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McFadden, D. Conditional logit evaluation of qualitative alternative habits. (1972).
So, Y. W. F. Kuhfeld. Multinomial logit fashions. In SUGI 20 Conf. Proc., 1227–1234 (1995).
Wu, Q. et al. Analysis of harm severity of drivers concerned in several types of two-vehicle crashes utilizing random-parameters logit fashions with heterogeneity in means and variances. J. Adv. Transp. 2023, 3399631 (2023).
Hensher, D. A. Greene. the combined logit mannequin: the state of apply. Transportation 30, 133–176 (2003).
Hossain, S. Habib. Fusing repeated cross-sectional revealed desire datasets based mostly on rational inattention concept: accounting for altering modal preferences. Transp. Res. Rec. 2678 (11), 736–749 (2024).
Greene, W. H. & Hensher, D. A. A latent class mannequin for discrete alternative evaluation: contrasts with combined logit. Transp. Res. Part. B Methodol. 37 (8), 681–698 (2003).
Hensher, D. A. & Greene, W. H. Specification and Estimation of the nested logit mannequin: different normalisations. Transp. Res. Part. B Methodol. 36 (1), 1–17 (2002).
Koppelman, F. S. & Wen, C. H. Alternative nested logit fashions: Structure, properties and Estimation. Transp. Res. Part. B Methodol. 32 (5), 289–298 (1998).
Chen, B. & Zhao, C. Logit mannequin of passenger journey alternative underneath transportation capability constraints. J. Chang’an Univ. (Nat Sci. Ed). 44 (2), 115–122 (2024).
Wang, L., Zhou, J. & Qu, A. Penalized generalized estimating equations for high-dimensional longitudinal knowledge evaluation. Biometrics 68 (2), 353–360 (2012).
Zhang, B. et al. Nested logit mannequin of journey mode alternative for the aged from the attitude of bounded rationality. J. Transp. Syst. Eng. Inf. Technol. 23 (6), 74–82 (2023).
Bhat, C. R. Accommodating variations in responsiveness to level-of-service measures in journey mode alternative modeling. Transp. Res. Part. Policy Pract. 32 (7), 495–507 (1998).
Bhat, C. R. & Sardesai, R. The influence of stop-making and journey time reliability on commute mode alternative. Transp. Res. Part. B Methodol. 40 (9), 709–730 (2006).
Vaswani, A. et al. Attention is all you want. Adv Neural Inf. Process. Syst 30, (2017).
Grill, J. B. et al. Bootstrap your personal latent: A brand new strategy to self-supervised studying. Adv. Neural Inf. Process. Syst. 33, 21271–21284 (2020).
Hagenauer, J. & Helbich, M. A comparative examine of machine studying classifiers for modeling journey mode alternative. Expert Syst. Appl. 78, 273–282 (2017).
Salas, P. et al. A scientific comparative analysis of machine studying classifiers and discrete alternative fashions for journey mode alternative within the presence of response heterogeneity. Expert Syst. Appl. 193, 116253 (2022).
Rahnasto, I. & Hollestelle, M. Comparing discrete alternative and machine studying fashions in predicting vacation spot alternative. Eur. Transp. Res. Rev. 16 (1), 43 (2024).
Li, X., Cao, Okay. & Kuang, H. Research on journey mode alternative based mostly on hyperparameter-optimized ensemble studying. J. Transp. Syst. Eng. Inf. Technol. 24 (6), 159–168 (2024).
Li, W. et al. Study on journey mode alternative habits of residents in medium-sized cities based mostly on machine studying. J. Transp. Syst. Eng. Inf. Technol. 24 (2), 13–23 (2024).
Banyong, C. et al. Analyzing high-speed rail’s transformative influence on public transport in Thailand utilizing machine studying. Infrastructures 10 (3), 57 (2025).
Tang, L. et al. Predicting journey mode alternative with a sturdy neural community and Shapley additive explanations evaluation. IET Intell. Transp. Syst. 18 (7), 1339–1354 (2024).
Macri, C. et al. Evaluating the power of open-source synthetic intelligence to foretell accepting-journal influence issue and eigenfactor rating utilizing tutorial Article abstracts: Cross-sectional machine studying evaluation. J. Med. Internet Res. 25, e42789 (2023).
Parisineni, S. R. A. & Pal, M. Enhancing belief and interpretability of advanced machine studying fashions utilizing native interpretable mannequin agnostic Shap explanations. Int. J. Data Sci. Anal. 18 (4), 457–466 (2024).
Yin, G. et al. Examining lively journey habits via explainable machine studying: insights from Beijing. China Transp. Res. Part. D Transp. Environ. 127, 104038 (2024).
Ben-Akiva, M. E. S. R. Lerman. Discrete Choice Analysis: Theory and Application To Travel Demand (MIT Press, 1985).
Cervero, R. Built environments and mode alternative: towards a normative framework. Transp. Res. Part. D: Transp. Environ. 7 (4), 265–284 (2002).
Koppelman, F. S. C. Bhat. A self instructing course in mode alternative modeling: multinomial and nested logit fashions. (2006).
Mokhtarian, P. L. & Salomon, I. How derived is the demand for journey? Some conceptual and measurement issues. Transp. Res. Part. A: Policy Pract. 35 (8), 695–719 (2001).
Ettema, D. & Verschuren, L. Multitasking and worth of journey time financial savings. Transp. Res. Record. 2010 (1), 19–25 (2007).
Wardman, M. Public transport values of time. Transp. Policy. 11 (4), 363–377 (2004).
Pan, Q. & Sharifi, S. Third step of four-step modeling (mode alternative fashions). Transp. Land Use Modeling Policy (TLUMP), (2024).
DiBartolomeo, J. A. & Turnbull, G. Okay. Commuting prices and concrete sprawl: which proxy measures up? J. Real. Estate Finance Econ. 67 (3), 375–387 (2023).
Hu, H. et al. Travel mode selections in small cities of china: A case examine of Changting. Transp. Res. Part. D: Transp. Environ. 59, 361–374 (2018).
Zhuang, Y. et al. Modeling mode alternative for residents in medium and small cities based mostly on random parameter logit. J. Jilin Univ. Eng. Ed. 54 (2), 461–468 (2024).
Okay. E. Train. Discrete Choice Methods with Simulation. Cambridge University Press, (2009).
Li, T. et al. Web log mining methods to optimize apriori affiliation rule algorithm in sports activities knowledge info administration. Sci. Rep. 14 (1), 24099 (2024).
Amin, M., Efendi, S. & Candra, A. Performance enchancment of Apriori algorithm with transaction discount and hash based mostly strategy. In Proc. 4th Int. Conf. Sci. Inf. Technol. Smart Admin. (ICSINTESA), IEEE, 517–522 (2024).
Cai, M., Klausch, T., van de, M. A. & Wiel Refining CART fashions for covariate shift with significance weight. ArXiv e-prints arXiv :241020978 (2024).
Ruppert, D. The components of statistical studying: knowledge mining, inference, and prediction. (2004).
Loh, W. Y. Classification and regression bushes. Wiley Interdiscip Rev. Data Min. Knowl. Discov. 1 (1), 14–23 (2011).
Friedman, J. H. B. E. Popescu. Predictive studying by way of rule ensembles. (2008).
Shimokawa, T. et al. Modified rule ensemble methodology for binary knowledge and its functions. Behaviormetrika 41, 225–244 (2014).
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