[1]
|
Milad Mohammadi and Alibakhsh Nikzad.
Sustainable and reliable closed-loop supply chain network design
during pandemic outbreaks and disruptions.
Operations Management Research, 16(2):969--991, aug 2022.
[ DOI ]
|
[2]
|
Alberto Del Pia and Mingchen Ma.
k-median: exact recovery in the extended stochastic ball model.
Mathematical Programming, 200(1):357--423, oct 2022.
[ DOI ]
|
[3]
|
Renan Vicente Pinto and Nelson Maculan.
A new heuristic for the euclidean Steiner tree problem in rn.
TOP, 31(2):391--413, sep 2022.
[ DOI ]
|
[4]
|
Frank Plastria and Francisco Guevara.
Segmented pseudometrics and four-point fermat-torricelli problems.
Optimization, 72(8):2155--2173, mar 2022.
[ DOI ]
|
[5]
|
Jaroslav Pluskal, Radovan Šomplák, Dušan Hrabec,
Vlastimír Nevrlý, and Lars Magnus Hvattum.
Optimal location and operation of waste-to-energy plants when future
waste composition is uncertain.
Operational Research, 22(5):5765--5790, may 2022.
[ DOI ]
|
[6]
|
Xinqiang Qian, Xiucui Guan, Junhua Jia, Qiao Zhang, and Panos M. Pardalos.
Vertex quickest 1-center location problem on trees and its inverse
problem under weighted l norm.
Journal of Global Optimization, 85(2):461--485, jul 2022.
[ DOI ]
|
[7]
|
E. A. Papa Quiroz, A. Soubeyran, and P. R. Oliveira.
Coercivity and generalized proximal algorithms:
applicationtraveling around the world.
Annals of Operations Research, 321(1-2):451--467, apr 2022.
[ DOI ]
|
[8]
|
Motahareh Rabbani, Seyyed Mohammad Hadji Molana, Seyed Mojtaba Sajadi, and
Mohammad Hossein Davoodi.
Sustainable fertilizer supply chain network design using
evolutionary-based resilient robust stochastic programming.
Computers & Industrial Engineering, 174:108770, dec 2022.
[ DOI ]
|
[9]
|
Rajiv Raman and Saurabh Ray.
On the geometric set multicover problem.
Discrete & Computational Geometry, 68(2):566--591, jun 2022.
[ DOI ]
|
[10]
|
Simeon Reich and Truong Minh Tuyen.
The generalized Fermat-Torricelli problem in Hilbert spaces.
Journal of Optimization Theory and Applications, 196(1):78--97,
sep 2022.
[ DOI ]
|
[11]
|
Ahmed Saif and Nazanin Madani.
Robust design of service systems with immobile servers under demand
uncertainty.
Computers & Operations Research, 148:105965, dec 2022.
[ DOI ]
|
[12]
|
Eyden Samunderu, , and Otto Hahn Hahn and.
Reconfiguring a multi-period facility modelan empirical
test in a dynamic setting.
BOHR International Journal of Operations Management Research
and Practices, 1(1):17--27, 2022.
[ DOI ]
|
[13]
|
Firlan Sbastian, Ari Yanuar Ridwan, and Nia Novitasari.
Feasibility analysis of financial aspect in determining optimal last
mile warehouse location using p-median method.
In Proceedings of the Conference on Broad Exposure to Science
and Technology 2021 (BEST 2021). Atlantis Press, 2022.
[ DOI ]
|
[14]
|
Nazmi Sener and Orhan Feyzioglu.
Multiple allocation hub covering flow problem under uncertainty.
Annals of Operations Research, 320(2):975--997, feb 2022.
[ DOI ]
|
[15]
|
Mehmet Burak Senol and Ekrem Alper Murat.
A sequential solution heuristic for continuous facility layout
problems.
Annals of Operations Research, 320(1):355--377, oct 2022.
[ DOI ]
|
[16]
|
Zhixuan Shao, Maximilien Meyrieux, and Mustafa Kumral.
Optimal junction localization minimizing maximum miners' evacuation
distance in underground mining network.
Mining Technology, pages 1--14, dec 2022.
[ DOI ]
|
[17]
|
Karmel S. Shehadeh and Emily L. Tucker.
Stochastic optimization models for location and inventory
prepositioning of disaster relief supplies.
Transportation Research Part C: Emerging Technologies,
144:103871, nov 2022.
[ DOI ]
|
[18]
|
Iman Shokr, Fariborz Jolai, and Ali Bozorgi-Amiri.
A collaborative humanitarian relief chain design for disaster
response.
Computers & Industrial Engineering, 172:108643, oct 2022.
[ DOI ]
|
[19]
|
Jia Shu, Miao Song, Beilun Wang, Jing Yang, and Shaowen Zhu.
Humanitarian relief network design: Responsiveness maximization and a
case study of typhoon rammasun.
IISE Transactions, 55(3):301--313, jun 2022.
[ DOI ]
|
[20]
|
M. Tadaros and A. Migdalas.
Bi- and multi-objective location routing problems: classification and
literature review.
Operational Research, 22(5):4641--4683, sep 2022.
[ DOI ]
|
[21]
|
K��bra Taninmis and Markus Sinnl.
A branch-and-cut algorithm for submodular interdiction games.
INFORMS Journal on Computing, 34(5):2634--2657, sep 2022.
[ DOI ]
|
[22]
|
Rafael D. Tordecilla, Jairo R. Montoya-Torres, Carlos L. Quintero-Araujo,
Javier Panadero, and Angel A. Juan.
The location routing problem with facility sizing decisions.
International Transactions in Operational Research,
30(2):915--945, feb 2022.
[ DOI ]
|
[23]
|
Yu-Chung Tsao, Tsehaye Dedimas Beyene, Vo-Van Thanh, and Sisay G. Gebeyehu.
Power distribution network design considering dynamic and
differential pricing, buy-back, and carbon trading.
Computers & Industrial Engineering, 172:108567, oct 2022.
[ DOI ]
|
[24]
|
Mohammad H. Vahidnia, Hossein Vahidi, Madjid Ghodsi Hassanabad, and Maryam
Shafiei.
A spatial decision support system based on a hybrid AHP and
TOPSIS method for fire station site selection.
Journal of Geovisualization and Spatial Analysis, 6(2), oct
2022.
[ DOI ]
|
[25]
|
Sandra M. Venske, Carolina P. Almeida, Ricardo L��ders, and Myriam R. Delgado.
Selection hyper-heuristics for the multi and many-objective quadratic
assignment problem.
Computers & Operations Research, 148:105961, dec 2022.
[ DOI ]
|
[26]
|
Haitao Wang.
On the planar two-center problem and circular hulls.
Discrete & Computational Geometry, 68(4):1175--1226, jan
2022.
[ DOI ]
|
[27]
|
Wei Wang, Shuaian Wang, Lu Zhen, and Xiaobo Qu.
EMS location-allocation problem under uncertainties.
Transportation Research Part E: Logistics and Transportation
Review, 168:102945, dec 2022.
[ DOI ]
|
[28]
|
Zhaodong Wang, Siyang Xie, and Yanfeng Ouyang.
Planning reliable service facility location against disruption risks
and last-mile congestion in a continuous space.
Transportation Research Part B: Methodological, 165:123--140,
nov 2022.
[ DOI ]
|
[29]
|
Huihui Wang, Shu-Cherng Fang, Min Huang, Qihuan Zhang, and Zhibin Deng.
A joint model of location, inventory and third-party logistics
provider in supply chain network design.
Computers & Industrial Engineering, 174:108809, dec 2022.
[ DOI ]
|
[30]
|
Peng Wu, Feng Chu, Nasreddine Saidani, Haoxun Chen, and MengChu Zhou.
Optimizing locations and qualities of multiple facilities with
competition via intelligent search.
IEEE Transactions on Intelligent Transportation Systems,
23(6):5092--5105, jun 2022.
[ DOI ]
|
[31]
|
Peng Wu, Yun Wang, Junheng Cheng, and Yantong Li.
An improved mixed-integer programming approach for bi-objective
parallel machine scheduling and location.
Computers & Industrial Engineering, 174:108813, dec 2022.
[ DOI ]
|
[32]
|
Xi Xiang, Tao Fang, Changchun Liu, and Zhi Pei.
Robust service network design problem under uncertain demand.
Computers & Industrial Engineering, 172:108615, oct 2022.
[ DOI ]
|
[33]
|
Wuyang Yu.
Robust competitive facility location model with uncertain demand
types.
PLOS ONE, 17(8):e0273123, aug 2022.
[ DOI ]
|
[34]
|
Wuyang Yu and.
A continuum perspective of customer choice rules for competitive
facility location problems.
Journal of Industrial and Management Optimization, 0(0):0--0,
2022.
[ DOI ]
|
[35]
|
Shokufeh Zamani, Jamal Arkat, and Seyed Taghi Akhavan Niaki.
Service interruption and customer withdrawal in the congested
facility location problem.
Transportation Research Part E: Logistics and Transportation
Review, 165:102866, sep 2022.
[ DOI ]
|
[36]
|
Jianfeng Zheng, Lingxiao Yang, Lina Ni, Kjetil Fagerholt, and Yan Zhang.
Efficient models for the liner shipping hub location problem with
spatial structure.
Computers & Industrial Engineering, 173:108725, nov 2022.
[ DOI ]
|
[37]
|
Yujing Zheng, Yuxiong Ji, Yu Shen, Bing Liu, and Yuchuan Du.
Hub location problem considering spoke links with incentive-dependent
capacities.
Computers & Operations Research, 148:105959, dec 2022.
[ DOI ]
|
[38]
|
Elham Ziar, Mehdi Seifbarghy, Mahdi Bashiri, and Benny Tjahjono.
An efficient environmentally friendly transportation network design
via dry ports: a bi-level programming approach.
Annals of Operations Research, 322(2):1143--1166, dec 2022.
[ DOI ]
|