Application of preview information to pointing control of truss structure using artificial thermal expansion on orbit

Funakoshi, Yusuke; Ishimura, Kosei; Ogi, Yoshiro; Iwasa, Takashi

doi:10.1177/1045389x14560360

Cited by 6 publications

(4 citation statements)

References 16 publications

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“…Their nominal lengths are defined as 380 mm, obtained by referencing the experimental model of previous research. 21) The diagonal rods are composed of aluminum cables with a diameter of 2 mm, and are assumed to support only the tension force. Thus, the stiffness is set as zero for the compression load.…”

Section: Analysis Modelmentioning

confidence: 99%

“…In addition, as a study to reduce the structural error due to these uncertainties, kinematic coupling is utilized at the connection point between the optical bench and the satellite body to release the distortion generated due to thermal deformation, 20) or attitude control system of the entire optical bench using actuators is utilized. 21,22) However, the amount of the released error is limited. Therefore, it is necessary to clarify the effect of each uncertainty on the shape accuracy of the entire truss structure.…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Effect of Member Length Uncertainty and Backlash on Deformation Accuracy for a High-Precision Space Truss Structure

Gon

Kogiso

2021

Trans. Japan Soc. Aero. S Sci.

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Section: Analysis Modelmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Effect of Member Length Uncertainty and Backlash on Deformation Accuracy for a High-Precision Space Truss Structure

Gon

Kogiso

2021

Trans. Japan Soc. Aero. S Sci.

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“…For example, the metering structure of the Hubble Space Telescope is designed with selected low-CTE graphite/epoxy composites to minimize thermal expansion, and actuators on the primary and secondary mirrors are provided to adjust their mirror positions [1]. In another study, heaters were used as actuators and induced the thermal deformation for pointing control in instruments [9]. In order to optimally combine these methods and to achieve high dimensional stability, it is important to accurately evaluate the stability of structures and materials by incorporating a reliable measurement system in the design [10,11].…”

Section: Introductionmentioning

confidence: 99%

Evaluation of dimensional stability of metering truss structure using built-in laser interferometric dilatometer

2020

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Dimensional stability in a space telescope is one of the important factors for performing high-resolution observations. The supporting structures between the primary and the secondary mirrors in a space telescope are required to maintain the mirror positions with the proper focus for minimizing the optical alignment error. In orbit, the harsh environment subjects a space telescope to temperature variations that can lead to deformation of those structures and degradation of the telescope’s optical performance. Several approaches are available for achieving high dimensional stability. They include minimizing temperature variations with active thermal control, designing the structure with low thermal expansion materials, and correcting the shape and/or position of the structure with actuators. An optimum combination of these measures is determined based on an accurate evaluation of the dimensional stability of the structures. This paper proposes a displacement measuring interferometer system with a simple, robust, and compact sensor that can monitor the dimensional stability of the precise structure by integrating the sensor into the structure. In this technique, a Fabry–Perot displacement sensor was built into the end of a strut that is a component of a metering truss structure. Two types of truss struts were tested to verify the performance of the proposed technique in measuring thermal expansions. The first one was the prototype that was made of stainless steel (SUS304). The other strut was made of a low thermal expansion ceramic (SiAlON) that is one of the most promising materials for a highly thermo-stable satellite structure. The thermal dimensional stability of these struts was evaluated by using the proposed technique and compared with conventional dilatometers for validating this new technique. The results showed that the technique has similar precision to the conventional measurement system and provide a more convenient and stable measurement system.

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“…This EOB with a 6 m length can be folded to store into the fairing of H-IIA, and a fixed optical bench (FOB) with a 6 m length is stored with its shape. 1) The pointing accuracy requirement for the hard X-ray telescope on HITOMI was less than 69 arcseconds. 2) In future space astronomy missions, the pointing accuracy requirement for the optical bench will be strictly reduced to the order of arcseconds.…”

Section: Introductionmentioning

confidence: 99%

Deployment Repeatability of Pointing Performance for Highly Precise Extensible Optical Bench Considering Uncertainties on Backlash and Friction

Gon

Kogiso

2020

AEROSPACE TECHNOLOGY JAPAN

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The authors have investigated the effects of uncertainties on the pointing performance of an extensible optical bench (EOB), used for a large, highly precise, space X-ray telescope. The uncertainties considered are in member length, position due to backlash, and friction at connecting nodes. This study mainly investigates the effect of friction on the pointing performance. First, the pointing performance analysis is briefly investigated. The extended EOB is modeled as a truss structure, and the distortion due to the member length imperfection is evaluated by a nonlinear, finite element analysis (FEA). Subsequently, the backlash at connecting nodes is modeled by introducing a virtual cable element with a natural length equal to the size of backlash. In addition, the deformation due to a friction force acting at the connecting node is calculated as a perturbation from the equilibrium condition without performing a contact analysis. This friction model is further extended to identify effects of friction uncertainty with reduced computational costs. Through numerical examples, the effects of friction uncertainty on the deployment repeatability for the EOB, and effects of the number of stages of EOB on the pointing performance are investigated.

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Application of preview information to pointing control of truss structure using artificial thermal expansion on orbit

Cited by 6 publications

References 16 publications

Effect of Member Length Uncertainty and Backlash on Deformation Accuracy for a High-Precision Space Truss Structure

Effect of Member Length Uncertainty and Backlash on Deformation Accuracy for a High-Precision Space Truss Structure

Evaluation of dimensional stability of metering truss structure using built-in laser interferometric dilatometer

Deployment Repeatability of Pointing Performance for Highly Precise Extensible Optical Bench Considering Uncertainties on Backlash and Friction

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