PTH | GitHub 红队武器库🚨​📦 GitHub 全球红队渗透资源中转站。​旨在收录那些“好用却难找”的安全项目。🔗 定时推送:GitHub Trending (Security)🛠 必备清单:后渗透、远控、免杀、提权工具集📅 更新频率:每日精选,绝不灌水。​⚠️ 本频道仅供安全研究与授权测试使用。https://broadcastchannel-1x5.pages.dev🚨 GitHub 监控消息提醒🚨 发现关键词: #横向 #PTH📦 项目名称: Framework-for-Drill-Bit-Dynamics-Parameter-Identification-and-Cumulative-Work-Resolution👤 项目作者: edwardaud🛠 开发语言: Python⭐ Star数量: 0 | 🍴 Fork数量: 0📅 更新时间: 2026-04-13 14:23:50📝 项目描述:面向宏观录井参数与随钻高频振动极值的钻头力学参数辨识框架https://broadcastchannel-1x5.pages.dev/posts/80133https://broadcastchannel-1x5.pages.dev/posts/80133Mon, 13 Apr 2026 15:00:58 GMT<i><b>🚨</b></i> GitHub 监控消息提醒<br /><br /><i><b>🚨</b></i> <b>发现关键词:</b> <a href="/search/%23%E6%A8%AA%E5%90%91">#横向</a> <a href="/search/%23PTH">#PTH</a><br /><br /><i><b>📦</b></i> <b>项目名称:</b> <a href="https://github.com/edwardaud/Framework-for-Drill-Bit-Dynamics-Parameter-Identification-and-Cumulative-Work-Resolution" target="_blank">Framework-for-Drill-Bit-Dynamics-Parameter-Identification-and-Cumulative-Work-Resolution</a><br /><i><b>👤</b></i> <b>项目作者:</b> <a href="https://github.com/edwardaud" target="_blank">edwardaud</a><br /><i><b>🛠</b></i> <b>开发语言:</b> Python<br /><i><b>⭐</b></i> <b>Star数量:</b> 0 | <i><b>🍴</b></i> <b>Fork数量:</b> 0<br /><i><b>📅</b></i> <b>更新时间:</b> 2026-04-13 14:23:50<br /><br /><i><b>📝</b></i> <b>项目描述:</b><br /><code>面向宏观录井参数与随钻高频振动极值的钻头力学参数辨识框架。结合 Detournay 切削理论与动态接触模型,通过数值仿真还原井底高频振动过程。采用差分进化算法反演轴向/扭转阻尼与摩擦衰减系数,量化并扣除由粘滑、跳钻及横向涡动引发的额外能量损耗,获取钻头真实的摩擦力与切削效率,最终经全井段积分计算输出累积做功剖面。</code><br /><br /><i><b>🔗</b></i> <a href="https://github.com/edwardaud/Framework-for-Drill-Bit-Dynamics-Parameter-Identification-and-Cumulative-Work-Resolution" target="_blank">点击访问项目地址</a><a href="https://github.com/edwardaud/Framework-for-Drill-Bit-Dynamics-Parameter-Identification-and-Cumulative-Work-Resolution" target="_blank"> <div>GitHub</div> <img class="link_preview_image" alt="GitHub - edwardaud/Framework-for-Drill-Bit-Dynamics-Parameter-Identification-and-Cumulative-Work-Resolution: 面向宏观录井参数与随钻高频振动极值的钻头力学参数辨识框架。结合…" src="/static/https://cdn4.telesco.pe/file/ofC9YEyC1H-ko8SB9oFXwzAxEp2IzUrHLVCnnx3k5U_FMKsok4G3CAuhANKf_bBS9CyMdFSHapTkcmjPtiDm18voEKvYFWHTEdjMPJRKGVxMa2H5lr364GHeKKromW1nM-pD_JArCmSMc3H_PjWeDP-WEb37yoiQ6q16hwbk-f8vX9Z1G0r7ItBUCVpC0YAdZf1tRlbDTjiGyTddScdu2PEhUWD1LyqKzEDgF1I94c5LSNj4oMyrDREVaRCQqbQ9RoH2ryDtArjQF4jOneCA_Su5cdgW9QNxjKxqqOwUOKkei8q8xpO7lJfLf0u5xV789bcU4u2Mj9uyDQ5L993OHA.jpg" loading="lazy" /> <div>GitHub - edwardaud/Framework-for-Drill-Bit-Dynamics-Parameter-Identification-and-Cumulative-Work-Resolution: 面向宏观录井参数与随钻高频振动极值的钻头力学参数辨识框架。结合…</div> <div>面向宏观录井参数与随钻高频振动极值的钻头力学参数辨识框架。结合 Detournay 切削理论与动态接触模型,通过数值仿真还原井底高频振动过程。采用差分进化算法反演轴向/扭转阻尼与摩擦衰减系数,量化并扣除由粘滑、跳钻及横向涡动引发的额外能量损耗,获取钻头真实的摩擦力与切削效率,最终经全井段积分计算输出累积做功剖面。 - edwardaud/Framework-for-Drill-Bit-Dyn...</div> </a>