| 引用本文: | 马莎,施智平,李黎明,关永,张杰,Xiaoyu SONG.几何代数的高阶逻辑形式化.软件学报,2016,27(3):497-516 |
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| 几何代数的高阶逻辑形式化 |
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马莎1,2, 施智平1,3, 李黎明1, 关永1,3, 张杰4, Xiaoyu SONG5
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1.轻型工业机器人与安全验证北京市重点实验室(首都师范大学), 北京 100048;2.首都师范大学成像技术北京市高精尖创新中心, 北京 100048;3.北京数学与信息交叉科学2011协同创新中心, 北京 100048;4.北京化工大学信息科学与技术学院, 北京 100029;5.Electrical and Computer Engineering, Portland State University, Portland, USA
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| 摘要: |
| 几何代数是一种用于描述和计算几何问题的代数语言,由于它统一表达分析和不依赖于坐标的几何计算等优点,现已成为数学分析、理论物理、几何学、工程应用等领域重要的理论基础和计算工具.然而,利用几何代数进行计算和建模分析的传统方法,如数值计算方法和符号方法等,都存在计算不精确或者不完备等问题.高阶逻辑定理证明是验证系统正确的一种严密的形式化方法.在高阶逻辑证明工具HOL-Light中建立了几何代数系统的形式化模型,主要包括片积、多重矢量、外积、内积、几何积、几何逆、对偶、基矢量运算和变换算子等的形式化定义和相关性质定理的证明.最后,为了说明几何代数形式化的有效性和实用性,在共形几何代数空间中,给刚体运动问题提供了一种简单有效的形式化建模与验证方法. |
| 关键词: 几何代数 形式化验证 定理证明 HOL-Light 几何积 |
| DOI:10.13328/j.cnki.jos.004977 |
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| 基金项目:国家自然科学基金(61170304,61104035,61373034,61303014,61472468,61572331);国际科技合作计划(2010DFB 10930,2011DFG13000);北京市科委项目(Z141100002014001);北京市教委科研基地建设项目(TJSHG201310028014);北京市属高等学校创新团队建设与教师职业发展计划(IDHT20150507) |
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| Formalization of Geometric Algebra Theories in Higher-Order Logic |
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MA Sha1,2, SHI Zhi-Ping1,3, LI Li-Ming1, GUAN Yong1,3, ZHANG Jie4, Xiaoyu SONG5
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1.Light Industrial Robot and Safety Verification of Key Laboratory of Beijing(Capital Normal University), Beijing 100048, China;2.Sophisticated Imaging Technology Innovation Center of Capital Normal University, Beijing 100048, China;3.Beijing Mathematics and Information Science 2011 Collaborative Innovation Center, Beijing 100048, China;4.College of Information Science & Technology, Beijing University of Chemical Technology, Beijing 100029, China;5.Electrical and Computer Engineering, Portland State University, Portland, USA
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| Abstract: |
| Geometric algebra(GA) is an algebraic language used to describe and calculate geometric problems.Due to its unified expression and coordinate-free geometric calculation, GA has now become an important theoretical foundation and calculation tool in mathematical analysis, theoretical physics, geometry and many other fields.While being widely used in the areas of modern science and technology, GA based analysis is traditionally performed using computer based numerical techniques or symbolic methods.However, both of these techniques cannot guarantee the analysis accuracy for safety-critical applications.The higher order-logic theorem proving is one of the rigorous formal methods.This paper establishes a formal model of GA in the higher-order logic proof tool HOL Light.The proof of the correctness is provided for some definitions and properties including blade, multivector, outer product, inner product, geometric product, inverse, dual, operation rules of basis vector and transform operator.In order to illustrate the practical effectiveness and utilization of this formalization, a conformal geometric model is established to provide a simple and effective way on rigid body motion verification. |
| Key words: geometric algebra formal verification theorem proving HOL-Light geometric product |
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