Shortest Path Algorithm in Dynamic Restricted Area Based on Unidirectional Road Network Model
Accurate and fast path calculation is essential for applications such as vehicle navigation systems and transportation network routing. Although many shortest path algorithms for restricted search areas have been developed in the past ten years to speed up the efficiency of path query, the performan...
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| Published in: | Sensors (Basel, Switzerland) Vol. 21; no. 1; p. 203 |
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| Language: | English |
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| Abstract | Accurate and fast path calculation is essential for applications such as vehicle navigation systems and transportation network routing. Although many shortest path algorithms for restricted search areas have been developed in the past ten years to speed up the efficiency of path query, the performance including the practicability still needs to be improved. To settle this problem, this paper proposes a new method of calculating statistical parameters based on a unidirectional road network model that is more in line with the real world and a path planning algorithm for dynamically restricted search areas that constructs virtual boundaries at a lower confidence level. We conducted a detailed experiment on the proposed algorithm with the real road network in Zhengzhou. As the experiment shows, compared with the existing algorithms, the proposed algorithm improves the search performance significantly in the condition of optimal path under the premise of ensuring the optimal path solution. |
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| AbstractList | Accurate and fast path calculation is essential for applications such as vehicle navigation systems and transportation network routing. Although many shortest path algorithms for restricted search areas have been developed in the past ten years to speed up the efficiency of path query, the performance including the practicability still needs to be improved. To settle this problem, this paper proposes a new method of calculating statistical parameters based on a unidirectional road network model that is more in line with the real world and a path planning algorithm for dynamically restricted search areas that constructs virtual boundaries at a lower confidence level. We conducted a detailed experiment on the proposed algorithm with the real road network in Zhengzhou. As the experiment shows, compared with the existing algorithms, the proposed algorithm improves the search performance significantly in the condition of optimal path under the premise of ensuring the optimal path solution. Accurate and fast path calculation is essential for applications such as vehicle navigation systems and transportation network routing. Although many shortest path algorithms for restricted search areas have been developed in the past ten years to speed up the efficiency of path query, the performance including the practicability still needs to be improved. To settle this problem, this paper proposes a new method of calculating statistical parameters based on a unidirectional road network model that is more in line with the real world and a path planning algorithm for dynamically restricted search areas that constructs virtual boundaries at a lower confidence level. We conducted a detailed experiment on the proposed algorithm with the real road network in Zhengzhou. As the experiment shows, compared with the existing algorithms, the proposed algorithm improves the search performance significantly in the condition of optimal path under the premise of ensuring the optimal path solution.Accurate and fast path calculation is essential for applications such as vehicle navigation systems and transportation network routing. Although many shortest path algorithms for restricted search areas have been developed in the past ten years to speed up the efficiency of path query, the performance including the practicability still needs to be improved. To settle this problem, this paper proposes a new method of calculating statistical parameters based on a unidirectional road network model that is more in line with the real world and a path planning algorithm for dynamically restricted search areas that constructs virtual boundaries at a lower confidence level. We conducted a detailed experiment on the proposed algorithm with the real road network in Zhengzhou. As the experiment shows, compared with the existing algorithms, the proposed algorithm improves the search performance significantly in the condition of optimal path under the premise of ensuring the optimal path solution. |
| Author | He, Xiaohui Wei, Haitao Zhang, Shusheng |
| AuthorAffiliation | School of Earth Science and Technology, Zhengzhou University, No. 75 Daxue North Road, Erqi District, Zhengzhou 450052, China; zzu_wei@zzu.edu.cn (H.W.); zhangssgiser@gs.zzu.edu.cn (S.Z.) |
| AuthorAffiliation_xml | – name: School of Earth Science and Technology, Zhengzhou University, No. 75 Daxue North Road, Erqi District, Zhengzhou 450052, China; zzu_wei@zzu.edu.cn (H.W.); zhangssgiser@gs.zzu.edu.cn (S.Z.) |
| Author_xml | – sequence: 1 givenname: Haitao surname: Wei fullname: Wei, Haitao – sequence: 2 givenname: Shusheng surname: Zhang fullname: Zhang, Shusheng – sequence: 3 givenname: Xiaohui surname: He fullname: He, Xiaohui |
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| Keywords | unidirectional road network navigation statistical parameter restrict search area path planning Dijkstra algorithm |
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| Title | Shortest Path Algorithm in Dynamic Restricted Area Based on Unidirectional Road Network Model |
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