[1]CHANG Liang,SUN Wenping,ZHANG Weitao,et al.Review of tourism route planning[J].CAAI Transactions on Intelligent Systems,2019,14(1):82-92.[doi:10.11992/tis.201804005]
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Review of tourism route planning

References:
[1] 常亮, 曹玉婷, 孙文平, 等. 旅游推荐系统研究综述[J]. 计算机科学, 2017, 44(10):1-6 CHANG Liang, CAO Yuting, SUN Wenping, et al. Review on tourism recommendation system[J]. Computer science, 2017, 44(10):1-6
[2] GAVALAS D, KONSTANTOPOULOS C, MASTAKAS K, et al. A survey on algorithmic approaches for solving tourist trip design problems[J]. Journal of heuristics, 2014, 20(3):291-328.
[3] ZHOU Xiaolu, WANG Mingshu, LI Dongying. From stay to play-a travel planning tool based on crowdsourcing user-generated contents[J]. Applied geography, 2017, 78:1-11.
[4] ABBASPOUR R A, SAMADZADEGAN F. Time-dependent personal tour planning and scheduling in metropolises[J]. Expert systems with applications, 2011, 38(10):12439-12452.
[5] GAVALAS D, KASAPAKIS V, KONSTANTOPOULOS C, et al. A personalized multimodal tourist tour planner[C]//Proceedings of the 13th International Conference on Mobile and Ubiquitous Multimedia. Melbourne, Australia, 2014:73-80.
[6] BAO Jie, ZHENG Yu, WILKIE D, et al. Recommendations in location-based social networks:a survey[J]. GeoInformatica, 2015, 19(3):525-565.
[7] ZHENG Bolong, SU Han, ZHENG Kai, et al. Landmark-based route recommendation with crowd intelligence[J]. Data science and engineering, 2016, 1(2):86-100.
[8] SOUFFRIAU W, VANSTEENWEGEN P, VERTOMMEN J, et al. A personalized tourist trip design algorithm for mobile tourist guides[J]. Applied artificial intelligence, 2008, 22(10):964-985.
[9] GUNAWAN A, LAU H C, VANSTEENWEGEN P, et al. Well-tuned algorithms for the team orienteering problem with time windows[J]. Journal of the operational research society, 2017, 68(8):861-876.
[10] GUNAWAN A, LAU H C, LU Kun. An iterated local search algorithm for solving the orienteering problem with time windows[M]//OCHOA G, CHICANO F. Evolutionary Computation in Combinatorial Optimization. Cham:Springer, 2015:61-73.
[11] GUNAWAN A, LAU H C, LU Kun. SAILS:hybrid algorithm for the team orienteering problem with time windows[C]//Proceedings of the 7th Multidisciplinary International Scheduling Conference. Prague, Czech Republic, 2015:276-295.
[12] VERBEECK C, S?RENSEN K, AGHEZZAF E H, et al. A fast solution method for the time-dependent orienteering problem[J]. European journal of operational research, 2014, 236(2):419-432.
[13] SCHILDE M, DOERNER K F, HARTL R F, et al. Metaheuristics for the bi-objective orienteering problem[J]. Swarm intelligence, 2009, 3(3):179-201.
[14] LU Ying, SHAHABI C. An arc orienteering algorithm to find the most scenic path on a large-scale road network[C]//Proceedings of the 23th SIGSPATIAL International Conference on Advances in Geographic Information Systems. Seattle, Washington, 2015:51-62.
[15] LU Ying, JOSSE G, EMRICH T, et al. Scenic routes now:efficiently solving the time-dependent arc orienteering problem[C]//Proceedings of 2017 ACM Conference on Information and Knowledge Management. Singapore, 2017:487-496.
[16] LU Yongliang, BENLIC U, WU Qinghua. A memetic algorithm for the orienteering problem with mandatory visits and exclusionary constraints[J]. European journal of operational research, 2018, 268(1):54-69.
[17] GAO Huiji, TANG Jiliang, HU Xia, et al. Exploring temporal effects for location recommendation on location-based social networks[C]//Proceedings of the 7th ACM Conference on Recommender Systems. Hong Kong, China, 2013:93-100.
[18] XU Ying, HU Tao, LI Ying. A travel route recommendation algorithm with personal preference[C]//Proceedings of the 12th International Conference on Natural Computation, Fuzzy Systems and Knowledge Discovery. Changsha, China, 2016:390-396.
[19] 柯良军, 章鹤, 尚可, 等. 一类求解带时间窗的团队定向问题的改进蚁群算法[J]. 计算机科学, 2012, 39(4):214-216 KE Liangjun, ZHANG He, SHANG Ke, et al. Improved ant colony optimization approach for the team orienteering problem with time windows[J]. Computer science, 2012, 39(4):214-216
[20] LIN S W, YU V F. A simulated annealing heuristic for the team orienteering problem with time windows[J]. European journal of operational research, 2012, 217(1):94-107.
[21] GARCIA A, VANSTEENWEGEN P, ARBELAITZ O, et al. Integrating public transportation in personalised electronic tourist guides[J]. Computers and operations research, 2013, 40(3):758-774.
[22] LUO Zhixing, CHEANG B, LIM A, et al. An adaptive ejection pool with toggle-rule diversification approach for the capacitated team orienteering problem[J]. European journal of operational research, 2013, 229(3):673-682.
[23] LI Zhenping, HU Xianman. The team orienteering problem with capacity constraint and time window[C]//Proceedings of the 10th International Symposium on Operations Research and Its Applications. Dunhuang, China, 2011:157-163.
[24] HJALAGER A M. 100 Innovations that transformed tourism[J]. Journal of travel research, 2015, 54(1):3-21.
[25] MURPHY H C, CHEN Mengmei, COSSUTTA M. An investigation of multiple devices and information sources used in the hotel booking process[J]. Tourism management, 2016, 52:44-51.
[26] BANERJEE S, CHUA A Y K. In search of patterns among travellers’ hotel ratings in TripAdvisor[J]. Tourism management, 2016, 53:125-131.
[27] ZHOU Xiaohu, XU Chen, KIMMONS B. Detecting tourism destinations using scalable geospatial analysis based on cloud computing platform[J]. Computers, environment and urban systems, 2015, 54:144-153.
[28] 郭黎敏, 高需, 武斌, 等. 基于停留时间的语义行为模式挖掘[J]. 计算机研究与发展, 2017, 54(1):111-122 GUO Limin, GAO Xu, WU Bin, et al,. Discovering common behavior using staying duration on semantic trajectory[J]. Journal of computer research and development, 2017, 54(1):111-122
[29] 高强, 张凤荔, 王瑞锦, 等. 轨迹大数据:数据处理关键技术研究综述[J]. 软件学报, 2017, 28(4):959-992 GAO Qiang, ZHANG Fengli, WANG Ruijin, et al. Trajectory big data:a review of key technologies in data processing[J]. Journal of software, 2017, 28(4):959-992
[30] CUI Ge, LUO Jun, WANG Xin. Personalized travel route recommendation using collaborative filtering based on GPS trajectories[J]. International journal of digital earth, 2018, 11(3):284-307.
[31] SUN Yeran, FAN Hongchao, BAKILLAH M, et al. Road-based travel recommendation using geo-tagged images[J]. Computers, environment and urban systems, 2015, 53:110-122.
[32] WEI Lingyin, ZHENG Yu, PENG W C. Constructing popular routes from uncertain trajectories[C]//Proceedings of the 18th ACM SIGKDD International Conference on Knowledge Discovery and Data Mining. Beijing, China, 2012:195-203.
[33] TAI C H, YANG Denian, LIN L T, et al. Recommending personalized scenic itinerarywith geo-tagged photos[C]//Proceedings of 2008 IEEE International Conference on Multimedia and Expo. Hannover, Germany, 2008:1209-1212.
[34] LU X, WANG C, YANG J M, et al. Photo2Trip:generating travel routes from geo-tagged photos for trip planning[C]//Proceedings of the 18th International Conference on Multimedia. Florence, Italy, 2010:143-152.
[35] KURASHIMA T, IWATA T, IRIE G, et al. Travel route recommendation using geotagged photos[J]. Knowledge and information systems, 2013, 37(1):37-60.
[36] KURASHIMA T, IWATA T, IRIE G, et al. Travel route recommendation using geotags in photo sharing sites[C]//Proceedings of the 19th ACM International Conference on Information and Knowledge Management. Toronto, Canada, 2010:579-588.
[37] ARAIN Q A, MEMON H, MEMON I, et al. Intelligent travel information platform based on location base services to predict user travel behavior from user-generated GPS traces[J]. International journal of computers and applications, 2017, 39(3):155-168.
[38] HUANG Haosheng. Context-aware location recommendation using geotagged photos in social media[J]. International journal of geo-information, 2016, 5(11):195.
[39] 宋晓宇, 许鸿斐, 孙焕良, 等. 基于签到数据的短时间体验式路线搜索[J]. 计算机学报, 2013, 36(8):1693-1703 SONG Xiaoyu, XU Hongfei, SUN Huanliang, et al. Short-term experience route search based on check-in data[J]. Chinese journal of computers, 2013, 36(8):1693-1703
[40] 宋晓宇, 闫玉奇, 孙焕良, 等. 基于签到数据的群体旅游路线推荐[J]. 计算机科学与探索, 2015, 9(1):51-62 SONG Xiaoyu, YAN Yuqi, SUN Huanliang, et al. Group trip recommendation based on check-in Data[J]. Journal of frontiers of computer science and technology, 2015, 9(1):51-62
[41] CHO E, MYERS S A, LESKOVEC J. Friendship and mobility:user movement in location-based social networks[C]//Proceedings of the 17th ACM SIGKDD International Conference on Knowledge Discovery and Data Mining. San Diego, CA, USA, 2011:1082-1090.
[42] RAHIMI S M, WANG Xin. Location Recommendation based on periodicity of human activities and location categories[M]//PEI Jian, TSENG V S, CAO Longbing, et al. Advances in Knowledge Discovery and Data Mining. Berlin, Heidelberg:Springer, 2013:377–389.
[43] GUO Tong, GUO Bin, OUYANG YI, et al. CrowdTravel:scenic spot profiling by using heterogeneous crowdsourced data[J]. Journal of ambient intelligence and humanized computing, 2017(5):1-10.
[44] CHEN Chao, CHEN Xia, WANG Zhu, et al. ScenicPlanner:planning scenic travel routes leveraging heterogeneous user-generated digital footprints[J]. Frontiers of computer science, 2017, 11(1):61-74.
[45] CHEN Dawei, ONG C S, XIE Lexing. Learning points and routes to recommend trajectories[C]//Proceedings of the 25th ACM International on Conference on Information and Knowledge Management. Indianapolis, USA, 2016:2227-2232.
[46] LU E H C, CHEN C Y, TSENG V S. Personalized trip recommendation with multiple constraints by mining user check-in behaviors[C]//Proceedings of 20th International Conference on Advances in Geographic Information Systems. Redondo Beach, CA, USA, 2012:209-218.
[47] ZHENG Yu, ZHANG Lizhu, XIE Xing, et al. Mining interesting locations and travel sequences from GPS trajectories[C]//Proceedings of the 18th International Conference on World Wide Web. Madrid, Spain, 2009:791-800.
[48] KOU Feifei, DU Junping, LIN Zijian, et al. A semantic modeling method for social network short text based on spatial and temporal characteristics[J]. Journal of computational science, 2017.
[49] CHENG Xueqi, YAN Xiaohui, LAN Yanyan, et al. BTM:topic modeling over short texts[J]. IEEE transactions on knowledge and data engineering, 2014, 26(12):2928-2941.
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