平流层飞艇巡航姿态自适应神经网络补偿控制

 研究了一种基于自适应神经网络补偿的平流层飞艇前向速度与姿态控制系统设计方法。针对近似模型进行常规线性动态补偿器设计,并引入自适应径向基函数(Radial Basis Function, RBF)神经网络对模型误差进行补偿。根据Lyapunov方法得到神经网络权值自适应律,保证了闭环系统误差信号一致最终有界。该控制器设计对模型参数信息仅有较少的要求。仿真结果表明对于两类不同的飞艇模型,所设计的控制器在响应性及对未知环境风速作用的鲁棒性方面均具有良好的效果。     

临近空间飞艇运行环境及其影响

叙述了运行在20km以上临近空间的飞艇要经历的对流层和平流层的环境特点,对压力、密度、温度、太阳辐射、臭氧、水蒸气、高能粒子及大气污染物这些大气环境进行了分析,并提出了环境控制需要注意的几个问题,为临近空间飞艇的设计提供了参考。     

中国第一艘遥控热气飞艇

对世界飞艇的过去与现状和我国现已研制成功的8艘飞艇之概貌以及当今三种不同浮升气体飞艇——氢气飞艇、氦气飞艇、热气飞艇之优缺点介绍后,论述了研制中国第一艘遥控热气飞艇 CARDC-208号的主要原因并介绍了这艘飞艇的总体设计特点及其试飞结果。已成功地把这种遥控热气飞艇作为运载工具,带飞/投放飞机的遥控模型进行失速/尾旋自由飞试验。     

低空无人飞艇压力控制系统的设计与实现

介绍了一种以C8051F120单片机为核心设计的低空无人飞艇压力控制系统,详细给出了系统的总体架构;着重说明了主要功能模块的电路设计和固件的程序设计.地面测试和飞行试验表明该压力控制系统性能稳定,能满足低空飞艇飞行中压力控制的要求.     

Analysis of long-endurance station-keeping flight scenarios for stratospheric airships in the presence of thermal effects

The ability to achieve long-endurance station-keeping flights makes stratospheric airships desirable platforms for the provision of communication and surveillance services. To maintain long-endurance flights, it is necessary to consider the problem of energy consumption. In this paper, we discuss long-endurance flight scenarios of stratospheric airships in the presence of thermal effects. The balance between buoyancy and gravity is influenced by thermal effects during the diurnal cycle. We perform a theoretical analysis based on the helium’s mass, pressure differential, and altitude as the main factors. To verify the effectiveness of the control over the pressure differential and the altitude, three long-endurance flight scenarios are proposed and compared. Then, the corresponding optimization problems are constructed to determine the energy-minimum flight. Finally, further efforts are made to reduce energy consumption. The realization and limitations of two strategies for improvement are analyzed. A comparison with other scenarios shows the effectiveness of energy conservation. The study in this paper thus provides a reference for station-keeping applications of stratospheric airships.     

Command filtered sliding mode trajectory tracking control for unmanned airships based on RBFNN approximation

This paper presents two sliding mode controllers to address the trajectory tracking problem of unmanned airships in the presence of unknown wind disturbance. The sliding mode controller proposed first is designed by a fast power rate reaching law(FPRRL). The disturbance is compensated by a radial basis function neural network (RBFNN). To avoid the aggressive adaptation, the controller is augmented by a command filter. The controller provides good robustness and tracking performance with no chattering under the hypothesis of ideal wind field. However, serious chattering occurs when simulation is performed under discontinuous wind field. To simulate the wind in practice, the wind field employed in the simulation is generated by the combination of a constant field and white noise. The controller is improved subsequently with an extended model to suppress the chattering induced by the white noise. The enhanced controller manipulates the derivation of system input, thus attenuating the chattering. Stability analysis shows that both controllers drive the tracking error into a controllable small region near zero. Simulations are provided to validate the performance of the proposed controllers under different wind hypothesis.     

Dryden型大气紊流对平流层飞艇能量最优轨迹影响

研究了常值风场作用下平流层飞艇的上升段轨迹优化和大气紊流对最优轨迹的影响问题。首先基于平流层飞艇的受力分析,建立了考虑常值风场、地球自转和飞艇质量变化等诸多因素的三自由度动力学模型,处理参数得到归一化的系统方程;其次采用直接配点法将平流层飞艇的最优轨迹问题转换为非线性规划问题,以最小能量为目标函数,给出非线性规划问题的求解策略,优化得出可行解后对飞艇的最优上升轨迹及相应的加速度项进行了分析,将优化的控制量代入微分方程验证了优化轨迹的准确性;最后加入Dryden型大气紊流的干扰,选取多组大气紊流干扰下的数据进行对比分析,仿真结果表明大气紊流叠加风场均值与飞艇终端位置误差存在一定规律,分析并提出了平流层飞艇抵御大气紊流干扰的策略。     

国外大型对流层飞艇发展现状、特点与趋势

美国、德国等发达国家在大型对流层飞艇研发、应用等方面一直处于世界先进水平。介绍了目前国外大型对流层飞艇的发展现状,分析了现有大型对流层飞艇的发展特点、关键技术与未来的发展趋势。未来,大型对流层飞艇将主要向长航时、大载重、多功能、一体化等方向发展。     

蒙皮材料对浮空器热特性影响的研究

分析临近空间浮空器热特性的影响因素,并建立临近空间浮空器热特性的数学模型,采用Fortran语言编写程序,对蒙皮材料热辐射特性对浮空器热特性的影响进行了研究.结果表明,选用短波吸收率较低且长波辐射发射率较高的蒙皮材料时,氦气平均温度的昼夜差值较低,浮空器热性能越好.夜晚蒙皮温差随长波辐射发射率的增加而增加;而白天随短波辐射吸收率的增加而增加,在长波辐射发射率较大时,其对蒙皮温差的影响不大,然而长波辐射发射率比较小时,蒙皮温差会非常大,蒙皮温差的峰值出现于黎明和黄昏时段这两个时段.     

平流层飞艇纵向气动特性及减阻实验研究

以美国高空哨兵50平流层飞艇作为背景样机,通过风洞实验研究了布局形式对该型飞艇纵向气动特性的影响。研究表明:与Y形尾翼相比,十字尾翼布局形式具有更大的阻力和升力;从俯仰静稳定性的角度而言,十字尾翼在大迎角下使得飞艇从纵向静不定变为纵向静定;但由于尾翼产生较大的附加阻力,因此需要采取一定的减阻措施。进一步采用微型涡流发生器对飞艇的后体及尾翼处的流动分离进行控制,研究其在不同迎角和侧滑角工况下的减阻效能,发现在α=8°、β=0°或β=-8°、α=0°工况下可以获得减阻效果,且MVG布置更密时,获得的减阻效果更好。