Find below my september 24 entry: 63 references all from 2022.
This completes my current collection from 22.
Soon much more ... from 21 and later.
Prof. Em. Frank Plastria
| [1] |
Chandra Ade Irawan, Muhammad Dan-Asabe Abdulrahman, Said Salhi, and Martino Luis. An efficient matheuristic algorithm for bi-objective sustainable closed-loop supply chain networks. IMA Journal of Management Mathematics, 33(4):603--636, May 2022.
[ DOI ] |
| [2] |
Giuseppe Arbia, Paolo Berta, and Carrie B. Dolan. Locational error in the estimation of regional discrete choice models using distance as a regressor. The Annals of Regional Science, 69(1):223--238, March 2022. [ DOI ]
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| [3] |
Jean-Paul Arnaout and John Khoury. Adaptation of WO to the euclidean location-allocation with unknown number of facilities. Annals of Operations Research, 315(1):57--72, May 2022. [ DOI ]
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| [4] |
Soumen Atta, Priya Ranjan Sinha Mahapatra, and Anirban Mukhopadhyay. Solving a new variant of the capacitated maximal covering location problem with fuzzy coverage area using metaheuristic approaches. Computers & Industrial Engineering, 170:108315,
August 2022. [ DOI ] |
| [5] |
Jiwon Baik and Alan T. Murray. Locating a facility to simultaneously address access and coverage goals. Papers in Regional Science, 101(5):1199--1217, July 2022. [ DOI ]
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| [6] |
Kannan Balakrishnan, Manoj Changat, Andreas M. Hinz, and Divya Sindhu Lekha. The median of Sierpiński graphs. Discrete Applied Mathematics, 319:159--170, October 2022. [ DOI ]
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| [7] |
Marta Baldomero-Naranjo, Jörg Kalcsics, Alfredo Marín, and Antonio M. Rodríguez-Chía. Upgrading edges in the maximal covering location problem. European Journal of Operational Research, 303(1):14--36, November 2022. [ DOI ]
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| [8] |
O. Baturhan Bayraktar, Dilek Günneç, F. Sibel Salman, and Eda Yücel. Relief aid provision to en route refugees: Multi-period mobile facility location with mobile demand. European Journal of Operational Research, 301(2):708--725, September 2022. [ DOI ]
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| [9] |
Anup Bhattacharya, Yoav Freund, and Ragesh Jaiswal. On the k-means/median cost function. Information Processing Letters, 177:106252, August 2022. [ DOI ]
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| [10] |
Giuseppe Bruno, Manuel Cavola, Antonio Diglio, Javier Elizalde, and Carmela Piccolo. A locational analysis of deregulation policies in the Spanish retail pharmaceutical sector. Socio-Economic Planning Sciences, 82:101233, August 2022. [ DOI ]
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| [11] |
José J. Calvino, Miguel López-Haro, Juan M. Muñoz-Ocaña, Justo Puerto, and Antonio M. Rodríguez-Chía. Segmentation of scanning-transmission electron microscopy images using the ordered median problem. European Journal of Operational Research, 302(2):671--687,
October 2022. [ DOI ] |
| [12] |
Marta Cavaleiro and Farid Alizadeh. A branch-and-bound method for the minimum k−enclosing ball problem. Operations Research Letters, 50(3):274--280, May 2022. [ DOI ]
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| [13] |
Yen Hung Chen. Approximability results for the p-centdian and the converse centdian problems. Discrete Mathematics & Theoretical Computer Science, 24, no 2(Discrete Algorithms), November 2022. [ DOI ]
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| [14] |
Liting Chen, Sebastian Wandelt, Weibin Dai, and Xiaoqian Sun. Scalable vertiport hub location selection for air taxi operations in a metropolitan region. INFORMS Journal on Computing, 34(2):834--856, March 2022. [ DOI ]
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| [15] |
Richard L. Church, Zvi Drezner, and Arie Tamir. Extensions to the Weber problem. Computers & Operations Research, 143:105786, July 2022. [ DOI ] |
| [16] |
Hans Daduna. On queueing-inventory-location problems. Annals of Operations Research, 331(2):679--710, July 2022. [ DOI ] |
| [17] |
Han Dai, Bin Deng, Weidong Li, and Xiaofei Liu. A note on the minimum power partial cover problem on the plane. Journal of Combinatorial Optimization, 44(2):970--978, June 2022. [ DOI ]
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| [18] |
Shichuan Deng. Constant approximation for fault-tolerant median problems via iterative rounding. Operations Research Letters, 50(4):384--390, July 2022. [ DOI ]
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| [19] |
Wei Ding, Ke Qiu, Yu Zhou, and Zhou Ye. A sifting-edges algorithm for accelerating the computation of absolute 1-center in graphs. Journal of Combinatorial Optimization, 44(2):905--920, May 2022. [ DOI ]
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| [20] |
Güneş Erdoğan, Maria Battarra, and Antonio M. Rodríguez-Chía. The hub location and pricing problem. European Journal of Operational Research, 301(3):1035--1047, September 2022. [ DOI ]
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| [21] |
Levent Eriskin and Mumtaz Karatas. Applying robust optimization to the shelter location–allocation problem: a case study for Istanbul. Annals of Operations Research, 339(3):1589--1635, March 2022. [ DOI ]
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| [22] |
Jafar Fathali. A row generation method for the inverse continuous facility location problems. Computers & Industrial Engineering, 171:108482, September 2022. [ DOI ]
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| [23] |
Elisabeth Gaar and Markus Sinnl. A scaleable projection‐based branch‐and‐cut algorithm for the p‐center problem. European
Journal of Operational Research, 303(1):78--98, November 2022. [ DOI ] |
| [24] |
Houtian Ge, Stephan J. Goetz, Rebecca Cleary, Jing Yi, and Miguel I. Gómez. Facility locations in the fresh produce supply chain: An integration of optimization and empirical methods. International Journal of Production Economics, 249:108534, July
2022. [ DOI ] |
| [25] |
Hadi Ghaderi, Lele Zhang, Pei-Wei Tsai, and Jihoon Woo. Crowdsourced last-mile delivery with parcel lockers. International Journal of Production Economics, 251:108549, September 2022. [ DOI ]
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| [26] |
Nader Ghaffarinasab. Stochastic hub location problems with Bernoulli demands. Computers & Operations Research, 145:105851, September 2022. [ DOI ] |
| [27] |
Niloofar Gilani Larimi, Abolghasem Azhdari, Rouzbeh Ghousi, and Bo Du. Integrating GIS in reorganizing blood supply network in a robust-stochastic approach by combating disruption damages. Socio-Economic Planning Sciences, 82:101250, August 2022.
[ DOI ] |
| [28] |
Kagan Gokbayrak. A two-level off-grid electric distribution problem on the continuous space. Computers & Operations Research, 144:105853, August 2022. [ DOI ]
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| [29] |
Sapna Grover, Neelima Gupta, and Samir Khuller. LP-based approximation for uniform capacitated facility location problem. Discrete Optimization, 45:100723, August 2022. [ DOI ]
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| [30] |
Adam B. Haywood, Brian J. Lunday, and Matthew J. Robbins. Intruder detection and interdiction modeling: A bilevel programming approach for ballistic missile defense asset location. Omega, 110:102640, July 2022. [ DOI ]
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| [31] |
Sylvia Y. He, Yong-Hong Kuo, and Ka Kit Sun. The spatial planning of public electric vehicle charging infrastructure in a high-density city using a contextualised location-allocation model. Transportation Research Part A: Policy and Practice, 160:21--44,
June 2022. [ DOI ] |
| [32] |
Zhineng Hu, Li Wang, Jindong Qin, Benjamin Lev, and Lu Gan. Optimization of facility location and size problem based on bi-level multi-objective programming. Computers & Operations Research, 145:105860, September 2022. [ DOI ]
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| [33] |
Hamid Iravani. A multicriteria GIS-based decision-making approach for locating electric vehicle charging stations. Transportation Engineering, 9:100135, September 2022. [ DOI ]
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| [34] |
Chandra Ade Irawan, Said Salhi, and Hing Kai Chan. A continuous location and maintenance routing problem for offshore wind farms: Mathematical models and hybrid methods. Computers & Operations Research, 144:105825, August 2022. [ DOI ]
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| [35] |
Hong-Bae Jeon, Sung-Ho Park, Jaedon Park, Kaibin Huang, and Chan-Byoung Chae. An energy-efficient aerial backhaul system with reconfigurable intelligent surface. IEEE Transactions on Wireless Communications, 21(8):6478--6494, August 2022. [ DOI ]
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| [36] |
Nasrin Malekpoor Joneghani, Naeme Zarrinpoor, and Mahmood Eghtesadifard. A mathematical model for designing a network of sustainable medical waste management under uncertainty. Computers & Industrial Engineering, 171:108372, September 2022. [ DOI ]
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| [37] |
Michael Kahr. Determining locations and layouts for parcel lockers to support supply chain viability at the last mile. Omega, 113:102721, December 2022. [ DOI ]
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| [38] |
Pawel Kalczynski and Zvi Drezner. The obnoxious facilities planar p--median problem with variable sizes. Omega, 111:102639, September 2022. [ DOI ]
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| [39] |
Ningxuan Kang, Hao Shen, and Ye Xu. JD.com improves delivery networks by a multiperiod facility location model. INFORMS Journal on Applied Analytics, 52(2):133--148, March 2022. [ DOI ]
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| [40] |
Kamyar Kargar and Ali İrfan Mahmutoğulları. Risk-averse hub location: Formulation and solution approach. Computers & Operations Research, 143:105760, July 2022. [ DOI ]
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| [41] |
Dongyung Kim. An optimized discrete data classification method in n-dimensional. Computational and Mathematical Methods, 2022:1--8, May 2022. [ DOI ]
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| [42] |
Woojung Kim and Xiaokun Cara Wang. The adoption of alternative delivery locations in New York City: Who and how far? Transportation Research Part A: Policy and Practice, 158:127--140, April 2022. [ DOI ]
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| [43] |
Onkar Kulkarni, Mathieu Dahan, and Benoit Montreuil. Resilient hyperconnected parcel delivery network design under disruption risks. International Journal of Production Economics, 251:108499, September 2022. [ DOI ]
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| [44] |
Tanmoy Kundu, Jiuh-Biing Sheu, and Hsin-Tsz Kuo. Emergency logistics management—review and propositions for future research. Transportation Research Part E: Logistics and Transportation Review, 164:102789, August 2022. [ DOI ]
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| [45] |
Zhizhu Lai, Qun Yue, Zheng Wang, Dongmei Ge, Yulong Chen, and Zhihong Zhou. The min-p robust optimization approach for facility location problem under uncertainty. Journal of Combinatorial Optimization, 44(2):1134--1160, July 2022. [ DOI ]
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| [46] |
Chyh-Ming Lai and Ming-Lang Tseng. Designing a reliable hierarchical military logistic network using an improved simplified swarm optimization. Computers & Industrial Engineering, 169:108153, July 2022. [ DOI ]
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| [47] |
Torbjörn Larsson and Nils-Hassan Quttineh. A theoretical justification of the set covering greedy heuristic of Caprara et al. Discrete Optimization, 45:100700, August 2022. [ DOI ]
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| [48] |
Seyyed Ebrahim Latifi, Reza Tavakkoli-Moghaddam, Esmaeel Fazeli, and Hessam Arefkhani. Competitive facility location problem with foresight considering discrete-nature attractiveness for facilities: Model and solution. Computers & Operations Research,
146:105900, October 2022. [ DOI ] |
| [49] |
Jiapei Li, Chi Xie, and Zhaoyao Bao. Optimal en-route charging station locations for electric vehicles: A new modeling perspective and a comparative evaluation of network-based and metanetwork-based approaches. Transportation Research Part C: Emerging
Technologies, 142:103781, September 2022. [ DOI ] |
| [50] |
Yantong Li, Jean-François Côté, Leandro Callegari-Coelho, and Peng Wu. Novel formulations and logic-based Benders decomposition for the integrated parallel machine scheduling and location problem. INFORMS Journal on Computing, 34(2):1048--1069, March
2022. [ DOI ] |
| [51] |
Yun Hui Lin, Yuan Wang, Loo Hay Lee, and Ek Peng Chew. Omnichannel facility location and fulfillment optimization. Transportation Research Part B: Methodological, 163:187--209, September 2022. [ DOI ]
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| [52] |
Junming Liu, Weiwei Chen, Jingyuan Yang, Hui Xiong, and Can Chen. Iterative prediction-and-optimization for e-logistics distribution network design. INFORMS Journal on Computing, 34(2):769--789, March 2022. [ DOI ]
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| [53] |
Armin Lüer-Villagra, Vladimir Marianov, H.A. Eiselt, and Gonzalo Méndez-Vogel. The leader multipurpose shopping location problem. European Journal of Operational Research, 302(2):470--481, October 2022. [ DOI ]
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| [54] |
Luluk Lusiantoro, Setyo Mara, and Achmad Rifai. A locational analysis model of the COVID-19 vaccine distribution. Operations and Supply Chain Management: An International Journal, pages 240--250, April 2022. [ DOI ]
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| [55] |
Chang Lv, Chaoyong Zhang, Yaping Ren, and Leilei Meng. A fuzzy correlation based heuristic for dual-mode integrated location routing problem. Computers & Operations Research, 146:105923, October 2022. [ DOI ]
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| [56] |
Monirehalsadat Mahmoudi, Khadijeh Shirzad, and Vedat Verter. Decision support models for managing food aid supply chains: A systematic literature review. Socio-Economic Planning Sciences, 82:101255, August 2022. [ DOI ]
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| [57] |
Luisa I. Martínez-Merino, Diego Ponce, and Justo Puerto. Constraint relaxation for the discrete ordered median problem. TOP, 31(3):538--561, dec 2022. [ DOI ]
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| [58] |
Rodolfo Mendoza-Gómez and Roger Z. Ríos-Mercado. Location of primary health care centers for demand coverage of complementary services. Computers & Industrial Engineering, 169:108237, July 2022. [ DOI ]
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| [59] |
Mitchell A. Millstein, Canser Bilir, and James F. Campbell. The effect of optimizing warehouse locations on omnichannel designs. European Journal of Operational Research, 301(2):576--590, September 2022. [ DOI ]
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| [60] |
Mamta Mishra, Surya Prakash Singh, and M. P. Gupta. Location of competitive facilities: a comprehensive review and future research agenda. Benchmarking: An International Journal, 30(4):1171--1230, May 2022. [ DOI ]
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| [61] |
Richard Mix, Ricardo Hurtubia, and Sebastián Raveau. Optimal location of bike-sharing stations: A built environment and accessibility approach. Transportation Research Part A: Policy and Practice, 160:126--142, June 2022. [ DOI ]
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| [62] |
Inseok Moon, Le The Dung, and Taejoon Kim. Optimal 3D placement of UAV-BS for maximum coverage subject to user priorities and distributions. Electronics, 11(7):1036, mar 2022. [ DOI ]
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| [63] |
Nassim Mrabti, Nadia Hamani, Youssef Boulaksil, Mohamed Amine Gargouri, and Laurent Delahoche. A multi-objective optimization model for the problems of sustainable collaborative hub location and cost sharing. Transportation Research Part E: Logistics
and Transportation Review, 164:102821, August 2022. [ DOI ] |