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Journal of the Operational Research Society Volume 56, 2005 - Issue 12
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Theoretical Paper

The Lanchester (n, 1) problem

G T KaupUniversity of Central FloridaFLUSACorrespondence[email protected]
,
D J KaupUniversity of Central FloridaFLUSACorrespondence[email protected]
&
N M FinkelsteinSimulation Technology CenterOrlandoFLUSA
Pages 1399-1407 | Received 01 Sep 2003, Accepted 01 Oct 2004, Published online: 21 Dec 2017

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Alexander C. Kalloniatis, Keeley Hoek, Mathew Zuparic & Markus Brede. (2021) Optimising structure in a networked Lanchester model for fires and manoeuvre in warfare. Journal of the Operational Research Society 72:8, pages 1863-1878.
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Donghyun Kim, Hyungil Moon, Donghyun Park & Hayong Shin. (2017) An efficient approximate solution for stochastic Lanchester models. Journal of the Operational Research Society 68:11, pages 1470-1481.
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P L Liu, H K Sun & Y T You. (2012) Some comments on MacKay's Lanchester mixed forces model. Journal of the Operational Research Society 63:11, pages 1631-1633.
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N J MacKay. (2009) Lanchester models for mixed forces with semi-dynamical target allocation. Journal of the Operational Research Society 60:10, pages 1421-1427.
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Articles from other publishers (16)

Jong-Hyeon Hwang & Dong-Hyung Lee. (2023) Reallocation of Force in the Lanchester (3,3) Combat Model. Journal of Society of Korea Industrial and Systems Engineering 46:4, pages 263-271.
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Yunzheng Liu, Xiran Zhang, Hongfeng Du, Gege Wang & Dexian Zeng. (2022) Construction and Simulation of Lanchester Battle Equations Based on Space-based Information Support. Journal of Physics: Conference Series 2384:1, pages 012011.
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Jeongtaek Oh & Jungmok Ma. (2021) Analysis of the Effectiveness of Reserve Force in Defensive Operations Based on Lanchester Square Attrition Model. Journal of the Korean Institute of Industrial Engineers 47:5, pages 414-420.
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Donghyun Park, Donghyun Kim, Hyungil Moon & Hayong Shin. (2016) Gaussian Approximation of Stochastic Lanchester Model for Heterogeneous Forces. Journal of Korean Institute of Industrial Engineers 42:2, pages 86-95.
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백승원 & 조성식. (2016) Optimization of Engagement Strategy for Counterfire warfare using Heuristic Algorithm. Korean Journal of Military Art and Science 72:1, pages 249-264.
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Xiangyong Chen, Jinde Cao, Jianlong Qiu, Yuanwei Jing, Liuqing Yang & Bochao Zheng. (2015) Optimal control of a class of warfare dynamic systems based on Lanchester (2,2) attrition model. Optimal control of a class of warfare dynamic systems based on Lanchester (2,2) attrition model.
Kyle Y. Lin & Niall J. MacKay. (2014) The optimal policy for the one-against-many heterogeneous Lanchester model. Operations Research Letters 42:6-7, pages 473-477.
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Xiangyong Chen & Ancai Zhang. (2014) Modeling and Optimal Control of a Class of Warfare Hybrid Dynamic Systems Based on Lanchester Attrition Model . Mathematical Problems in Engineering 2014, pages 1-7.
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Seung-Won Baik & Sung-Pil Hong. (2013) A Pragmatic Method on Multi-Weapon Lanchester's Law. Journal of the Korean Operations Research and Management Science Society 38:4, pages 1-9.
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Seung-Won Baik. (2013) A Raid-Type War-Game Model Based on a Discrete Multi-Weapon Lanchester's Law. Management Science and Financial Engineering 19:2, pages 31-36.
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Jussi Kangaspunta, Juuso Liesiö & Ahti Salo. (2012) Cost-efficiency analysis of weapon system portfolios. European Journal of Operational Research 223:1, pages 264-275.
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Eduardo González & Marcelo J. Villena. (2011) Spatial attrition modeling: Stability conditions for a FD formulation . Computers & Mathematics with Applications 61:11, pages 3246-3257.
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Eduardo González & Marcelo Villena. (2011) Spatial Lanchester models. European Journal of Operational Research 210:3, pages 706-715.
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Shi-hui Wu & Jian-jun Yang. (2009) Optimal military strength allocation for campaign between single-kind arms and multi-kind arms. Optimal military strength allocation for campaign between single-kind arms and multi-kind arms.
P.S. Sheeba & Debasish Ghose. (2008) Optimal resource allocation and redistribution strategy in military conflicts with Lanchester square law attrition. Naval Research Logistics (NRL) 55:6, pages 581-591.
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P.S. Sheeba & D. Ghose. (2008) Optimal resource allocation in conflicts with the Lanchester linear law (2,1) model. Optimal resource allocation in conflicts with the Lanchester linear law (2,1) model.

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