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A product version of the Hilton-Milner-Frankl theorem
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作者 peter frankl Jian Wang 《Science China Mathematics》 SCIE CSCD 2024年第2期455-474,共20页
Two families F and G of k-subsets of {1, 2,..., n} are called non-trivial cross t-intersecting if|F ∩ G|≥t for all F ∈ F, G ∈ G and | ∩ {F : F ∈ F}| < t, | ∩ {G : G ∈ G}| < t. In the present paper,we det... Two families F and G of k-subsets of {1, 2,..., n} are called non-trivial cross t-intersecting if|F ∩ G|≥t for all F ∈ F, G ∈ G and | ∩ {F : F ∈ F}| < t, | ∩ {G : G ∈ G}| < t. In the present paper,we determine the maximum product of the sizes of two non-trivial cross t-intersecting families of k-subsets of{1, 2,..., n} for n≥4(t + 2)2k2, k≥5, which is a product version of the Hilton-Milner-Frankl theorem. 展开更多
关键词 extremal set theory cross t-intersecting family product version non-trivial
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Simulating geometrically complex blast scenarios
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作者 Ian G.CULLIS Nikos NIKIFORAKIS +3 位作者 peter frankl Philip BLAKELY Paul BENNETT Paul GREENWOOD 《Defence Technology(防务技术)》 SCIE EI CAS CSCD 2016年第2期134-146,共13页
The effects of blast waves generated by energetic and non-energetic sources are of continuing interest to the ballistics research community.Modern conflicts are increasingly characterised by asymmetric urban warfare, ... The effects of blast waves generated by energetic and non-energetic sources are of continuing interest to the ballistics research community.Modern conflicts are increasingly characterised by asymmetric urban warfare, with improvised explosive devices(IEDs) often playing a dominant role on the one hand and an armed forces requirement for minimal collateral effects from their weapons on the other. These problems are characterised by disparate length- and time-scales and may also be governed by complex physics. There is thus an increasing need to be able to rapidly assess and accurately predict the effects of energetic blast in topologically complex scenarios. To this end, this paper presents a new Qineti Q-developed advanced computational package called EAGLE-Blast, which is capable of accurately resolving the generation, propagation and interaction of blast waves around geometrically complex shapes such as vehicles and buildings. After a brief description of the numerical methodology, various blast scenario simulations are described and the results compared with experimental data to demonstrate the validation of the scheme and its ability to describe these complex scenarios accurately and efficiently. The paper concludes with a brief discussion on the use of the code in supporting the development of algorithms for fast running engineering models. 展开更多
关键词 爆炸装置 复杂场景 场景模拟 能量来源 武装部队 时间尺度 相互作用 形状复杂
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