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| 內容簡介: |
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本书分为基础篇、航空篇、航天篇,共9 章。本书本书侧重于讲述多种导航信源的相互融合,取长补短,实现多源融合下的航空航天飞行器稳定、高精度导航。书中着重介绍了不同导航信源的发展及现状、基本原理、工作特性与优缺点等;不同的多源融合导航算法及其基本原理;基于数学方法的无人机集群协同导航算法;地磁导航技术及其与传统惯性导航系统的融合算法,并通过实例及仿真验证,对比各种算法、模型及系统的优劣,具有较强的实用性。
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| 關於作者: |
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王小旭,1982年生,工学博士,教授/博士生导师,西北工业大学自动化学院副院长,主要从事新型惯性器件设计、惯导系统集成与测试、SAR图像处理、物体三维感知、雷达目标跟踪与信息融合等研究。连续主持国家自然基金面上项目2项、青年项目1项,入选西北工业大学”翱翔新星”人才项目;以第一/二作者 出版专著2部;发表论文50余篇,其中在控制领域公认顶级期刊IEEE TAC与Automatica发表/录用论文9篇(长文2篇),中科院认定的TOP期刊论文15 篇;获陕西省高等学校科学技术一等奖(排名第1),陕西省科学技术二等奖(排名第5)。2016-2017年在英国曼彻斯特大学开展访问学者研究,与合作导师合作发表多篇高水平论文,多次担任国际会议程序委员会委员以及专题研讨会、分会场等主席;担任中国自动化学会教育工作委员会”全国高校自动化方向培养方案构建工作组”组长、陕西省自动化学会控制理论与应用专委会主任委员等。
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| 目錄:
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第1 部分 基础篇
第1 章 绪论················································································.2
1.1 导航对象概述···································································.2
1.2 多源融合导航概述·····························································.4
1.3 多源融合导航基本理论·······················································.7
1.3.1 贝叶斯递归滤波·······················································.7
1.3.2 高斯滤波································································10
1.3.3 线性卡尔曼滤波·······················································12
1.3.4 非线性卡尔曼滤波····················································17
1.3.5 非线性滤波的发展····················································21
参考文献···············································································22
第2 章 导航信源··········································································27
2.1 惯性导航系统···································································27
2.1.1 惯性导航技术的发展及现状·········································27
2.1.2 惯性导航系统的基本原理···········································29
2.1.3 两种惯性导航系统对比··············································37
2.2 卫星导航系统···································································39
2.2.1 卫星导航技术的发展及现状·········································39
2.2.2 卫星导航系统的定位原理···········································40
2.2.3 卫星导航系统的定位特点···········································42
2.2.4 北斗卫星导航系统····················································42
2.3 天文导航系统···································································45
2.3.1 天文导航技术的发展及现状·········································45
2.3.2 星敏感器的结构及其工作原理······································47
2.3.3 天文导航系统的基本原理···········································49
2.3.4 天文导航系统的特点·················································50
2.4 地磁导航系统···································································51
2.4.1 地磁导航技术的发展及现状·········································51
2.4.2 地磁导航系统的基本原理···········································54
2.4.3 地磁导航系统的特点·················································58
2.5 多普勒导航系统································································59
2.5.1 多普勒导航技术的发展及现状······································59
2.5.2 多普勒导航系统的基本原理·········································60
2.5.3 多普勒导航系统的特点··············································63
2.6 重力导航系统···································································64
2.6.1 重力导航技术的发展及现状·········································64
2.6.2 重力导航系统的基本原理···········································66
2.7 仿生导航系统···································································69
2.7.1 仿生导航技术的发展及现状·········································69
2.7.2 仿生偏振光导航系统的基本原理···································71
参考文献···············································································74
第3 章 多源融合导航算法框架························································81
3.1 卡尔曼滤波融合导航··························································81
3.1.1 集中式序贯卡尔曼滤波融合导航···································81
3.1.2 分布式联邦卡尔曼滤波融合导航···································84
3.2 因子图融合导航································································89
3.2.1 因子图理论·····························································89
3.2.2 基于因子图的导航系统建模·········································94
3.2.3 多源信息融合因子图算法···········································96
3.2.4 自适应因子图融合导航··············································98
3.3 交互多模型融合导航·······················································.100
3.3.1 交互多模型的原理·················································.100
3.3.2 基于交互多模型的多源融合导航算法··························.102
参考文献············································································.104
第2 部分 航空篇
第4 章 无人机及其集群······························································.107
4.1 无人机发展概述·····························································.107
4.1.1 军用无人机··························································.107
4.1.2 工业级无人机·······················································.109
4.1.3 消费级无人机·······················································.110
4.2 无人机多源融合导航概述··················
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