【摘 要】
:
Simultaneous Localization and Mapping(SLAM)technology can make the robot in the unknown area positioning and building the map.Aiming at the problem of the i
论文部分内容阅读
Simultaneous Localization and Mapping(SLAM)technology can make the robot in the unknown area positioning and building the map.Aiming at the problem of the indoor positioning in a small area,SLAM algorithm based on monocular camera was used.Feature based method was introduced to estimate the position of the robot and build the local map,and then BA(Bundle Adjustment)and graph optimization was used to optimize in the back-end.In order to solve the problem of scale drift in positioning,the bag-of-words(BoW)model and loop closing were used to reduce the system error,and an overall map was constructed at last.The experiment results show that the proposed algorithm can construct a sparse map in a small indoor scene,and the positioning error in the x direction reaches 0.0534m,which meets the accuracy requirements and effectively reduces the scale drift.
其他文献
随着北斗导航系统的逐步完善以及导航定位服务对定位精度需求的不断提高,而北斗卫星导航由于卫星轨道误差等固有误差的影响,定位精度已经达到瓶颈。本文根据北斗导航系统的
近年来,一类间歇性连通的卫星网络应运而生.其网络性能受到路由算法的显著影响.本文提出一种适用于间歇性连通卫星网络的转移与绕行路由算法.当某颗卫星即将发生拥塞时,其
卫星导航技术已日渐成熟,随着科学技术的发展与人民生活水平日益的提高,人们对导航和定位的精度也有了更高的要求.因此,国内外涌现了很多新的辅助导航定位算法,导航定位技术
基于单向测量的地基航系统,由于接收机钟差的存在以及地面布站几何分布的局限性,其仅能在有限的覆盖范围内实现高精度导航定位,而基于双向测量的地面导航系统,由于需通过双向
针对靶场试验中只有单站光学测角数据无法定位的不完全测量情况,讨论了如何结合GPS高程信息,得到目标的位置和速度参数。建立了测元跟踪部位修正模型、测量信息模型、弹道
随着全球导航卫星系统广泛应用,用户对接收机性能的需求不断提升,要求GNSS接收机在恶劣环境下具有实时高精度定位的性能,为了满足实时性、高精度的要求,提出了一种基于压缩感
EKF在非线性系统中是一种常用的滤波方法.UKF是一种新的非线性滤波算法,其以UT变换为基础,摒弃了对非线性函数进行线性化的传统做法,用一系列确定样本来逼近状态的后验概
X-Ray pulsar navigation is a new technology for astronavigation.It's an effective supplement to the satellite navigation which is widely used at present.It
针对自主完好性监测外推法(AIME)在检测组合导航缓变故障中存在较大延时且不能准确判定故障结束时刻等问题,提出了一种改进型AIME-RCTM的联合故障检测算法:通过最小二乘支
针对复杂环境中GNSS信号被遮挡出现的卫星信号失锁和INS测量误差积累的问题。已经提出的深组合GNSS/INS可以改善较差GNSS信号环境中的定位精度,但GNSS信号在长时间内不可