直线型倾转多旋翼植保无人机建模与控制
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TH861 TP242

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中国高校产学研创新基金-无人集群协同智能项目(2021ZYB02002)资助


Modeling and control of linear tilting multi-rotor plant protection UAV
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    摘要:

    针对直线型倾转多旋翼植保无人机模型耦合复杂、作业时易受施药执行器干扰等问题,提出了一种模型补偿-线性自 抗扰控制算法。 首先建立无人机运动学和动力学模型,并分析作业时离心喷头产生的力矩作用影响;然后将作业模型中的固定 部分作为已知扰动,引入模型补偿-扩张状态观测器估计内外未知总扰动并动态补偿控制系统,完成位姿控制器设计。 仿真结 果表明,所提出的算法在作业场景下偏航角度误差小于 0. 2°,恢复时间小于 0. 55 s,相比于 PID 算法和线性自抗扰算法最大角 度偏差分别降低 3. 4°和 0. 9°,恢复时间减少 3. 1 和 0. 99 s,具有较强的鲁棒性。 飞行实验表明,该无人机可以很好地跟踪植保 作业轨迹,最大位置稳态误差小于 15 cm,满足植保作业需求。

    Abstract:

    In view of the complex coupling of the linear tilt multi-rotor plant protection UAV model and the interference of natural wind and plant protection actuators during the process of plant protection, a model compensation linear active disturbance rejection control algorithm is proposed in this study. Firstly, the kinematics and dynamics models of UAVs are formulated and the effectiveness of the centrifugal nozzle on the torque during the process of plant protection is analyzed. Then, the control decoupling and control allocation strategies are designed, which is based on the under-actuated characteristics of the UAV. Meanwhile, the model compensation-extended state observer is introduced to estimate other total disturbances inside and outside the system while regarding the fixed part of the operating model as the known disturbance. Therefore, the design of the pose controller is completed. The simulation results show that the maximum angle deviation and recovery time of the proposed algorithm are less than 0. 2° and 0. 55 s, respectively, during the process of plant protection. Compared with the PID algorithm and the linear active disturbance rejection algorithm, the maximum angle deviations are reduced by 3. 4° and 0. 9°, respectively, and the recovery time is reduced by 3. 1 and 0. 99 s, respectively, which shows that this algorithm has strong robustness. The flight experiments indicate that the UAV can track the plant protection trajectory well, and the maximum position steady-state error is less than 15 cm, which can meet the needs of plant protection.

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沈 跃,储金城,沈亚运,施志翔,刘 慧.直线型倾转多旋翼植保无人机建模与控制[J].仪器仪表学报,2024,44(1):250-258

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  • 在线发布日期: 2024-04-10
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