共查询到20条相似文献,搜索用时 390 毫秒
1.
对辐射源的三维被动定位是电子支持测量系统(electronic support measure system,ESM)的重要内容,特别是在军事上,是侦察定位、监视监测的重要方面。到达时间差(time difference of arrival,TDOA)、到达角度(angle of arrival,AOA)是被动雷达普遍采用的两种定位方法。本文基于分别安装于不同运动平台上的两个传感器的AOA和TDOA测量,给出了迭代最小二乘(iterative least squares,ILS)融合算法。其中,传感器的位置、速度以及状态等参量由集成GPS/INS系统估计得到,AOA/TDOA测量方程由运动平台的位置、姿态以及传感器的AOA、TDOA测量数据构成。本方法首先将ISL用于对两个传感器的AOA融合,然后将得到的估计结果作为AOA/TDOA的ILS融合的初始值。仿真结果显示采用AOA/TDOA融合算法,使定位精度得到有效提高。 相似文献
2.
为进一步改善精密单点定位(PPP)探测大气可降水量(PWV)的性能,本文提出采用GPS/BDS/GLONASS/Galileo组合PPP进行PWV反演的方法,并利用国内3个MGEX(multi-GNSS experiment)观测站的实测数据,对GPS/BDS/GLONASS/Galileo组合PPP在大气水汽探测方面的性能进行了评估。试验结果表明:相较于GPS PPP、GPS/BDS组合PPP和GPS/GLONASS组合PPP,GPS/BDS/GLONASS/Galileo组合PPP估计天顶对流层延迟(ZTD)的初始化时间分别缩短了33%、26%、20%,且能获得更高精度的ZTD估值和PWV信息,在大气水汽探测方面的性能更优。 相似文献
3.
4.
由于北斗卫星导航系统(BDS)已完成正式组网,有必要对BDS的定位性能进行精度评估与分析. 本文主要通过在MGEX (Multi-GNSS Experiment)选取8个测站5天的观测数据,以北斗二号/北斗三号(BDS-2/BDS-3)为主分析BDS-2/BDS-3、BDS-2/BDS-3/Galileo、BDS-2/BDS-3/GPS、BDS-2/BDS-3/GPS/Galileo四种不同组合卫星系统静态精密单点定位(PPP)性能,试验结果表明:BDS-2/BDS-3静态PPP在东(E)、北(N)、天顶(U)方向上的定位精度和收敛速度分别优于2.49 cm、2.27 cm、4.04 cm和34.6 min、19.3 min、28.1 min;BDS-2/BDS-3/Galileo静态PPP在E、N、U方向上的定位精度和收敛速度分别优于1.81 cm、1.65 cm、2.94 cm和20.4 min、13.0 min、18.6 min;BDS-2/BDS-3/GPS静态PPP在E、N、U方向上的定位精度和收敛速度分别优于1.67 cm、1.62 cm、2.82 cm和18.3 min、10.2 min、16.1 min;BDS-2/BDS-3/GPS/Galileo静态PPP在E、N、U方向上的定位精度和收敛速度分别优于1.46 cm、1.40 cm、2.45 cm和14.5 min、9.3 min、14.5 min. 相似文献
5.
基于GIS/GPS/GPRS的物流车辆监控系统 总被引:7,自引:0,他引:7
论文介绍了目前物流车辆监控系统涉及到的主要技术,地理信息系统(GIS),全球定位系统(GPS)和通用无线分组业务(GPRS)。系统由GPS通讯服务系统、物流子系统、GIS子系统、综合监控系统4个子系统组成。文章对系统的原理和各个子系统的功能进行了详细的描述,并对GPS通讯服务程序的解析过程进行了分析,系统的使用和研究将加速GIS在物流和商业中的应用。 相似文献
6.
《International Journal of Digital Earth》2013,6(10):784-804
Sea surface temperature (SST) retrieved from Advanced Very High Resolution Radiometer (AVHRR) onboard National Oceanic and Atmospheric Administration (NOAA) polar orbiting environmental satellites were validated in the East/Japan Sea (EJS) using surface drifter measurements as ground truths from 2005 to 2010. Overall, the root-mean-square (rms) errors of multichannel SSTs (MCSSTs) and non-linear SSTs (NLSSTs) using global SST coefficients were approximately 0.85°C and 0.80°C, respectively. An analysis of the SST errors (satellite – drifter) revealed a dependence on the amount of atmospheric moisture. In addition, satellite-derived SSTs tended to be related to wind speeds, particularly during the night. The SST errors also demonstrated diurnal variations with relatively higher rms from 0.80°C to 1.00°C during the night than the day, with a small rms of about 0.50°C. Bias also exhibited reasonable diurnal differences, showing small biases during the daytime. Although a satellite zenith angle has been considered in the global SST coefficients, its effect on the SST errors still remained in case of the EJS. Given the diverse use of SST data, the continuous validation and understanding of the characteristic errors of satellite SSTs should be conducted based on extensive in-situ temperature measurements in the global ocean as well as local seas. 相似文献
7.
B. Somers J. Verbesselt E.M. Ampe N. Sims W.W. Verstraeten P. Coppin 《International Journal of Applied Earth Observation and Geoinformation》2010
Defoliation is a key parameter of forest health and is associated with reduced productivity and tree mortality. Assessing the health of forests requires regular observations over large areas. Satellite remote sensing provides a cost-effective alternative to traditional ground-based assessment of forest health, but assessing defoliation can be difficult due to mixed pixels where vegetation cover is low or fragmented. In this study we apply a novel spectral unmixing technique, referred to as weighted Multiple Endmember Spectral Mixture Analysis (wMESMA), to Landsat 5-TM and EO-1 Hyperion data acquired over a Eucalyptus globulus (Labill.) plantation in southern Australia. This technique combines an iterative mixture analysis cycle allowing endmembers to vary on a per pixel basis (MESMA) and a weighting algorithm that prioritizes wavebands based on their robustness against endmember variability. Spectral mixture analysis provides an estimate of the physically interpretable canopy cover, which is not necessarily correlated with defoliation in mixed-aged plantations due to natural variation in canopy cover as stands age. There is considerable variability in the degree of defoliation as well as in stand age among sites and in this study we found that results were significantly improved by the inclusion of an age correction algorithm for both the multi-spectral (R2no age correction = 0.55 vs R2age correction = 0.73 for Landsat) and hyperspectral (R2no age correction = 0.12 vs R2age correction = 0.50 for Hyperion) image data. The improved accuracy obtained from Landsat compared to the Hyperion data illustrates the potential of applying SMA techniques for analysis of multi-spectral datasets such as MODIS and SPOT-VEGETATION. 相似文献
8.
Hung Lee Jinling Wang Chris Rizos Dorota Grejner-Brzezinska Charles Toth 《GPS Solutions》2002,6(1-2):34-46
This paper discusses the introduction of pseudolites (ground-based GPS-like signal transmitters) into existing integrated
GPS/INS systems in order to provide higher availability, integrity, and accuracy in a local area. Even though integrated GPS/INS
systems can overcome inherent drawbacks of each component system (line-of-sight requirement for GPS, and INS errors that grow
with time), performance is nevertheless degraded under adverse operational circumstances. Some typical examples are when the
duration of satellite signal blockage exceeds an INS bridging level, resulting in large accumulated INS errors that cannot
be calibrated by GPS. Such a scenario, unfortunately, is a common occurrence for certain kinematic applications. To address
such shortcomings, both pseudolite/INS and GPS/pseudolite/INS integration schemes are proposed here. Typically, the former
is applicable for indoor positioning where the GPS signal is unavailable for use. The latter would be appropriate for system
augmentation when the number and geometry of visible satellites is not sufficient for accurate positioning or attitude determination.
In this paper, some technical issues concerned with implementing these two integration schemes are described, including the
measurement model, and the appropriate integration filter for INS error estimation and correction through GPS and pseudolite
(PL) carrier phase measurements. In addition, the results from the processing of simulated measurements, as well as field
experiments, are presented in order to characterize the system performance. As a result, it has been established that the
GPS/PL/INS and PL/INS integration schemes would make it possible to ensure centimeter-level positioning accuracy even if the
number of GPS signals is insufficient, or completely unavailable.
Electronic Publication 相似文献
9.
10.
Dead reckoning techniques such as inertial navigation and odometry are integrated with GPS to avoid interruption of navigation
solutions due to lack of visible satellites. A common method to achieve a low-cost navigation solution for land vehicles is
to use a MEMS-based inertial measurement unit (IMU) for integration with GPS. This integration is traditionally accomplished
by means of a Kalman filter (KF). Due to the significant inherent errors of MEMS inertial sensors and their time-varying changes,
which are difficult to model, severe position error growth happens during GPS outages. The positional accuracy provided by
the KF is limited by its linearized models. A Particle filter (PF), being a nonlinear technique, can accommodate for arbitrary
inertial sensor characteristics and motion dynamics. An enhanced version of the PF, called Mixture PF, is employed in this
paper. It samples from both the prior importance density and the observation likelihood, leading to an improved performance.
Furthermore, in order to enhance the performance of MEMS-based IMU/GPS integration during GPS outages, the use of pitch and
roll calculated from the longitudinal and transversal accelerometers together with the odometer data as a measurement update
is proposed in this paper. These updates aid the IMU and limit the positional error growth caused by two horizontal gyroscopes,
which are a major source of error during GPS outages. The performance of the proposed method is examined on road trajectories,
and results are compared to the three different KF-based solutions. The proposed Mixture PF with velocity, pitch, and roll
updates outperformed all the other solutions and exhibited an average improvement of approximately 64% over KF with the same
updates, about 85% over KF with velocity updates only, and around 95% over KF without any updates during GPS outages. 相似文献
11.
由于北斗地球静止轨道(geostationary earth orbiting,GEO)卫星轨道精度较低且其观测值受多路径误差和伪距偏差影响严重,目前各分析中心尚未针对北斗GEO卫星提供长期稳定的相位小数偏差(uncalibrated phase delay,UPD)产品,北斗精密单点定位(precise point positioning,PPP)模糊度固定技术研究主要针对倾斜轨道(inclined geosynchronous orbiting,IGSO)和中地球轨道(medium earth orbiting,MEO)卫星。本文采用Wanninger和Beer的高度角模型消除了IGSO/MEO观测值伪距偏差,并通过小波变换提取低频分量修正伪距观测值的方法削弱了GEO卫星多路径和伪距偏差的影响。由于窄巷UPD估值受未模型化误差影响较大,本文改进了窄巷UPD估计的策略,该策略利用上一历元成功估计的窄巷UPD对当前历元的浮点模糊度进行改正,剔除了残差较大的浮点模糊度,修正固定错误的整周模糊度,从而提高了窄巷UPD的精度和稳定性。利用估计得到的UPD产品,本文实现了联合GEO、IGSO和MEO卫星的北斗非差PPP模糊度固定,并对其定位性能进行分析。结果表明:联合GEO、IGSO和MEO卫星的PPP固定解的首次固定时间和收敛时间均可以缩短到30 min以内;6 h后的E、N、U方向的定位误差由(1.35、0.35、2.75)cm减少到(1.07、0.26、2.24)cm,分别减少了20%、27%和18%。 相似文献
12.
弹道导弹的GNSS/SST/SINS组合导航系统研究 总被引:2,自引:0,他引:2
提出一种组合导航方案,该方案在硬件上采用全捷联的结构,在算法上将捷联星光跟踪仪(strapdown startracker,SST)的姿态信息,高动态GNSS的位置、速度信息与捷联惯导进行组合滤波,全面提高导航精度。设计并实现了弹道导弹GNSS/SST/SINS组合导航系统实时仿真平台,仿真结果表明了该组合方案的稳定、可靠性。 相似文献
13.
多星座组合定位可以提升导航定位性能,但不同星座观测量组合时需要考虑合适的随机模型.传统方法是根据经验直接设定各系统的等价权重,但会导致随机模型确定不精确,从而影响组合系统的性能提升.将Helmert方差分量估计方法应用于GPS/GLONASS/BDS/Galileo组合精密单点定位(PPP)中,以自适应确定各系统间权比.采用国际GNSS服务(IGS)MGEX(Multi-GNSS Experiment)观测网的10个测站一周的观测数据进行静态和仿动态试验.结果表明:采用Helmert方差分量估计定权方法可显著提高GPS/GLONASS/BDS/Galileo组合PPP的收敛速度,与等权定权方案比较,静态模式下平均提高52%,仿动态模式下平均提高64%.因定位精度主要由载波相位观测值精度和误差修正水平决定,在静态和仿动态测试中Helmert方差分量估计方法对定位精度没有明显改善. 相似文献
14.
In order to achieve a precise positioning solution from GPS, the carrier-phase measurements with correctly resolved integer ambiguities must be used. Based on the integration of GPS with pseudolites and Inertial Navigation Systems (INS), this paper proposes an effective procedure for single-frequency carrier-phase integer ambiguity resolution. With the inclusion of pseudolites and INS measurements, the proposed procedure can speed up the ambiguity resolution process and increase the reliability of the resolved ambiguities. In addition, a recently developed ambiguity validation test, and a stochastic modelling scheme (based on-line covariance matrix estimation) are adapted to enhance the quality of ambiguity resolution. The results of simulation studies and field experiments indicate that the proposed procedure indeed improves the performance of single-frequency ambiguity resolution in terms of both reliability and time-to-fix-ambiguity. 相似文献
15.
利用联邦滤波器设计SINS/RDSS/GPS组合导航系统 总被引:3,自引:0,他引:3
介绍了Garlson提出的分布式联邦滤波理论,讨论了两类系统设计类型和四种配置模式的特征。首次提出SINS/RDSS/GPS组合导航的设想,并对各子系统特点进行了探讨和对SINS/RDSS子系统进行了建模,建议在实际开发中采用NR配置模式,该模式属于A类联邦滤波系统。通过算例验证了NR模式融合结果的近似最优性、优良的容错性和故障探测能力。 相似文献
16.
17.
18.
《ISPRS Journal of Photogrammetry and Remote Sensing》1999,54(5-6):332-341
This paper deals with the orientation of three-line imagery which has been taken during the MOMS-02/D2 experiment in spring 1993, and during the MOMS-2P/PRIRODA mission since April 1996. The reconstruction of the image orientation is based on a combined adjustment of the complete image, ground control, orbit and attitude information. The combined adjustment makes use of the orientation point approach or the orbital constraints approach. In the second case, the bundle adjustment algorithm is supplemented by a rigorous dynamical modeling of the spacecraft motion. The results of the combined adjustment using MOMS-02/D2 imagery and control information of orbit #75b are presented. Based on the orientation point approach an empirical height accuracy of up to 4 m (0.3 pixel) is obtained. In planimetry the empirical accuracy is limited to about 10 m (0.7 pixel), since the ground control points (GCP) and check points could not be identified in the imagery with the required accuracy. Computer simulations on MOMS-2P/PRIRODA image orientation based on realistic input information have shown that good accuracies of the estimated exterior orientation parameters and object point coordinates can be obtained either with a single strip and a few precise GCP or even without ground control information, if a block of several overlapping and crossing strips with high geometric strength (q≈60%) is adjusted. 相似文献
19.
《制图学和地理信息科学》2013,40(5):328-331
The Census Bureau is committed to using the Spatial Data Transfer Standard (SDTS) and is developing an extract from the Census TIGER? called the TIGER/SDTS?. A single file of the prototype TIGER/SDTS is now available with which interested data users may experiment. This paper will graphically describe some of the SDTS concepts and census geographic concepts used in the TIGER/SDTS. The Census TIGER? and the TIGER/SDTS? are trademarks of the Bureau of the Census. 相似文献
20.
This paper compares estimates of station coordinates from global GPS solutions obtained by applying different troposphere
models: the Global Mapping Function (GMF) and the Vienna Mapping Function 1 (VMF1) as well as a priori hydrostatic zenith
delays derived from the Global Pressure and Temperature (GPT) model and from the European Centre for Medium-Range Weather
Forecasts (ECMWF) numerical weather model data. The station height differences between terrestrial reference frames computed
with GMF/GPT and with VMF1/ECMWF are in general below 1 mm, and the horizontal differences are even smaller. The differences
of annual amplitudes in the station height can also reach up to 1 mm. Modeling hydrostatic zenith delays with mean (or slowly
varying empirical) pressure values instead of the true pressure values results in a partial compensation of atmospheric loading.
Therefore, station height time series based on the simple GPT model have a better repeatability than those based on more realistic
ECMWF troposphere a priori delays if atmospheric loading corrections are not included. On the other hand, a priori delays
from numerical weather models are essential to reveal the full atmospheric loading signal. 相似文献