Modeling of disturbance torque in an aerostatic bearings-based nano-satellite simulator
The disturbance torque of aerostatic bearings is in the same order of the reaction wheel, which causes difficulty in eva-luation of the designed attitude control strategy of a nano-satellite based on the aerostatic bearing. Two approaches are proposed to model the disturbance torque. Firstly, the gr...
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| Veröffentlicht in: | Journal of systems engineering and electronics 2018-06, Vol.29 (3), p.618-624 |
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| creator | LIU Yanfang HUO Mingying QI Naiming |
| description | The disturbance torque of aerostatic bearings is in the same order of the reaction wheel, which causes difficulty in eva-luation of the designed attitude control strategy of a nano-satellite based on the aerostatic bearing. Two approaches are proposed to model the disturbance torque. Firstly, the gravity induced moment, the vortex torque, and the damping moment are modeled sepa-rately. However, the vortex torque and the damping moment are coupled with each other as both of them are caused by the visco-sity. In the second approach, the coupling effect is considered. A nano-satellite is constructed based on aerostatic bearing. The time history of the free rotation rate from an initial speed is measured by the gyro, which is further used to calculate the rotation angle and acceleration. The static vortex torque is measured via the removable micro-torque measurement system. Based on these data, the model parameters are identified and modeling errors are presented. Results show that the second model is more precise. The root mean squire error is less than 0.5×10-4N·m and the relative error of the static vortex torque is 0.16%. |
| doi_str_mv | 10.21629/JSEE.2018.03.19 |
| format | Article |
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Two approaches are proposed to model the disturbance torque. Firstly, the gravity induced moment, the vortex torque, and the damping moment are modeled sepa-rately. However, the vortex torque and the damping moment are coupled with each other as both of them are caused by the visco-sity. In the second approach, the coupling effect is considered. A nano-satellite is constructed based on aerostatic bearing. The time history of the free rotation rate from an initial speed is measured by the gyro, which is further used to calculate the rotation angle and acceleration. The static vortex torque is measured via the removable micro-torque measurement system. Based on these data, the model parameters are identified and modeling errors are presented. Results show that the second model is more precise. The root mean squire error is less than 0.5×10-4N·m and the relative error of the static vortex torque is 0.16%.</description><identifier>ISSN: 1004-4132</identifier><identifier>DOI: 10.21629/JSEE.2018.03.19</identifier><language>eng</language><publisher>Department of Aerospace Engineering, Harbin Institute of Technology, Harbin 150001, China</publisher><ispartof>Journal of systems engineering and electronics, 2018-06, Vol.29 (3), p.618-624</ispartof><rights>Copyright © Wanfang Data Co. Ltd. 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Two approaches are proposed to model the disturbance torque. Firstly, the gravity induced moment, the vortex torque, and the damping moment are modeled sepa-rately. However, the vortex torque and the damping moment are coupled with each other as both of them are caused by the visco-sity. In the second approach, the coupling effect is considered. A nano-satellite is constructed based on aerostatic bearing. The time history of the free rotation rate from an initial speed is measured by the gyro, which is further used to calculate the rotation angle and acceleration. The static vortex torque is measured via the removable micro-torque measurement system. Based on these data, the model parameters are identified and modeling errors are presented. Results show that the second model is more precise. 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Two approaches are proposed to model the disturbance torque. Firstly, the gravity induced moment, the vortex torque, and the damping moment are modeled sepa-rately. However, the vortex torque and the damping moment are coupled with each other as both of them are caused by the visco-sity. In the second approach, the coupling effect is considered. A nano-satellite is constructed based on aerostatic bearing. The time history of the free rotation rate from an initial speed is measured by the gyro, which is further used to calculate the rotation angle and acceleration. The static vortex torque is measured via the removable micro-torque measurement system. Based on these data, the model parameters are identified and modeling errors are presented. Results show that the second model is more precise. The root mean squire error is less than 0.5×10-4N·m and the relative error of the static vortex torque is 0.16%.</abstract><pub>Department of Aerospace Engineering, Harbin Institute of Technology, Harbin 150001, China</pub><doi>10.21629/JSEE.2018.03.19</doi><tpages>7</tpages><oa>free_for_read</oa></addata></record> |
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| ispartof | Journal of systems engineering and electronics, 2018-06, Vol.29 (3), p.618-624 |
| issn | 1004-4132 |
| language | eng |
| recordid | cdi_wanfang_journals_xtgcydzjs_e201803019 |
| source | IEEE Power & Energy Library; EZB-FREE-00999 freely available EZB journals |
| title | Modeling of disturbance torque in an aerostatic bearings-based nano-satellite simulator |
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