[{"data":1,"prerenderedAt":-1},["ShallowReactive",2],{"project-9558":3},{"id":4,"name":5,"fullName":6,"owner":7,"repo":5,"description":8,"homepage":9,"htmlUrl":10,"language":11,"languages":10,"totalLinesOfCode":10,"stars":12,"forks":13,"watchers":14,"openIssues":15,"contributorsCount":16,"subscribersCount":16,"size":16,"stars1d":16,"stars7d":16,"stars30d":17,"stars90d":16,"forks30d":16,"starsTrendScore":16,"compositeScore":18,"rankGlobal":10,"rankLanguage":10,"license":10,"archived":19,"fork":19,"defaultBranch":20,"hasWiki":21,"hasPages":19,"topics":22,"createdAt":10,"pushedAt":10,"updatedAt":33,"readmeContent":34,"aiSummary":35,"trendingCount":16,"starSnapshotCount":16,"syncStatus":36,"lastSyncTime":37,"discoverSource":38},9558,"Flutter-AI-Rubik-cube-Solver","brinesoftwares\u002FFlutter-AI-Rubik-cube-Solver","brinesoftwares","Flutter-Python rubiks cube solver.","https:\u002F\u002Fwww.brinesoftsolutions.com\u002F",null,"Dart",856,242,61,4,0,1,48.26,false,"master",true,[23,24,25,26,27,28,29,30,31,32],"ai","android","color-classification","flutter","image-processing","ios-app","ml","python","rubiks-cube","solver","2026-06-12 04:00:45","# AI based Rubik's Cube Solver using Flutter and Python\n\nMobile app for solving 3*3 Rubik's Cube.\n\n## Screenshot\n\n \u003Cp align=\"center\">\n  \u003Cimg src=\"https:\u002F\u002Fgithub.com\u002Fbrinesoftwares\u002FFlutter-AI-Rubik-cube-Solver\u002Fblob\u002Fmaster\u002Fscreenshots\u002Fss2.jpg?raw=true\" width=\"300\" >\n  \u003Cimg src=\"https:\u002F\u002Fgithub.com\u002Fbrinesoftwares\u002FFlutter-AI-Rubik-cube-Solver\u002Fblob\u002Fmaster\u002Fscreenshots\u002Fss1.jpg?raw=true\" width=\"300\" >\n\u003C\u002Fp>\n\n## Python Libraries\n\n  - Flask (https:\u002F\u002Fpypi.org\u002Fproject\u002FFlask\u002F)\n  - Numpy (https:\u002F\u002Fpypi.org\u002Fproject\u002Fnumpy\u002F)\n  - Rubik Solver (https:\u002F\u002Fpypi.org\u002Fproject\u002Frubik-solver\u002F)\n  - Rubiks Cube Tracker (https:\u002F\u002Fgithub.com\u002Fdwalton76\u002Frubiks-cube-tracker)\n  - OpenCV (https:\u002F\u002Fpypi.org\u002Fproject\u002Fopencv-python\u002F)\n \n","这个项目是一个基于Flutter和Python开发的3x3魔方求解器移动应用。它利用图像处理技术识别魔方的颜色分布，并通过AI算法计算出复原步骤。核心技术包括使用OpenCV进行颜色分类与图像处理，以及采用Rubik Solver库来实现魔方求解逻辑。此外，项目还结合了Flask框架搭建后端服务，支持Android和iOS平台。适合对人工智能、机器学习及移动开发感兴趣的研究者或开发者使用，在教育场景下也能作为展示AI应用实例的教学工具。",2,"2026-06-11 03:23:25","top_language"]