Abstract
The wind as a natural phenomenon would cause the derivation of the pesticide drops during the operation of agricultural unmanned aerial vehicles (UAV). In particular, the changeable wind makes it difficult for the precision agriculture. For accurate spraying of pesticide, it is necessary to estimate the real-time wind parameters to provide the correction reference for the UAV path. Most estimation algorithms are model based, and as such, serious errors can arise when the models fail to properly fit the physical wind motions. To address this problem, a robust estimation model is proposed in this paper. Considering the diversity of the wind, three elemental time-related Markov models with carefully designed parameter α are adopted in the interacting multiple model (IMM) algorithm, to accomplish the estimation of the wind parameters. Furthermore, the estimation accuracy is dependent as well on the filtering technique. In that regard, the sparse grid quadrature Kalman filter (SGQKF) is employed to comprise the computation load and high filtering accuracy. Finally, the proposed algorithm is ran using simulation tests which results demonstrate its effectiveness and superiority in tracking the wind change.
Highlights
With the progress of agricultural modernization and the rapid development of unmanned aerial vehicles (UAV) technology, the UAV spraying has been more and more applied in plant protection, which helps greatly alleviate the problems of low efficiency, high labor intensity, and pesticide poisoning in traditional operations [Hunt and Daughtry (2018); Millan, Rankine and Sanchez-Azofeifa (2020)]
This paper develops a wind estimation algorithm featuring high robustness and fast indication using the measurements of wind speed
The interacting multiple model (IMM) algorithm has been adopted for estimating the wind parameters in favor of its marked ability in dealing with uncertainty
Summary
Received: 12 February 2020; Accepted: 17 May 2020. CMC. doi:10.32604/cmc.2020.010124 www.techscience.com/journal/cmc weather forecast, or directly with the transducers, such as inertial sensors [Song, Luo and Meng (2018); Prudden, Fisher and Marino (2018); González-Rocha, Woolsey and Sultan (2019)], and GPS [Balmer, Muskardin and Wlach (2018)]. The wind models were built subject to several assumptions [Du, Wang, Yang et al (2019)], while the estimation algorithms were developed in consideration of the research preference of the estimating accuracy and/or convergence rate. In addition to the modelling, the estimation algorithms with fast convergence and good accuracy are preferred On this basis, this paper develops a wind estimation algorithm featuring high robustness and fast indication using the measurements of wind speed. The overall idea of the proposed algorithm is that the Markov time-dependent model is firstly established for solving time-varying parameter estimation of the wind speed. Three Markov time-dependent models with designed parameters are interacted in an IMM algorithm framework to match the wind state. The proposed algorithm can improve the estimation accuracy of the wind parameters It has been tested effectively with simulations and data tests. The IMM algorithm is presented and illustrated for its benefits of adaptive tracking
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