基于CCD的垂线坐标仪的设计

针对矿井井壁变形引起的径向位移测量问题,提出了一种基于CCD的垂线坐标仪的设计方案,给出了垂线坐标仪的结构及其在井壁变形监测系统中的布置,详细介绍了垂线坐标仪的软、硬件设计。该垂线坐标仪利用CCD采集光信号并将其转换为视频信号,采用LPC932对采集的视频信号进行二值化处理及计数,并将处理结果发送至地面计算机进行分析,从而得到矿井井壁变形引起的径向位移量。测试结果验证了该垂线坐标仪的稳定性和精确性。     

Prediction of landslide displacement with controlling factors using extreme learning adaptive neuro-fuzzy inference system (ELANFIS)

Landslide is a major geo-environmental hazard which imparts serious threat to lives and properties. The slope failures are due to adverse inherent geological conditions triggered by an external factor. This paper proposes a new method for the prediction of displacement of step-like landslides, by accounting the controlling factors, using recently proposed extreme learning adaptive neuro-fuzzy inference system (ELANFIS) with empirical mode decomposition (EMD) technique. ELANFIS reduces the computational complexity of conventional ANFIS by incorporating the theoretical idea of extreme learning machines (ELM). The rainfall data and reservoir level elevation data are also integrated into the study. The nonlinear original landslide displacement series, rainfall data, and reservoir level elevation data are first converted into a limited number of intrinsic mode functions (IMF) and one residue. Then decomposed displacement data are predicted by using appropriate ELANFIS model. Final prediction is obtained by the summation of outputs of all ELANFIS sub models. The performance of proposed the technique is tested for the prediction Baishuihe and Shiliushubao landslides. The results show that ELANFIS with EMD model outperforms other methods in terms of generalization performance.     

Fe-Ga磁致伸缩位移传感器驱动电流位置调整与回波速度校正

通过对传统Fe￣Ga磁致伸缩位移传感器驱动脉冲电流输入端位置的改进,降低了驱动脉冲电流噪声对检测线圈输出电压的影响,并使检测线圈输出电压信噪比由15.5 dB提高至23.7 dB。基于应力波无阻尼反射原理提出一种新的回波速度校正法,确立了回波速度与波导丝长度、应力波传播时间、反射波传播时间的数学关系,并给出此表达式适用的驱动脉冲电流频率范围。制作了样机,通过实验验证了此方法最大位移测量误差减小到原来的1/5,为Fe￣Ga磁致伸缩位移传感器输出性能研究提供了理论依据。     

一种基于电磁感应原理的角位移参数测量方法

针对目前常规弹药弹体研究领域角位移参数大动态和高精度的测量需求,提出了一种基于电磁感应原理的角位移参数测量方法,并设计了相应的角位移传感器.采用感应线圈获取弹体大转速动态范围内切割地磁场的信息,通过边沿检测和脉冲计数相结合的自适应闭环频率跟踪测量算法测量弹体旋转过程中的实时角位移参数信息,并采用周期清零的方式,消除累积误差.半实物和实物仿真试验结果表明:该角位移传感器不仅能够测量大动态范围内的角位移,拓宽测量范围从600°/s~36000°/s,而且完全消除了测量过程中的累积误差.测量误差小于0.220%,累加误差最大只有0.2°/s,实现了对弹药弹体角位移参数的实时、高精度测量,在姿态测量和地磁导航等应用领域具有一定的工程应用价值.     

平行梁式电容传感器极板耦合角位移计算和分析

为了解决平行梁式电容称重传感器极板耦合角位移带来的输出电容值与输入载荷之间的非线性问题,运用力法对平行梁式弹性体超静定结构进行了计算分析,得出了与上下极板夹角关联的主要结构参数,通过内力对极板角度进行了解析,并在有限元软件中验证了计算的正确性。此结果为平行梁通过结构参数设计优化耦合角位移提供了理论方法,并根据非平行板电容计算公式,构建了更加精确的载荷与电容的数学模型,为传感器输出输入特性曲线的拟合提供了依据。     

空心互感式位移传感器

本文介绍一种空心互感式位移传感器,其工作原理是采用开关方式,以恒流源双向向空心互感的原边线圈充放电,采样副边线圈在稳定放电期间的窄脉冲高度来测量位移量,量程可达20mm,相对精度为2%。论述了互感值的测量,分别设计了轴向和径向两个位移的试验及捕获采样数据的电路,从数据分析证明该方法可以测量位移,减少了空心线圈中的干扰对测量的影响,轴向位移还可以直接测量电介质材料的厚度。     

光针式位移传感器聚焦伺服控制系统的设计

通过对光针式位移传感器的执行机构即音圈电机的静动成特怀的分析和测试,在伺服控制系统因路中引入ＰＩＤ校正器,使聚焦伺服系统的稳定性、快速性和准确性等性能都达到良好的应用要求。     

一种智能光纤位移传感器

介绍一种用神经网络实现无级查表功能的光纤位移传感器。其非线性误差小于0．3％FS。具体介绍了硬件原理和使用神经网络的方法。     

Elastic wave emission from damage processes

The theory of elastic wave emission (i.e., acoustic emission; AE) from damage processes such as slip and microcracking is discussed. Analogous developments in the literature on earth-quake seismology and dynamic dislocation theory are noted and utilized. A general representation of the displacement field of an AE event is given in terms of the double-couple response to a distribution of moment density tensor in the source region. Results are specialized to a point source model and to a general far-field analysis of outgoing elastic waves, and conditions for validity of such representations and their low-frequency specializations are noted. Emitted wave fields are compared for tensile opening and slip events, and procedures which might enable the approximate determination of the size or area increase of tensile microcracks are discussed.     

光纤布拉格光栅串式多点位移计

基于不锈钢测杆连接悬臂梁结构的光纤布拉格光栅位移传感器,通过首尾连接形成光纤布拉格位移传感链路串。本设计利用安装在法兰盘下方的弹簧消除相邻各位移计的影响,同时在悬臂梁敏感位置上下两侧粘贴光栅消除温度对位移的影响,得到光栅波长与各段传感器实际位移的对应关系。通过现场对比测试,可实现在小口径的测量孔中安装位移传感链路串,提高围岩位移监测分辨率。