[1] Examining trip-chaining behavior: comparison of travel by men and women[J]. Transportation Research Record Journal of the Transportation Research Board, 1693, 79-85(1999).

[2] Geographies of transport II: Reconciling the general and the particular[J]. Progress in Human Geography, 41, 355-364(2016).

[3] The potential of public transport smart card data[J]. Transport Policy, 12, 464-474(2005).

[4] et alValidating and improving public transport origin-destination estimation algorithm using smart card fare data[J]. Transportation Research Part C: Emerging Technologies, 68, 490-506(2016).

[5] Estimating smart card commuters origin-destination distribution based on APTS data[J]. Journal of Transportation Systems Engineering and Information Technology, 13, 47-53(2013).

[6] Commuting efficiency in the Beijing metropolitan area: An exploration combining smartcard and travel survey data[J]. Journal of Transport Geography, 41, 175-183(2014).

[7] Detection of activities of public transport users by analyzing smart card data[J]. Transport Research Record: Journal of the Transportation Research Board, 2276, 48-55(2012).

[8] Augmenting transit trip characterization and travel behavior comprehension: Multiday location-stamped smart card transactions[J]. Transport Research Record, 2183, 29-40(2010).

[9] Estimating dynamic workplace capacities by means of public transport smart card data and household travel survey in Singapore[J]. Transportation Research Record, 2344, 20-30(2013).

[10] et alPublic transport trip purpose inference using smart card fare data[J]. Transportation Research Part C: Emerging Technologies, 87, 123-137(2018).

[11] 刘丽敏, 虞虎, 靳海涛. 基于公交刷卡数据的北京城市居民周末户外休闲行为特征研究[J]. 地域研究与开发, 2018,37(6):54-59. [ LiuL M, YuH, JinH T. Characteristics of outdoor recreation behaviors of beijing residents on weekends based on public transportation data[J]. Areal Research and Development, 2018,37(6):54-59. ] [ Liu L M, Yu H, Jin H T. Characteristics of outdoor recreation behaviors of beijing residents on weekends based on public transportation data[J]. Areal Research and Development, 2018,37(6):54-59. ]

[12] et alTracking job and housing dynamics with smartcard data[J]. Proceedings of the National Academy of Sciences, 115, 12710-12715(2018).

[13] 利用公交刷卡数据分析北京职住关系和通勤出行[J]. 地理学报, 67, 1339-1352(2012).

[14] et alMining smart card data for transit riders' travel patterns[J]. Transportation Research Part C: Emerging Technologies, 36, 1-12(2013).

[15] Commuting efficiency in the Beijing metropolitan area: An exploration combining smartcard and travel survey data[J]. Journal of Transport Geography, 41, 175-183(2014).

[16] 黄洁, 王姣娥, 靳海涛, 等. 北京市地铁客流的时空分布格局及特征——基于智能交通卡数据[J]. 地理科学进展, 2018,37(3):397-406. [ HuangJ, WangJ E, JinH T, et al. Investigating spatiotemporal patterns of passenger flows in the Beijing metro system from smart card data[J]. Progress in Geography, 2018,37(3):397-406. ] [ Huang J, Wang J E, Jin H T, et al. Investigating spatiotemporal patterns of passenger flows in the Beijing metro system from smart card data[J]. Progress in Geography, 2018,37(3):397-406. ]

[17] The construction of purpose-specific OD matrices using public transport smart card data[J]. Delft University of Technology, TU Delft(2015).

[18] et al80 weeks of GPS-traces: Approaches to enriching the trip information[J]. Transportation Research Record, 1870, 46-54(2004).

[19] et alInferring trip purposes and uncovering travel patterns from taxi trajectory data[J]. Cartography and Geographic Information Science, 43, 1-12(2016).

[20] Activity identification from GPS trajectories using spatial temporal POIs' attractiveness[report]. 2nd ACM Sigspatial International Workshop on Location Based Social Networks(2010).

[21] Detecting and analyzing mobility hotspots using surface networks[J]. Transactions in GIS, 18, 911-935(2014).

[22] Two-regime Pattern in Human Mobility: Evidence from GPS Taxi Trajectory Data[J]. Geographical Analysis, 48, 157-175(2016).

[23] Revealing travel patterns and city structure with taxi trip data[J]. Journal of Transport Geography, 43, 78-90(2015).

[24] From traces to trajectories: How well can we guess activity locations from mobile phone traces?[J]. Transportation Research Part C: Emerging Technologies, 46, 326-337(2014).

[25] 杨格格, 宋辞, 裴韬, 等. 北京对外交通枢纽乘客OD时空分布特征[J]. 地球信息科学学报, 2016,18(10):1374-1383. [ YangG G, SongC, PeiT, et al. Passengers' OD temporal-spatial distribution characteristics of the external traffic hubs in Beijing. Journal of Geo-information Science, 2016,18(10):1374-1383. ] [ Yang G G, Song C, Pei T, et al. Passengers' OD temporal-spatial distribution characteristics of the external traffic hubs in Beijing. Journal of Geo-information Science, 2016,18(10):1374-1383. ]

[26] et alIntra-urban human mobility and activity transition: Evidence from social media check-in data[J]. PLoS One, 9, e97010(2014).

[27] Correlating mobile phone usage and travel behavior: A case study of Harbin, China[J]. Computers, Environment and Urban Systems, 36, 118-130(2012).

[28] 陈卓然, 黄翀, 刘高焕, 等. 基于出租车GPS 数据的居民就医时空特征分析[J]. 地球信息科学学报, 2018,20(8):1111-1122. [ ChenZ R, HuangC, LiuG H, et al. Analysis of spatial-temporal characteristics of resident travel for hospitals based on taxi GPS data[J]. Journal of Geo-information Science, 2018,20(8):1111-1122. ] [ Chen Z R, Huang C, Liu G H, et al. Analysis of spatial-temporal characteristics of resident travel for hospitals based on taxi GPS data[J]. Journal of Geo-information Science, 2018,20(8):1111-1122. ]

[29] et alInvestigating public facility characteristics from a spatial interaction perspective: a case study of Beijing hospitals using taxi data[J]. ISPRS International Journal of Geo-information, 6, 38-51(2017).

[30] et alEvaluating the accessibility of healthcare facilities using an integrated catchment area approach[J]. International Journal of Environmental Research and Public Health, 15, 1-21(2018).

[31] Using a Huff-based model to delineate hospital service areas[J]. The Professional Geographer, 69, 522-530(2017).

[32] et alAssessing patient bypass behavior using taxi trip origin-destination (OD) data[J]. ISPRS International Journal of Geo-information, 5, 157-177(2016).

[33] 陈建国, 周素红, 柳林, 等. 交通拥堵对急救医疗服务时空可达性的影响——以广州市为例[J]. 地理科学进展, 2016,35(4):431-439. [ ChenJ G, ZhouS H, LiuL, et al. Estimating the effect of traffic congestion on accessibility to emergency medical care services: Take Guangzhou as an example[J]. Progress in Geography, 2016,35(4):431-439. ] [ Chen J G, Zhou S H, Liu L, et al. Estimating the effect of traffic congestion on accessibility to emergency medical care services: Take Guangzhou as an example[J]. Progress in Geography, 2016,35(4):431-439. ]

[34] The influence of land use on travel behavior: specification and estimation strategies[J]. Transportation Research Part A: Policy Practice, 35, 823-845(2001).

[35] The frequency of visiting a doctor: Is the decision to go independent of the frequency?[J]. Journal of Applied Econometrics, 26, 872-879(2011).

[36] 温慧敏, 顾涛, 王志丽, 等. 北京交通发展年报[R]. 北京:北京交通北京, 2018. [ WenH M, GuT, WangZ L, et al. Annual report on Beijing's traffic development[R]. Beijing: Beijing Transport Institute, 2018. ] [ Wen H M, Gu T, Wang Z L, et al. Annual report on Beijing's traffic development[R]. Beijing: Beijing Transport Institute, 2018. ]

[37] 李佳贤, 陈艳艳, 韩志玲, 等. 北京市居民初诊就医出行行为特征分析[J]. 交通科技与经济, 2019,21(5):34-38. [ LiJ X, ChenY Y, HanZ L, et al. Analysis of first medical travel behavior characteristics of residents in Beijing[J]. Technology & Economy in Areas of Communications, 2019,21(5):34-38. ] [ Li J X, Chen Y Y, Han Z L, et al. Analysis of first medical travel behavior characteristics of residents in Beijing[J]. Technology & Economy in Areas of Communications, 2019,21(5):34-38. ]

[38] 许欣悦, 曾多, 田玮, 等. 北京某三甲医院预约挂号对患者候诊时间的影响分析[J]. 中国医院管理, 2015,35(10):38-40. [ XuX Y, ZengD, TianW. Analysis of reservation registration effect on outpatient waiting time in one grade 3 first-class hospital[J]. Chinese Hospital Management, 2015,35(10):38-40. ] [ Xu X Y, Zeng D, Tian W. Analysis of reservation registration effect on outpatient waiting time in one grade 3 first-class hospital[J]. Chinese Hospital Management, 2015,35(10):38-40. ]

[39] 苑继承, 高湘伟, 石岳琴. 门诊患者挂号与就诊时间调查分析[J]. 第四军医大学学报, 2005,26(1):83-85. [ YuanJ C, GaoX W, ShiY Q. Survey and analysis of distribution of outpatients registration and visiting time[J]. Journal of the Fourth Military Medical University, 2005,26(1):83-85. ] [ Yuan J C, Gao X W, Shi Y Q. Survey and analysis of distribution of outpatients registration and visiting time[J]. Journal of the Fourth Military Medical University, 2005,26(1):83-85. ]

[40] 中华人民共和国卫生部. 医院分级管理办法[R]. 北京, 1989. [ Chinese Ministry of Health. Measures for hierarchical management of hospitals[R]. Beijing, 1989. ] [ Chinese Ministry of Health. Measures for hierarchical management of hospitals[R]. Beijing, 1989. ]

[41] et alJob-worker spatial dynamics in Beijing: Insights from Smart Card Data[J]. Cities, 86, 83-93(2019).

[42] Impact of the jobs-housing balance on urban commuting in Beijing in the transformation era[J]. Journal of Transport Geography, 19, 60-69(2011).

[43] 靳海涛, 金凤君, 陈卓, 等. 基于换乘链断裂点时空信息的公交换乘行为识别[J]. 交通运输工程学报, 2018,18(5):176-184. [ JinH T, JinF J, ChenZ, et al. Commute activity identification based on spatial and temporal information of transit chaining breaks[J]. Journal of Traffic and Transportation Engineering, 2018,18(5):176-184. ] [ Jin H T, Jin F J, Chen Z, et al. Commute activity identification based on spatial and temporal information of transit chaining breaks[J]. Journal of Traffic and Transportation Engineering, 2018,18(5):176-184. ]

[44] 史华英, 李习平. 患者就医时间影响就医决策的调查研究[J]. 社区医学杂志, 2016,14(7):41-43. [ ShiH Y, LiX P. Investigation of the influence of patient's medical treatment time on decision making[J]. Journal of Community Medicine, 2016,14(7):41-43. ] [ Shi H Y, Li X P. Investigation of the influence of patient's medical treatment time on decision making[J]. Journal of Community Medicine, 2016,14(7):41-43. ]

[45] 熊俊浩, 夏曦, 程小琴, 等. 基于结构方程模型的患者选择医院影响因素研究[J]. 中国卫生事业管理, 2012,29(2):84-87. [ XiongJ H, XiaX, ChengX Q, et al. A SEM-based study on influence factors of hospital choice[J]. The Chinese Health Service Management, 2012,29(2):84-87. ] [ Xiong J H, Xia X, Cheng X Q, et al. A SEM-based study on influence factors of hospital choice[J]. The Chinese Health Service Management, 2012,29(2):84-87. ]

[46] 王森. 我国居民的就医行为及其影响因素研究——基于CHNS调查面板数据的分析[J]. 西北人口, 2015(3):32-36. [ WangS. Analysis on the Adjustment of Birth Control Policies and Development of China Population. Northwest Population, 2015(3):32-36. ] [ Wang S. Analysis on the Adjustment of Birth Control Policies and Development of China Population. Northwest Population, 2015(3):32-36. ]

[47] 京医通大数据中心. 2017京医通就医数据报告[R]. 北京, 2018. [ Jingyitong big data center. 2017 Jingyitong medical report[R]. Beijing, 2018. ] [ Jingyitong big data center. 2017 Jingyitong medical report[R]. Beijing, 2018. ]