travel against the curved surface (Refer to the detailed diagram in Fig. 2 (b), l ts (6,11) is the Euclidean space distance between node 6 and node 11, which is higher than the equivalent triangle blocks s (6,7,10) and s (7,10,11) , not on these two triangles). Accordingly, the actual path length with the traditional Dijkstra algorithm optimal path will be much larger than the theory or simulation path length.…”

Section: (B)mentioning

confidence: 99%

“…Felipe Ribeiro Souza et al applied the Dijkstra's method to tree diagram analysis, using mining blocks as nodes of the tree for analysis, and used to calculate the lowest cost route to transport mining blocks to their destination (2019) [7]. The transportation cost was reflected in the arc of the graph, and it could use Euclidean distance or transportation time to calculate the minimum path.…”

Section: Introductionmentioning

confidence: 99%

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Surface Optimal Path Planning Using an Extended Dijkstra Algorithm

2020

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Extensive studies have been conducted on the Dijkstra algorithm owing to its bright prospect. However, few of them have studied the surface path planning of mobile robots. Currently, some application fields (e.g., wild ground, planet ground, and game scene) need to solve the optimal surface path. This paper proposes an extended Dijkstra algorithm. We utilize the Delaunay triangulation to model the surface environment. Based on keeping the triangle side length unchanged, the triangle mesh on the surface is equivalently converted into a triangle on the two-dimensional plane. Through this transformation, we set up the two-dimensional developable passable channel of the surface and solve the optimal route on this channel. Traversing all the two-dimensional developable and passable paths of the surface, we can get the shortest route among all the optimal paths. Then the inverse transformation from the two-dimensional plane coordinates to the corresponding surface coordinates obtains the surface optimal path. The simulation results show that, compared with the traditional Dijkstra algorithm, this method improves the accuracy of the surface optimization path in single-robot single-target and multi-robot multi-target path planning tasks.

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Section: (B)mentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Surface Optimal Path Planning Using an Extended Dijkstra Algorithm

2020

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“…Technological systems in mining industry are optimized by implementing various methods based on operations research [8]. The Dijkstra algorithm for defining transportation routes in a mine was used in [9] to demonstrate the influence of selecting roads having particular parameters, e.g., inclination, on the transport cycle times. A waiting line system consisting of machines operated in a technological system of a mine was analyzed by Krause et al [10], who suggested the application of a model based on a waiting line analysis (Finite Source Model) in designing the size of the machinery fleet in a mine.…”

Section: Introductionmentioning

confidence: 99%

Discrete Simulations in Analyzing the Effectiveness of Raw Materials Transportation during Extraction of Low-Quality Deposits

2021

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The article presents an analysis of the influence of selected operating environment parameters on the operation of a technological system in a mine and examines the profitability of exploiting a deposit of low quality. A model based on a cyclical transportation system in a surface limestone mine, developed in the Haulsim software, served to evaluate—from an economic perspective—several material transportation scenarios depending on the quality of the deposit. A discrete simulation of machine operation allowed a detailed analysis of the technological, operating and economic parameters for selected solutions. The results may be the basis for a decision to begin or to resign from mineral extraction. The simulation results demonstrate that maintaining the operating environment in good technical condition positively influences machine operating cycle times, the required total time of the transportation task and the operating costs. The analysis was performed for the production period of one full year, allowing for the effective work and technological downtimes. This approach allowed the usefulness of the model to be demonstrated in evaluating not only the effectiveness of individual technological procedures but also its economic aspect, related to a decision on the exploitation of “difficult” deposits.

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A Novel Heuristic Emergency Path Planning Method Based on Vector Grid Map

Yang

Jin

Cai

et al. 2021

IJGI

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Emergency path planning technology is one of the research hotspots of intelligent transportation systems. Due to the complexity of urban road networks and congested road conditions, emergency path planning is very difficult. Road congestion caused by urban emergencies directly affects the original road network structure. In this way, the static weight of the original road network is no longer suitable as the basis for path recommendation. To handle the dynamic situational road network, an equidistant grid emergency path planning framework will be designed. A novel situation grid road network model, based on situation information, is proposed and applied to an equidistant grid emergency path planning framework. A situational grid heuristic search will be proposed methodology based on this model, which can be used to detect the vehicles passing around the congestion area grid and the road to the destination in the shortest time. In the path planning methodology, a grid inspired search strategy based on quaternion function is included, which can make the algorithm converge to the target grid quickly. Three graph acceleration algorithms are proposed to improve the search efficiency of path planning algorithm. Finally, this paper will set up three experiments to verify our proposed method.

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Mine fleet cost evaluation - Dijkstra's optimized path

Cited by 3 publications

References 6 publications

Surface Optimal Path Planning Using an Extended Dijkstra Algorithm

Surface Optimal Path Planning Using an Extended Dijkstra Algorithm

Discrete Simulations in Analyzing the Effectiveness of Raw Materials Transportation during Extraction of Low-Quality Deposits

A Novel Heuristic Emergency Path Planning Method Based on Vector Grid Map

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