Читать книгу Healthcare Systems - Группа авторов - Страница 37
2.6. References
ОглавлениеBen Hassen, H., Tounsi, J., Ben Bachouch, R. (2019). An artificial immune algorithm for HHC planning based on multi-agent system. Procedia Computer Science, 164, 251–256.
Braislford, S. and Vissers, J. (2011). OR in healthcare: A European perspective. European Journal of Operational Research, 212(2), 223–234.
Cappanera, P. (2013). Home care optimization: Impact of pattern generation policies on scheduling and routing decisions. Electronic Notes in Discrete Mathematics, 41, 53–60.
Cappanera, P., Scutella, M.G., Nervi, F., Galli, L. (2018). Demand uncertainty in robust home care optimization. Omega, 80, 95–110.
Cardoso, T., Oliveira, M.D., Barbosa-Povoa, A., Nickel, S. (2015). An integrated approach for planning a long-term care network with uncertainty, strategic policy and equity considerations. European Journal of Operational Research, 247, 321–334.
Cissé, M., Yalçindag, S., Kergosien, Y., Sahin, 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(C), 1–22.
David, G. and Kim, K.L. (2018). The effect of workforce assignment on performance: Evidence from home health care. Journal of Health Economics, 59, 26–45.
Decerle, J., Grunder, O., El Hassani, A.H., Barakat, O. (2018). A memetic algorithm for a home health care routing and scheduling problem. Operations Research for Health Care, 16, 59–71.
Decerle, J., Grunder, O., El Hassani, A.H., Barakat, O. (2019). A memetic algoritm for multi-objective optimization of the home health care problem. Swarm and Evolutionary Computation, 44, 712–727.
Di Mascolo, M., Espinouse, M.L., El Hajri, Z., (2017). Planning in home health care structures: A literature review. IFAC PapersOnLine, 50(1), 4656–4659.
Di Mascolo, M., Espinouse, M.L., Ait Haddadene, S.R. (2018). Taking patients’ wishes into account for daily planning in the home health care context. IFAC PapersOnLine, 51(11), 1010–1015.
Emiliano, W., Telhada, J., Do Sameiro Carvalho, M. (2017). Home health care logistics planning: A review and framework. Procedia Manufacturing, 13, 848–955.
Erdem, M. and Koç, C. (2019). Analysis of electric vehicles in home health care routing problem. Journal of Cleaner Production, 234, 1471–1483.
Falkenauer, E. (1992). The grouping genetic algorithms – Widening the scope of the GAs. Belgian Journal of Operations Research, Statistics and Computer Science, 6, 79–102.
Fathollahi-Fard, A.M., Govindan, K., Hajiaghaei-Keshteli, M., Ahmadi, A. (2019). A green home health care supply chain: New modified simulated annealing algorithms. Journal of Cleaner Production, 240.
Fikar, C. and Hirsch, P. (2017). Home health care routing and scheduling: A review. Computers and Operations Research, 77, 86–95.
Filho, E.V.G. and Tiberti, A.J. (2006). A group genetic algorithm for the machine cell formation problem. International Journal of Production Economics, 102, 1–21.
Grenouilleau, F., Legrain, A., Lahrichi, N., Rousseau, L.M. (2019). A set partitioning heuristic for the home health care routing problem. European Journal of Operational Research, 275, 295–303.
Grenouilleau, F., Lahrichi, N., Rousseau, L.M. (2020). New decomposition methods for home care scheduling with predefined visits. Computers and Operations Research, 115, 104–855.
Hewitt, M., Nowak, M., Nataraj, N. (2016). Planning strategies for home health care delivery. Asia-Pacific Journal of Operational Research, 33(5), 1650041.
Holland, J.H. (1975). Adaptation in Natural and Artificial Systems: An Introductory Analysis with Applications to Biology, Control, and Artificial Intelligence. University of Michigan Press, Ann Arbor, USA.
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.
Koeleman, P.M., Bhulai, S., Meersbergen, M. (2012). Optimal patient and personnel scheduling plocies for care-at-home service facilities. European Journal of Operational Research, 219(3), 557–563.
Lanzarone, E. and Matta, A. (2014). Robust nurse-to-patient assignment in home care services to minimize overtimes under continuity of care. Operational Research for Health Care, 3(2), 48–58.
Marcon, E., Chaabane, S., Sallez, Y., Bonte, T., Trentesaux, D. (2017). A multi-agent system based on reactive decision rules for solving the caregiver routing problem in HHC. Simulation Modelling Practice Theory, 74, 134–151.
Martinez, C., Espinousse, M-L., Di Mascolo, M. (2019). Re-planning in home healthcare: A review decomposition approach to minimize idle time for workers while ensuring continuity of care. IFAC PapersOnLine, 52(13), 654–659.
Mosquera, F., Smet, P., Berghe, G.V. (2019). Flexible home care scheduling. Omega, 83, 80–95.
Moussavi, S.E., Mahdjoub, M., Grunder, O. (2019). A metaheuristic approach to the integration of worker assignment and vehicle routing problems: Application to home health scheduling. Expert Systems with Applications, 125, 317–332.
Mutingi, M. and Mbohwa, C. (2012). A group genetic algorithm for the fleet size and mix vehicle routing problem. IEEE Proceedings, 1468–1472.
Mutingi, M. and Mbohwa, C. (2013). A home healthcare multi-agent system in a multi-objective environment. SAIIE25 Proceedings, 636, 1–8.
Nasir, J.A. and Kuo, Y.H. (2020). A decision support framework for home health care transportation with simultaneous multi-vehicle routing and staff scheduling synchronization. Decision Support Systems, 138, 113–361.
Nasir, J.A., Hussain, S., Dang, C. (2018). An integrated planning approach towards home health care, telehealth and patients group based care. Journal of Network and Computer Applications, 117, 30–41.
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(3), 574–587.
Nikzad, E., Bashiri, M., Abbasi, B. (2020). A metaheuristic algorithm for stochastic home health care planning. European Journal of Operational Research, 288, 753–774.
Redjem, R., Kharraja, S., Marcon, E. (2011). Collaborative model for planning and scheduling caregivers’ activities in homecare. IFAC Proceedings Volumes, 44, 2877–2882.
Shahnejat-Bushehri, S., Tavakkoli-Moghaddam, R., Momen, S., Ghasemkhani, A., Tavakkoli-Moghaddam, H. (2019). Home health care routing and scheduling problem considering temporal dependencies and perishability with simultaneous pickup and delivery. IFAC PapersOnLine, 52(13), 118–123.
Shi, Y., Boudouh, T., Grunder, O. (2017). A hybrid genetic algorithm for a home health care routing problem with time window and fuzzy demand. Expert Systems with Applications, 72, 160–176.
Shi, Y., Boudouh, T., Grunder, O. (2019). A robust optimization for a home health care routing and scheduling problem with consideration of uncertain travel service times. Transportation Research Part E, 128, 52–95.
Stojanova, A., Stojkovic, N., Kocaleva, M., Koceski, S. (2017). Agent-based solution of caregiver scheduling problem in home-care context. 14th International Conference on Informatics and Information Technologies, Mavrovo, Macedonia, 7–9 April.
Vishnupriyan, S., Govindarajan, L., Prabhakaran, G., Ramachandran, K.P. (2008). Quality improvement in higher education through normalization of student feedback data using evolutionary algorithm. Proceedings of International Journal of Applied Management and Technology, 6(3).
Widmer, T. and Premm, M. (2015). Agent-based decision support for allocating caregiving resources in a dementia scenario. In MATES 2015, Müller, J.P., Ketter, W., Kaminka, G., Wagner, G., Bulling, N. (eds). Springer, Cham, Switzerland.
Wirnitzer, J., Heckmann, I., Meyer, A., Nickel, S. (2015). Patient-based nurse rostering in home care. Operations Research for Health Care, 8, 91–102
Xiao, L., Dridi, M., El Hassani, A.H. (2018). Mathematical model for the home health care scheduling and routing problem with flexible lunch break requirements. IFAC PapersOnLine, 51(11), 334–339.
Xie, Z. (2016). Decentralized and dynamic home health care resource scheduling using an agent-based model. PhD Thesis, Concordia University, Montreal, Canada.
Xie, Z.A. and Wang, C. (2017). A periodic repair algorithm for dynamic scheduling in home health care using agent-based model. IEEE 21st International Conference on Computer Supported Cooperative Work in Design (CSCWD), 245–250, Wellington, New Zealand, 26–28 April.
Chapter written by Rym BEN BACHOUCH JACQUIN and Jihene TOUNSI.
