摘要
本文针对地下工程的设计、施工和矿山生产的实际需要,提出矿岩稳定性分级分区的概念和智能化方法。将人工智能、神经网络、岩石力学与CAD技术相结合,探讨了分区过程中诸如分区参数的神经网络最优辩识、地质结构面评价、粗略分级分区和详细分级分区的启发式推理方法、具有多内部不规则边界的离散数据点网络自动生成等核心问题,给出了实现分级分区的智能CAD系统。程潮铁矿的实际应用表明,该方法及其智能系统科学、实用。
Based on the requirements of stability evaluation in mine production and excavation design, this paper presents the concept and intelligent method for stability zoning of surrounding rocks of underground openings. The zoning approach is performed on the combination of artificial intelligence, neural net work,rock mechanics and computer technique. Several key problems related to zoning such as optimal discrimination of zoning parameters using neural net work, heuristic inference on discontinuity Property app...
出处
《有色金属》
CSCD
1993年第4期7-12,共6页
Nonferrous Metals
关键词
矿岩稳定性
分区
神经网络
人工智能
智能CAD
自学习
非线性动态处理
自适应识别
surrounding rock stability
zoning
neural network
artificial intelligence
intelligent CAD
self-learning
nonlinear dynamic processing
adaptive recognition
