Читать книгу Healthcare Systems - Группа авторов - Страница 28
1.8. References
ОглавлениеBéguin, F. (2018). Le nombre de candidats aux écoles d’aides-soignants en baisse. Le Monde [Online]. Available at: https://www.lemonde.fr/sante/article/2018/05/11/le-nombre-decandidats-aux-ecoles-d-aides-soignants-en-baisse_5297453_1651302.html.
Begur, S.V., Miller, D.M., Weaver, J.R. (1997). An integrated spatial DSS for scheduling and routing home-health-care nurses. Interfaces, 27, 35–48.
Cappanera, P. and Scutellà, M.G. (2014). Joint assignment, scheduling, and routing models to home care optimization: A pattern-based approach. Transportation Science, 49, 830–852.
Cappanera, P., Scutellà, M.G., Nervi, F., Galli, L. (2018). Demand uncertainty in robust home care optimization. Omega, 80, 95–110.
Carello, G., Lanzarone, E., Mattia, S. (2018). Trade-off between stakeholders’ goals in the home care nurse-to-patient assignment problem. Operations Research for Health Care, 16, 29–40.
Cheng, E. and Rich, J.L. (1998). A home health care routing and scheduling problem. Technical report [Online]. Available at: https://scholarship.rice.edu/handle/1911/101899.
Cissé, M., Yalçındağ, S., Kergosien, Y., Şahin, E., Lenté, C., Matta, A. (2017). OR problems related to home health care: A review of relevant routing and scheduling problems. Operations Research for Health Care, 13–14, 1–22.
Clarke, G. and Wright, J.W. (1964). Scheduling of vehicles from a central depot to a number of delivery points. Operations Research, 12, 568–581.
Decerle, J., Grunder, O., Hajjam El Hassani, A., Barakat, O. (2018). A memetic algorithm for a home health care routing and scheduling problem. Operations Research for Health Care, 16, 59–71.
Di Mascolo, M., Martinez, C., Espinouse, M.L. (2021). Routing and scheduling in home health care: A literature survey and bibliometric analysis. Computers & Industrial Engineering, 158, 107255.
Eveborn, P., Flisberg, P., Rönnqvist, M. (2006). LAPS CARE: An operational system for staff planning of home care. European Journal of Operational Research, 171(3), 962–976.
Fathollahi-Fard, A.M., Hajiaghaei-Keshteli, M., Mirjalili, S. (2019). A set of efficient heuristics for a home healthcare problem. Neural Computing and Applications, 32, 6185–6205.
Fikar, C. and Hirsch, P. (2015). A matheuristic for routing real-world home service transport systems facilitating walking. Journal of Cleaner Production, 105, 300–310.
Fikar, C. and Hirsch, P. (2017). Home health care routing and scheduling: A review. Computers & Operations Research, 77, 86–95.
Gomes, M.I. and Ramos, T.R.P. (2019). Modelling and (re-)planning periodic home social care services with loyalty and non-loyalty features. European Journal of Operational Research, 277, 284–299.
Grenouilleau, F., Legrain, A., Lahrichi, N., Rousseau, L.-M. (2017). A set partitioning heuristic for the home health care routing and scheduling problem [Online]. Available at: http://www.cirrelt.ca/DocumentsTravail/CIRRELT-2017-70.pdf.
Grieco, L., Utley, M., Crowe, S. (2020). Operational research applied to decisions in home health care: A systematic literature review. Journal of the Operational Research Society, 1–32.
Guinet, A. (2014). Organisation des soins à domicile en Europe et Amérique du Nord. Proceedings from the 10th Conférence francophone de modélisation, optimisation et simulation (MOSIM), Nancy, France.
Heching, A., Hooker, J.N., Kimura, R. (2019). A logic-based benders approach to home healthcare delivery. Transportation Science, 53, 510–522.
Issaoui, B., Zidi, I., Marcon, E., Ghedira, K. (2015). New multi-objective approach for the home care service problem based on scheduling algorithms and variable neighborhood descent. Electronic Notes in Discrete Mathematics, 47, 181–188.
Kandakoglu, A., Sauré, A., Michalowski, M., Aquino, M., Graham, J., McCormick, B. (2020). A decision support system for home dialysis visit scheduling and nurse routing. Decision Support Systems, 130, 113224.
Légifrance (2012). Convention collective nationale des entreprises de services à la personne du 20 septembre 2012 [Online]. Available at: https://www.legifrance.gouv.fr/affichIDCCArticle.do;jsessionid=1133A88F6CF2A4DE8D36FD10BF728C52.tplgfr42s_1?idArticle=KALIARTI000026943205&cidTexte=KALITEXT00002694319.
Lin, S. and Kernighan, B.W. (1973). An effective heuristic algorithm for the traveling-salesman problem. Operations Research, 21, 498–516.
Martinez, C., Espinouse, M.-L., Di Mascolo, M. (2019). Re-planning in home healthcare: A decomposition approach to minimize idle times for workers while ensuring continuity of care. Proceedings of the IFAC Conference on Manufacturing Modeling, Management and Control, Berlin, Germany.
Mosquera, F., Smet, P., Vanden Berghe, G. (2019). Flexible home care scheduling. Omega, 83, 80–95.
Nickel, S., Schröder, M., Steeg, J. (2012). Mid-term and short-term planning support for home health care services. European Journal of Operational Research, 219, 574–587.
Rizzi, R., Sacomoto, G., Sagot, M.-F. (2015). Efficiently listing bounded length st-paths. In Combinatorial Algorithms, Lecture Notes in Computer Science, Jan, K., Miller, M., Froncek, D. (eds). Springer, Berlin.
Szander, N., Ros-McDonnell, L.B., Bogataj, M. (2018). A feasible nurse routing plan for the elderly: Quality and spatial trade-offs. In Closing the Gap Between Practice and Research in Industrial Engineering, Lecture Notes in Management and Industrial Engineering, Viles, E., Ormazábal, M., Lleó, A. (eds). Springer, Berlin.
Chapter written by Cléa MARTINEZ, Maria DI MASCOLO, Marie-Laure ESPINOUSE and Jérôme RADUREAU.
