基于着色旅行商问题的旅游路线规划

doi:10.11896/jsjkx.231200072

Abstract

Abstract: Studying the tourism route planning problem is crucial to promote the development of urban tourism and improve tou-rists' experience,which is usually explored as a coloring traveler′s problem in abstraction by researchers.However,in solving the optimal routes for large-scale attractions,existing methods suffer from poor solution flexibility and slow convergence speed.Therefore,the coloring traveler problem and its application in tourism route planning are explored based on automata.Firstly,the roadmap of attractions is established by automata,and decentralized discussion is carried out by using the hierarchical automata method.Secondly,the selection of attractions is flexibly handled,and invalid paths are deleted by using its structural properties.Finally,the shortest route is solved by using ant colony algorithm on the simplified model.The experiment selects the attractions in and around Xi'an city as the sample data,and the research results show that,compared with the traditional ant colony algorithm and simulated annealing algorithm,the proposed algorithm reduces the complexity of the problem,searches within the effective range,and can converge and find the shortest path within 20 iterations,and it can also flexibly plan the reasonable tourist route according to the tourists' personalized needs.

Key words: Colored traveling salesman problem, Ant colony algorithm, Automaton, Tour route planning

CLC Number:

TP301

GU Chan, FU Yan, YE Shengli. Tourism Route Planning Based on Colored Traveling Salesman Problem[J].Computer Science, 2024, 51(11A): 231200072-8.

References

[1]KE L J.Ant colony intelligence optimization method and its application[M].Beijing:Tsinghua University Press,2017.
[2]WANG Z,SHEN Y,LI S,et al.A fine-grained fast parallel genetic algorithm based on a ternary optical computer for solving traveling salesman problem[J].The Journal of Supercomputing,2023,79(5):4760-4790.
[3]ZHENG R,ZHANG Y,YANG K.A transfer learning-basedparticle swarm optimization algorithm for travelling salesman problem[J].Journal of Computational Design and Engineering,2022,9(3):933-948.
[4]CHERABLI M,OURBIH-TARI M,BOUBALOU M.Refineddescriptive sampling simulated annealing algorithm for solving the traveling salesman problem[J].Monte Carlo Methods and Applications,2022,28(2):175-188.
[5]LI S,LUO T,WANG L,et al.Tourism route optimization based on improved knowledge ant colony algorithm[J].Complex & Intelligent Systems,2022,8(5):3973-3988.
[6]BORIS M,ELENA M.On the classical version of the branch and bound method[J].Computer Tools in Education,2022(2):41-58.
[7]POIKONEN S,GOLDEN B,WASIL E A.A branch-and-bound approach to the traveling salesman problem with a drone[J].INFORMS Journal on Computing,2019,31(2):335-346.
[8]LU B C,YANG J Y,WANG X.Urban and suburban tourism route planning based on tourist experience [J].Journal of Chongqing Jiaotong University(Natural Science Edition),2021,40(10):161-170.
[9]KHAMSING N,CHINDAPRASERT K,PITAKASO R,et al.Modified ALNS algorithm for a processing application of family tourist route planning:A case study of Buriram in Thailand[J].Computation,2021,9(2):23.
[10]FOROUZANDEH S,ROSTAMI M,BERAHMAND K.A hybrid method for recommendation systems based on tourism with an evolutionary algorithm and topsis model[J].Fuzzy Information and Engineering,2022,14(1):26-50.
[11]CHEN C,ZHANG S,YU Q,et al.Personalized travel route recommendation algorithm based on improved genetic algorithm[J].Journal of Intelligent & Fuzzy Systems,2021,40(3):4407-4423.
[12]LIANG S.Research on Route Planning of Red Tourist Attractions in Guangzhou Based on Ant Colony Algorithm[J].Automation and Machine Learning,2023,4(1):8-16.
[13]LIANG S,JIAO T,DU W,et al.An improved ant colony optimization algorithm based on context for tourism route planning[J].Public Library of Science One,2021,16(9):e0257317.
[14]LI S,LUO T,WANG L,et al.Tourism route optimization based on improved knowledge ant colony algorithm[J].Complex & Intelligent Systems,2022,8(5):3973-3988.
[15]DORIGO M,MANIEZZO V,COLORNI A.Ant system:optimization by a colony of cooperating agents[J].IEEE Transactions on Systems,Man,and Cybernetics,Part B,1996,26(1):29-41.
[16]RAMADGE P J G,WONHAM W M.The control of discreteevent systems[J].Proceedings of the IEEE,1989,77(1):81-98.
[17]KHOUSSAINOV B,NERODE A.Automata theory and its applications[M].Springer Science & Business Media,2012.
[18]REVELIOTIS S A,LAWLEY M A,FERREIRA P M.Polynomial-complexity deadlock avoidance policies for sequential resource allocation systems[J].IEEE transactions on automatic control,1997,42(10):1344-1357.
[19]CHEN G,JIANG T H,WANG M,et al.Research and application of timed automata modeling for Internet of Things systems [J].Computer Applications and Software,2021,38(6):84-93.
[20]TANG W,ZHAO J,GU C.Optimization of maze path planning solution algorithm based on automata [J].Journal of Nanjing University of Posts and Telecommunications(Natural Science Edition),2021,41(5):92-100.
[21]DORIGO M,BIRATTARI M,STUTZLE T.Ant colony optimization[J].IEEE Computational Intelligence Magazine,2006,1(4):28-39.
[22]WONHAM W M,RAMADGE P J.Modular supervisory control of discrete-event systems[J].Mathematics of Control,Signals and Systems,1988,1(1):13-3.
[23]ZHENG D Z,ZHAO Q C.Discrete event dynamic systems[M].Beijing:Tsinghua University Press,2001.

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Tourism Route Planning Based on Colored Traveling Salesman Problem

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