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The use of lanchester-type equations in the analysis of past military engagementsSchmieman, William Anton 08 1900 (has links)
No description available.
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Optimal Resource Allocation In Lanchester Attrition Model Based ConflictsSheeba, P S 05 1900 (has links)
Force deployment and optimal resource allocation has been an area of considerable research interest in conventional warfare. In the modern scenario, with significant advances in technology related to communication and computation, sophisticated decision-making in these situations has become feasible. This has generated renewed interest in formulating decision-making problems in these areas and seeking optimal solutions to them. This thesis addresses one such problem in which the defending forces need to optimally Partition their resources between several attacking forces of differing strengths.
The basic model considered for resource allocation is Lanchester attrition models. Lanchester models are deterministic differential equations that model attrition to forces in convict. In this thesis we address a resource allocation problem where the resource allocation is done using different approaches.
First, we developed a (2,1) model using the Lanchester square law model for attrition. For this model we assumed that the attacking force consists of two types of forces and the defending force consists of only one type of force. The objective is to optimally partition the defending force against the two attacking forces so as to maximize the surviving defending force strength and to minimize the attacking force strength. The objective function considered in this thesis is the weighted sum of the surviving defending force strength and the destroyed attacking force strength. We considered a resource allocation problem in which allocation of resources are done using four different approaches. The simplest is the case when allocation is done initially and no further action is taken Iv Abstract v (Time Zero Allocation (TZA)). For the TZA allocation scheme, when any of attacking forces gets destroyed, the corresponding defending force which was engaging that attacking force will stop interacting further. This situation rarely happens in reality. Hence to make this scenario more realistic, we considered another allocation scheme in which allocation is followed by redistribution of resources depending on certain decisive events (Time Zero Allocation with Redistribution (TZAR)). In TZA and TZAR schemes, the allocation of defending force is done only at the initial time. Deviating from this assumption, we considered another allocation scheme in which a constant allocation ratio is used continuously over time till the end of the convict (Continuous Constant Allocation (CCA). To account for the redistribution of resources we extended this allocation scheme to the case in which continuous constant allocation is followed by redistribution
of the resources (Continuous Constant Allocation with Redistribution (CCAR)). In each of these formulations we define the conditions for an optimal resource partitioning and allocation. We were able to obtain analytical expression for resource partitioning in almost all of these cases.
Next, in order to consider situations in which area fire is required, we developed a (2,1) model using Lanchester linear law model for attrition. Here we considered a resource allocation problem in which the resource allocation is done using ideas similar to the square law case. In the Linear law, the resources will get destroyed completely only at infinite time, hence a situation for redistribution of resources does not arise for this law. We considered Time Zero Allocation and Continuous Constant Allocation schemes for this law. We obtained analytical results for the TZA scheme. For the CCA scheme, closed form solutions are difficult to obtain but numerical solutions were obtained.
The above schemes were extended to an (n, 1) model for resource allocation using Lanchester square and linear laws. Here the defending forces have to determine an optimal partitioning of available resources to counter attacks from an adversary from n different fronts. For the square law model, we considered both TZA and CCA schemes for resource allocation. As the number of force types increases, the equations becomes much more complicated and the analytical solutions are difficult to obtain. We were able to obtain analytical solutions for some of the situations that occurs during the conflict. For the linear law, we considered only the TZA scheme since, even for the simpler (2,1) model, the analytical solutions are difficult to obtain for the CCA scheme.
The resource allocation strategies developed in this thesis contribute to the growing research in the field of conflicts. The thesis concludes with a discussion on some future Extensions of this work.
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An investigation of deterministic Lanchester-type equations of warfareRobinson, James Clayton 08 1900 (has links)
No description available.
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An analysis of a class of Lanchester-type warfare modelsWhite, Dennis Milton 08 1900 (has links)
No description available.
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Combat modelling with partial differential equationsKeane, Therese Alison, Mathematics & Statistics, Faculty of Science, UNSW January 2009 (has links)
In Part I of this thesis we extend the Lanchester Ordinary Differential Equations and construct a new physically meaningful set of partial differential equations with the aim of more realistically representing soldier dynamics in order to enable a deeper understanding of the nature of conflict. Spatial force movement and troop interaction components are represented with both local and non-local terms, using techniques developed in biological aggregation modelling. A highly accurate flux limiter numerical method ensuring positivity and mass conservation is used, addressing the difficulties of inadequate methods used in previous research. We are able to reproduce crucial behaviour such as the emergence of cohesive density profiles and troop regrouping after suffering losses in both one and two dimensions which has not been previously achieved in continuous combat modelling. In Part II, we reproduce for the first time apparently complex cellular automaton behaviour with simple partial differential equations, providing an alternate mechanism through which to analyse this behaviour. Our PDE model easily explains behaviour observed in selected scenarios of the cellular automaton wargame ISAAC without resorting to anthropomorphisation of autonomous 'agents'. The insinuation that agents have a reasoning and planning ability is replaced with a deterministic numerical approximation which encapsulates basic motivational factors and demonstrates a variety of spatial behaviours approximating the mean behaviour of the ISAAC scenarios. All scenarios presented here highlight the dangers associated with attributing intelligent reasoning to behaviour shown, when this can be explained quite simply through the effects of the terms in our equations. A continuum of forces is able to behave in a manner similar to a collection of individual autonomous agents, and shows decentralised self-organisation and adaptation of tactics to suit a variety of combat situations. We illustrate the ability of our model to incorporate new tactics through the example of introducing a density tactic, and suggest areas for further research.
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Combat modelling with partial differential equationsKeane, Therese Alison, Mathematics & Statistics, Faculty of Science, UNSW January 2009 (has links)
In Part I of this thesis we extend the Lanchester Ordinary Differential Equations and construct a new physically meaningful set of partial differential equations with the aim of more realistically representing soldier dynamics in order to enable a deeper understanding of the nature of conflict. Spatial force movement and troop interaction components are represented with both local and non-local terms, using techniques developed in biological aggregation modelling. A highly accurate flux limiter numerical method ensuring positivity and mass conservation is used, addressing the difficulties of inadequate methods used in previous research. We are able to reproduce crucial behaviour such as the emergence of cohesive density profiles and troop regrouping after suffering losses in both one and two dimensions which has not been previously achieved in continuous combat modelling. In Part II, we reproduce for the first time apparently complex cellular automaton behaviour with simple partial differential equations, providing an alternate mechanism through which to analyse this behaviour. Our PDE model easily explains behaviour observed in selected scenarios of the cellular automaton wargame ISAAC without resorting to anthropomorphisation of autonomous 'agents'. The insinuation that agents have a reasoning and planning ability is replaced with a deterministic numerical approximation which encapsulates basic motivational factors and demonstrates a variety of spatial behaviours approximating the mean behaviour of the ISAAC scenarios. All scenarios presented here highlight the dangers associated with attributing intelligent reasoning to behaviour shown, when this can be explained quite simply through the effects of the terms in our equations. A continuum of forces is able to behave in a manner similar to a collection of individual autonomous agents, and shows decentralised self-organisation and adaptation of tactics to suit a variety of combat situations. We illustrate the ability of our model to incorporate new tactics through the example of introducing a density tactic, and suggest areas for further research.
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Ytterliggare antaganden om modern sjöstridRamel Kjellgren, Jim January 2013 (has links)
Denna uppsats undersöker huruvida vi med hjälp av Gustav von Schmalensees modifikation av Lanchesters kvadratiska N2-Law kan bestyrka eller falsifiera teorin att en kustflotta med hjälp av en amfibisk miljö kan slå en på pappret överlägsen motståndare. Den komplexa miljö som en kustremsa eller skärgård utgör påverkar en högsjöflottas kapacitet att utgöra ett hot mot en kustflotta vars taktik är anpassad för terrängen och de synergieffekter som den ger. Uppsatsen försöker påvisa hur stor inverkan variabeln geografi har i sammanhanget. Vidare undersöker uppsatsen huruvida det är möjligt att förbättra von Schmalensees modifikation av Lanchesters N2-Law med hjälp av den faktiska sannolikheten för träff med sjömålsrobot inomskärs respektive utomskärs. Med hjälp av Försvarshögskolans sjökrigsspel Simple Surface Warfare Model (SSM) genomförs ett experiment där teorierna testas empiriskt. Resultaten visar en förbättring i prediceringen av stridsutfall med sjömålsrobot om koefficienten för den faktiska sannolikheten för träff räknas in i ekvationen. Vidare konstateras att en stark korrelation kan ses i en mindre kustflottas överlevnad i amfibisk miljö då de möter en på pappret överlägsen motståndare.
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Overpopulation and Authoritarian Regime : The Villains in an Anthropocene EraGingborn, Kajsa January 2024 (has links)
This essay explores the dynamic landscape of Anthropocene fiction, using novels such as John Lanchester’s The Wall and Sam J. Miller’s Blackfish City as lenses through which to explore the aftermath of climate change. Both narratives tackle the question: what unfolds in the wake of environmental disaster? Focused on the consequences of flooding, these novels depict worlds grappling with diminishing resources and an acute scarcity of habitable land, intensifying the challenges of overpopulation. In response, the remaining governments resort to authoritarian measures, fostering oppression and control. This exploration unfolds through the lens of four primary Anthropocene themes: climate change, overpopulation, authoritarianism, and rebellion. By examining how these novels navigate these themes, the essay contributes to the emerging field of Anthropocene fiction. Moreover, it highlights the urgent need for addressing climate change while underscoring the social justice implications embedded in these narratives. John Lanchester’s The Wall and Sam J. Miller’s Blackfish City serve as vital contributors to this literary landscape, shedding light on the intricate interplay between humanity and the environment in the face of Anthropocene challenges.
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