12 lines
3.0 KiB
Plaintext
12 lines
3.0 KiB
Plaintext
{
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"nodes":[
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{"id":"8359617e1edc48ba","type":"text","text":"状态指标:\n推进OKR的时候也要关注这些事情,它们是完成OKR的保障。\n\n\n效率状态 green","x":-76,"y":-306,"width":456,"height":347},
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{"id":"a4eaccbbfadaaf17","type":"text","text":"# 目标:多体动力学模块完善\n### 每周盘点一下它们\n\n\n关键结果:建模原理、建模方法掌握 (9.2/10)\n\n关键结果:风机多体动力学文献调研情况完成 (5.5/10)\n关键结果:风机模型线性化原理、方法掌握 (7/10)","x":-76,"y":-693,"width":456,"height":347},
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{"id":"d2c5e076ba6cf7d7","type":"text","text":"# 推进计划\n未来四周计划推进的重要事情\n\n文献调研启动\n\n建模重新推导\n\n\n","x":-600,"y":-306,"width":456,"height":347},
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{"id":"82708a439812fdc7","type":"text","text":"# 7月已完成\n\nP1 工况点稳态变形量求解,F=kx\n- 文献调研,初步确定思路 done\n- 推导方程 done\n- 编写组建增广矩阵,求解广义坐标代码 done","x":-220,"y":134,"width":440,"height":560},
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{"id":"505acb3e6b119076","type":"text","text":"# 6月已完成\n\n\nP1 结果对比\n- Herowind 带3.5气动与fast3.5对比 相同\n- Herowind 带4.0气动与fast4.0对比 相同\n- Herowind 带hrl气动与fast对比 需气动支持15MW\n- 叶根坐标系转换 \n\t- 叶尖变形量 - 变形向量 dot product 叶根坐标系方向\n\t- 叶片载荷输入量呢 载荷传递在blade mesh.force moment,mesh.orientation = coord_sys.n\n\nP1 Bladed交流问题汇总\n\nP1 模型线性化原理 done\n- Bladed 线性化理论手册 仔细阅读\n- multibody blade transform\n- fast线性化理论\n- 梳理Bladed线性化方法框架\n\n\nP1 编写线性化理论手册 done\nP1 上手Bladed \\ fast 线性化功能,研究OpenFAST线性化实现原理 done","x":-700,"y":134,"width":440,"height":560},
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{"id":"30cb7486dc4e224c","type":"text","text":"# 8月已完成\n\n","x":260,"y":134,"width":440,"height":560},
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{"id":"c18d25521d773705","type":"text","text":"# 计划\n这周要做的3~5件重要的事情,这些事情能有效推进实现OKR。\n\nP1 必须做。P2 应该做\n\n\nP1 柔性部件 叶片、塔架主动力惯性力算法 主线\n- 变形体动力学 简略看看ing\n- 柔性梁弯曲变形振动学习,主线 \n\t- 广义质量 刚度矩阵及含义\n- 如何静力学求解 \n\t- 基于本构方程 读孟的论文\n\t- normal mode shape 能否使用?\n\t\n- 梳理bladed动力学框架 this week\n\t- 子结构文献阅读\n\t- 叶片模型建模 done\n\nP1 工况点稳态变形量求解,F=kx\n- 测试广义坐标到叶片变形量功能\n- 连接气动测试,存在一个问题,气动是否要用稳态模型\n- 迭代,有限差分?用虚拟时间步来迭代了\nP1 数值扰动+回归的线性化方法原理探究\n\nP1 职称评审系统填写,材料梳理上传 盖章\n\nP2 如何优雅的存储、输出结果。\nP2 yaw 自由度再bug确认 已知原理了\n","x":-597,"y":-693,"width":450,"height":347}
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