[1]张云雷[][],张珂殊[],邵永社[],等. 基于双频测尺的大尺寸空间激光测距方法研究[J].计算机技术与发展,2015,25(03):45-49.
 ZHANG Yun-lei[] [],ZHANG Ke-shu[] SHAO Yong-she[] LI Meng-lin[]. Research on Phase-difference Measuring Methods in Laser Range Based on Two Measurement Rulersat Large Scale Space[J].,2015,25(03):45-49.
点击复制

 基于双频测尺的大尺寸空间激光测距方法研究()
分享到:

《计算机技术与发展》[ISSN:1006-6977/CN:61-1281/TN]

卷:
25
期数:
2015年03期
页码:
45-49
栏目:
智能、算法、系统工程
出版日期:
2015-03-10

文章信息/Info

Title:
 Research on Phase-difference Measuring Methods in Laser Range Based on Two Measurement Rulersat Large Scale Space
文章编号:
1673-629X(2015)03-0045-05
作者:
 张云雷[1][2] 张珂殊[1] 邵永社[1] 李孟麟[1]
1. 中国科学院 光电研究院;2.中国科学院大学
Author(s):
 ZHANG Yun-lei[1] [2]ZHANG Ke-shu[1] SHAO Yong-she[1] LI Meng-lin[1]
关键词:
 激光测距相位差全相位FFT 可编程逻辑器件
Keywords:
 laser range finder phase difference all-phase FFT FPGA
分类号:
TP39
文献标志码:
A
摘要:
 相位式激光测距采用连续波测相,为实现高精度鉴相,单频测尺的调制频率相应地提高,导致测距系统的空间尺度变小。为实现大尺寸空间的激光测距,文中在FPGA上设计实现双频测尺的鉴相系统,两测尺均采用全相位频域数字鉴相法。鉴相系统在不同信噪比的信号下的实验表明,通过控制两测尺之间的频差,有效降低了测尺间干扰;低频测尺测距范围75 m,高频测尺测距精度可达0.4 mm,系统整体鉴相精度0.08毅,测量速度每秒50万次,满足了大尺度空间中相位式激光测距的应用需求。
Abstract:
 Continuous wave phase measurement was applied in phase difference laser range finder. In order to achieve high accuracy,the relevant modulation frequency is high,so that this single measurement ruler had a small measuring range. In order to implemented laser range finder at the large scale space measurement,the FPGA implementation scheme of two measurement rulers was designed to determine the phase-difference based on all-phase spectrum analysis. Experiments on phase system under signal with different signal-to-noise ratio show that the interference between two measurement rulers was negligible when the difference of the two frequencies was suitable. The measurement range of 75 meters was achieved by the low frequency ruler,the accuracy of all-phase Fast Fourier Transform ( FFT) can reach 0. 08. (i. e. ,0. 4 mm at a modulation frequency of 80 MHz) by the high frequency ruler. The measurement frequency of the sys-tem was 500 kHz. The performance of the system meets the requirements of new applications in the phase difference laser range finder.

相似文献/References:

[1]任远,王竹萍,宋子奇,等.应用于激光测距系统的高增益集成运放设计[J].计算机技术与发展,2013,(11):14.
 REN Yuan[],WANG Zhu-ping[],SONG Zi-qi[],et al.Design of High-gain Integrated OP for Laser Rangefinder System[J].,2013,(03):14.
[2]张志宏,吴庆波,邵立松,等.基于飞腾平台TOE协议栈的设计与实现[J].计算机技术与发展,2014,24(07):1.
 ZHANG Zhi-hong,WU Qing-bo,SHAO Li-song,et al. Design and Implementation of TCP/IP Offload Engine Protocol Stack Based on FT Platform[J].,2014,24(03):1.
[3]梁文快,李毅. 改进的基因表达算法对航班优化排序问题研究[J].计算机技术与发展,2014,24(07):5.
 LIANG Wen-kuai,LI Yi. Research on Optimization of Flight Scheduling Problem Based on Improved Gene Expression Algorithm[J].,2014,24(03):5.
[4]黄静,王枫,谢志新,等. EAST文档管理系统的设计与实现[J].计算机技术与发展,2014,24(07):13.
 HUANG Jing,WANG Feng,XIE Zhi-xin,et al. Design and Implementation of EAST Document Management System[J].,2014,24(03):13.
[5]侯善江[],张代远[][][]. 基于样条权函数神经网络P2P流量识别方法[J].计算机技术与发展,2014,24(07):21.
 HOU Shan-jiang[],ZHANG Dai-yuan[][][]. P2P Traffic Identification Based on Spline Weight Function Neural Network[J].,2014,24(03):21.
[6]李璨,耿国华,李康,等. 一种基于三维模型的文物碎片线图生成方法[J].计算机技术与发展,2014,24(07):25.
 LI Can,GENG Guo-hua,LI Kang,et al. A Method of Obtaining Cultural Debris’ s Line Chart Based on Three-dimensional Model[J].,2014,24(03):25.
[7]翁鹤,皮德常. 混沌RBF神经网络异常检测算法[J].计算机技术与发展,2014,24(07):29.
 WENG He,PI De-chang. Chaotic RBF Neural Network Anomaly Detection Algorithm[J].,2014,24(03):29.
[8]刘茜[],荆晓远[],李文倩[],等. 基于流形学习的正交稀疏保留投影[J].计算机技术与发展,2014,24(07):34.
 LIU Qian[],JING Xiao-yuan[,LI Wen-qian[],et al. Orthogonal Sparsity Preserving Projections Based on Manifold Learning[J].,2014,24(03):34.
[9]尚福华,李想,巩淼. 基于模糊框架-产生式知识表示及推理研究[J].计算机技术与发展,2014,24(07):38.
 SHANG Fu-hua,LI Xiang,GONG Miao. Research on Knowledge Representation and Inference Based on Fuzzy Framework-production[J].,2014,24(03):38.
[10]叶偲,李良福,肖樟树. 一种去除运动目标重影的图像镶嵌方法研究[J].计算机技术与发展,2014,24(07):43.
 YE Si,LI Liang-fu,XIAO Zhang-shu. Research of an Image Mosaic Method for Removing Ghost of Moving Targets[J].,2014,24(03):43.
[11]张云雷[][],张珂殊[],邵永社[],等. 基于FPGA的时间数字转换电路设计与测试[J].计算机技术与发展,2014,24(08):175.
 ZHANG Yun-lei[][],ZHANG Ke-shu[],SHAO Yong-she[],et al. Design and Testing of Time-to-digital Convertor Based on FPGA[J].,2014,24(03):175.

更新日期/Last Update: 2015-04-30