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Sea Javelin : an analysis of naval force protection alternatives /Cobian, Daniel. January 2002 (has links) (PDF)
Thesis (M.S. in Management)--Naval Postgraduate School, December 2002. / Thesis advisor(s): John T. Dillard, Mary Malina. "AD-A413 541." Includes bibliographical references (p. 85-89). Also available online.
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An analysis of the common missile and TOW 2B on the Stryker anti-tank guided missile platform, using the Janus simulation /Peterson, Samuel L. January 2002 (has links) (PDF)
Thesis (M.S. in Management)--Naval Postgraduate School, December 2002. / Thesis advisor(s): David F. Matthews, Keebom Kang. Includes bibliographical references (p. 113-116). Also available online.
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Värdering av minor för mekaniserad strid / Assessment of landmines in mechanized battleBengtsson, Fred January 2021 (has links)
Stridsvagnsminans utveckling i helhet har under de senaste 20 åren mer eller mindre stått still. I försvarsberedningens slutrapport Värnkraft beskrivs fördröjande fältarbeten med minor som ett av de prioriterade områdena för Försvarsmaktens ingenjörförband. Med denna prioritering finns ett syfte att undersöka hur vidare minor fortsatt kommer att påverka den mekaniserade striden i framtiden. För att studera minors påverkan på den mekaniserade striden har den här studien använt Totalförsvarets forskningsinstituts simuleringsverktyg Suss-mek. Minvapnet finns sedan tidigare inte implementerat i programmet. Därför undersöks också vilka nyckelegenskaper som bör ingå i simulering med minor i strid. Resultatet visar att effekten av framtidens minor på den mekaniserade striden kommer i grunden vara densamma som idag. Däremot kommer teknologin för framtidens minor göra att minan i sig kommer att bli effektivare med högre sannolikhet att nedkämpa motståndaren. Studien kommer också fram till flera relevanta nyckelegenskaper, till exempel front, djup, densitet och fasta beteenden vid sammanstötminering. Det är egenskaper som måste tas hänsyn till vid modellering av minor i ett simuleringsverktyg. / The development of the antitank mine has more or less stood still for the past 20 years. In the Defense Committee's final report Värnkraft, counter-mobility operations with landmines is described as one of the priority areas for the Swedish Armed Forces' combat engineer units. With this priority, there is a purpose to investigate how mines will continue to affect the mechanized battle in the future. To study the impact of antitank mines on the mechanized battle, this study has used the Swedish Defense Research Agency's simulation tool Suss-mek. The mine weapon has not previously been implemented in the program. Therefore, it is also investigated which key characteristics that should be included in simulation with mines in battle. The results show that the impact of future antitank- mines in mechanized battle will basically be the same as today. On the other hand, the technology of the future mines will make the mine itself more efficient with a higher probability to kill. The study also shows several relevant key characteristics for example: front, depth, density and fixed behaviours during entering minefield. They are characteristics that must be considered when modelling mines in a simulation tool.
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