{"skill":{"slug":"or-modeling","displayName":"Operations Research Modeling","summary":"运筹优化数学建模辅助工具。当用户需要将实际问题转化为数学优化模型时使用，包括：(1) 输入运筹优化问题并要求建立数学模型；(2) 需要将文字描述转化为目标函数和约束条件；(3) 要求对问题进行数学公式化表述；(4) 需要验证或完善优化问题的数学模型；(5) 搜索相关学术论文了解研究现状。支持的场景：线性规划、整数...","tags":{"latest":"1.0.0"},"stats":{"comments":0,"downloads":133,"installsAllTime":0,"installsCurrent":0,"stars":0,"versions":1},"createdAt":1774169712987,"updatedAt":1774170415318},"latestVersion":{"version":"1.0.0","createdAt":1774169712987,"changelog":"- Initial release of or-modeling, an assistant tool for translating real-world operations research problems into mathematical optimization models.\n- Supports model building for scenarios such as linear/integer/mixed programming, non-linear programming, dynamic programming, combinatorial optimization (TSP/VRP), network flows, site location, queuing theory, inventory and supply chain optimization, stochastic programming, scheduling, game theory, mechanism design, and more.\n- Provides a step-by-step workflow: problem understanding (6-dimension analysis), literature review, assumption validation, model formulation, self-check, and LaTeX output with separate explanations.\n- Features quick confirmation mode for users with clear problem descriptions.\n- Includes guidance for literature search, complexity estimation, recommended constraints by problem type, and common constraints module reference.\n- Output templates for professional reporting, including self-diagnosis checklist and LaTeX-formatted models for easy academic or practical use.","license":"MIT-0"},"metadata":null,"owner":{"handle":"go-own-way","userId":"s170n76av9qb02jw19jxegsy0183gcxm","displayName":"Go-own-way","image":"https://avatars.githubusercontent.com/u/105290386?v=4"},"moderation":null}