首页> 美国政府科技报告 >Two-Hydrophone Heading and Range Sensor Applied to Formation-Flying for AUVs

【24h】

Two-Hydrophone Heading and Range Sensor Applied to Formation-Flying for AUVs

机译：双水听器航向和距离传感器应用于aUV的编队飞行

获取原文

页面导航

摘要
著录项
相似文献
相关主题

摘要

One form of cooperative behavior for a group of AUVs is to fly in formation while performing tasks. A necessary component for formation-flying is that the vehicles must sense their relative positions. Assuming that each vehicle is capable of sensing its inertial position using an acoustic long-baseline ranging system, the relative vehicle position can be determined by exchanging this data. The penalty for this approach is that exchanging inertial position data consumes communications bandwidth. Alternately, relative position may be obtained by intercepting acoustic ranging signals used to determine inertial position, obviating the need for exchange of position data. We explore the use of a two-hydrophone sensor to measure relative heading of two vehicles in a formation. It is assumed that a broad-band navigation signal emanating from one vehicle is intercepted by another vehicle containing the sensor. Relative heading is extracted from the time delay between the two hydrophones. Cross-correlation is used to determine time delay. A model is proposed that predicts stochastic precision and bias for the sensor. For a fixed ranging waveform, precision and bias are dependent upon signal-to-noise ratio, relative range and relative heading. This dependence means that the sensor will be most useful for certain combinations of range and heading. Measurements were performed to determine the precision of the two-hydrophone arrangement as a relative heading sensor. Simulations were used to explore the performance of formation-flying controllers that employ the two-hydrophone sensor. The controller used a saturating linear output feedback control law to simultaneously follow inertial waypoints and maintained formation. The simulations showed that this controller would be able to use relative heading provided by the two-hydrophone sensor to maintain formations in which the vehicles are approximately abreast.

著录项

作者
Reeder, C. A. ; Odell, D. L. ; Okamoto, A. ; Anderson, M. J. ; Edwards, D. B.;
展开▼
作者单位

展开▼
年度 2004
页码 1-8
总页数 8
原文格式 PDF
正文语种 eng
中图分类工业技术;
关键词
Underwater vehicles; Hydrophones; Formation flight; Acoustic signals; Acoustic ranges; Simulatioins;

机译：水下航行器;水听器;编队飞行;声学信号;声学范围;模拟;

相似文献

外文文献
中文文献
专利

1. SIMULTANEOUS COOPERATIVE LOCALIZATION FOR AUVs USING RANGE-ONLY SENSORS [J] . ALI JABAR RASHIDI, SAEED MOHAMMADLOO International Journal of Information Acquisition . 2011,第2期

机译：使用纯范围传感器的AUV的同步协作定位
2. Long Range AUV: Der effiziente Sensor für Unterwasseraufklärung [J] . Bernd-Peter Rahner Wehrtechnischer report . 2016,第4期

机译：远程AUV：用于水下侦察的高效传感器
3. SPR Sensor Platform Based on a Novel Metal Bilayer Applied on D–Shaped Plastic Optical Fibers for Refractive Index Measurements in the Range 1.38–1.42 [J] . Nunzio Cennamo, Paola Zuppella, Davide Bacco, IEEE sensors journal . 2016,第12期

机译：基于新型金属双层的SPR传感器平台，应用于D形塑料光纤，可在1.38–1.42范围内进行折射率测量
4. PERFORMANCE OF A TWO-HYDROPHONE HEADING SENSOR AND AUVFORMATION FLYING CONTROLLER [C] . Bradley N. Baker, Michael J. Anderson, Thomas A. Bean, Proceedings of the 14th international symposium on unmanned untethered submersible technology (UUST05) . 2005

机译：双水位航向传感器和自动化飞行控制器的性能
5. Terrain relative navigation using bathymetric slope profile with a Rao-Blackwellized particle filter for long range AUVs. [D] . Kollanda, Richard C., II. 2012

机译：使用测深坡度剖面和Rao-Blackwellized粒子过滤器进行地形相对导航，用于远程AUV。
6. Longest-Range UHF RFID Sensor Tag Antenna for IoT Applied for Metal and Non-Metal Objects [O] . Franck Kimetya Byondi, Youchung Chung 2019

机译：用于物联网的最长范围的UHF RFID传感器标签天线适用于金属和非金属物体
7. 1On Line Compensation of Heading Sensor Bias for Low Cost AUVs [O] . A. J. Healey, E. P. An, D. B. Marco 2015

机译：1对低成本aUV航向传感器偏差的线路补偿

Two-Hydrophone Heading and Range Sensor Applied to Formation-Flying for AUVs

摘要

著录项

相似文献

相关主题

期刊订阅