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将两轴光电跟踪仪搭载于卫星平台对空间运动目标进行持续跟踪监视正在成为一个研究热点,目前这类系统有天基空间目标监视系统(SBSS)、空间跟踪与监视系统(STSS)和持续跟踪与监视系统(PTSS)。为了解决天基目标监视中星载动基座情况下的光轴稳定跟踪控制技术,首先简化了星载光电跟踪控制系统的物理模型,然后求解了太阳同步轨道附近两卫星的相对运动角速度和角加速度大小,接着分析了基于光电复合轴方式的主动稳定跟踪控制方案和原理,最后建立了单轴系的星载光电复合轴跟踪控制系统仿真模型,计算结果为:对相对机动范围内(37.68(°)/s、47.33(°)/s2)的空间目标和相对低匀速范围内(0.1(°)/s)的空间卫星的稳定跟踪精度为2.5″。  相似文献
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Surface modification with bioactive agents capable of combating thrombosis is a widely used strategy for developing antithrombotic biomaterials. However, exposure of the blood to the antithrombotic agent on the material surface may cause hemostatic disorders under normal conditions. Ideally an implanted biomaterial should respond appropriately on demand to a specific change in the physiologic environment, as happens in the body itself. In the present study, a thrombosis‐responsive surface coating with the ability to lyse fibrin as it forms is reported. The coating consists of nanocapsules (NCs) in which the fibrinolysis activator t‐PA is encapsulated in a thrombin‐degradable hydrogel shell. The t‐PA NCs are attached to several materials covalently through a polydopamine adhesive layer. The resulting surfaces are treated with the antifouling agent glutathione (GSH) to prevent further interactions with blood/plasma components. The t‐PA NCs/GSH‐coated surface is stable and remain inert in normal plasma environment while releasing t‐PA and promoting fibrinolysis when thrombin is present. The fibrinolytic activity increases with increasing thrombin concentration, and therefore presumably with the extent of thrombosis. This work constitutes the first report of an antithrombotic coating whose function is triggered and regulated, respectively, by the appearance of thrombin and the extent of coagulation.  相似文献
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