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Matrix Transfer Function Design for Flexible Structures: An Application (1985)

Gustafson, C. L. ; Wong, C. L. ; Compito, A. V. ; [et al.]

In: CASI

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Publication Date: 2016-06-07

Description: The application of matrix transfer function design techniques to the problem of disturbance rejection on a flexible space structure is demonstrated. The design approach is based on parameterizing a class of stabilizing compensators for the plant and formulating the design specifications as a constrained minimization problem in terms of these parameters. The solution yields a matrix transfer function representation of the compensator. A state space realization of the compensator is constructed to investigate performance and stability on the nominal and perturbed models. The application is made to the ACOSSA (Active Control of Space Structures) optical structure.

Keywords: SPACECRAFT DESIGN, TESTING AND PERFORMANCE

Type: JPL Proc. of the Workshop on Identification and Control of Flexible Space Struct., Vol. 3; p 47-62

Format: application/pdf

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NASA in-house Commercially Developed Space Facility (CDSF) study report. Volume 1: Concept configuration definition (1989)

Deryder, D. D. ; Chiger, H. D. ; Hall, J. B. ; [et al.]

In: CASI

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Publication Date: 2019-06-28

Description: The results of a NASA in-house team effort to develop a concept definition for a Commercially Developed Space Facility (CDSF) are presented. Science mission utilization definition scenarios are documented, the conceptual configuration definition system performance parameters qualified, benchmark operational scenarios developed, space shuttle interface descriptions provided, and development schedule activity was assessed with respect to the establishment of a proposed launch date.

Keywords: SPACECRAFT DESIGN, TESTING AND PERFORMANCE

Type: NASA-TM-101586-VOL-1 , NAS 1.15:101586-VOL-1

Format: application/pdf

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Articulated Space Station controllability assessment (1985)

Orr, L. H. ; Deryder, L. J. ; Heck, M. L.

In: Other Sources

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Publication Date: 2019-06-28

Description: The Reference Space Station design under consideration by NASA will contain several articular components, notably solar arrays and radiators. A technique to model articulation for use in determining Space Station controllability is described. The technique involves treating each articular component as a rigid free body, subject to the constraint of being attached to the Space Station proper. Because of the relatively large areas associated with some of the articular components, the resulting aerodynamics and solar radiation pressure induced forces and torques are shown to be significant. The effects of articulation on Space Station controllability as compared to the non-articulated rigid-body model are demonstrated. Plots of control forces and torques required to maintain orbital altitude and vehicle attitude are presented.

Keywords: SPACECRAFT DESIGN, TESTING AND PERFORMANCE

Type: AIAA PAPER 85-0024

Format: text

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Atmospheric deployment of tethered systems - The proposed TSS-2 flight demonstration (1989)

Couch, L. M. ; Harris, L. A. ; Gualdoni, R. ; [et al.]

In: Other Sources

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Publication Date: 2019-08-14

Description: Areas of strong user interest in the atmospheric deployment of tethered systems are addressed. They include hypersonic and aerothermodynamics research to support next-generation aerospace vehicle design, lower thermosphere scientific research supporting global change monitoring and earth systems investigations, and payload recovery/trash disposal from Space Station Freedom. The proposed tethered flight demonstration TSS-2 is described.

Keywords: SPACECRAFT DESIGN, TESTING AND PERFORMANCE

Type: IAF PAPER 89-062

Format: text

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The solar dynamic radiator with a historical perspective (1988)

Hoehn, F. W. ; Howerton, R. L. ; Mclallin, K. L. ; [et al.]

In: CASI

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Publication Date: 2019-07-13

Description: A historical perspective on pumped-fluid loop space radiators provides a basis for the design of the Space Station Solar Dynamic (SD) power module radiator. SD power modules, capable of generating 25 kW (electrical) each, are planned for growth in Station power requirements. The Brayton cycle SD module configuration incorporates a pumped-fluid loop radiator that must reject up to 99 kW (thermal). The thermal/hydraulic design conditions in combination with required radiator orientation and packaging envelope form a unique set of constraints as compared to previous pumped-fluid loop radiator systems. Nevertheless, past program successes have demonstrated a technology base that can be applied to the SD radiator development program to ensure a low risk, low cost system.

Keywords: SPACECRAFT DESIGN, TESTING AND PERFORMANCE

Type: NASA-TM-100972 , E-4265 , NAS 1.15:100972 , Intersociety Energy Conversion Engineering Conference; Jul 31, 1988 - Aug 05, 1988; Denver, CO; United States

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Neutralization of beam-emitting spacecraft by plasma injection (1987)

Sasaki, S. ; Kawashima, N. ; Roberts, W. T. ; [et al.]

In: Other Sources

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Publication Date: 2011-08-19

Description: An impulsive plasma injection has been used to study charge neutralization of the Space Shuttle Orbiter while it was emitting an electron beam into space. This investigation was performed by Space Experiments with Particle Accelerators on Spacelab-1. A plasma consisting of 10 to the 19th argon ion-electron pairs was injected into space for 1 ms while an electron beam was also being emitted into space. The electron beam energy and current were as high as 5 keV and 300 mA. While the orbiter potential was positive before the plasma injection and began to decrease during the plasma injection, it was near zero for 6 to 20 ms after the plasma injection. The recovery time to the initial level of charging varied from 10 to 100 ms. In a laboratory test in a large space chamber using the same flight hardware, the neutralization time was 8-17 ms and the recovery time was 11-20 ms. The long duration of the neutralization effect in space can be explained by a model of diffusion of the cold plasma which is produced near the Orbiter by charge exchange between the neutral argon atoms and the energetic argon ions during plasma injection.

Keywords: SPACECRAFT DESIGN, TESTING AND PERFORMANCE

Type: Journal of Spacecraft and Rockets (ISSN 0022-4650); 24; 227-231

Format: text

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Autonomous spacecraft attitude control using magnetic torquing only (1989)

Ebert, Ward L. ; Musser, Keith L.

In: CASI

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Publication Date: 2013-08-31

Description: Magnetic torquing of spacecraft has been an important mechanism for attitude control since the earliest satellites were launched. Typically a magnetic control system has been used for precession/nutation damping for gravity-gradient stabilized satellites, momentum dumping for systems equipped with reaction wheels, or momentum-axis pointing for spinning and momentum-biased spacecraft. Although within the small satellite community there has always been interest in expensive, light-weight, and low-power attitude control systems, completely magnetic control systems have not been used for autonomous three-axis stabilized spacecraft due to the large computational requirements involved. As increasingly more powerful microprocessors have become available, this has become less of an impediment. These facts have motivated consideration of the all-magnetic attitude control system presented here. The problem of controlling spacecraft attitude using only magnetic torquing is cast into the form of the Linear Quadratic Regulator (LQR), resulting in a linear feedback control law. Since the geomagnetic field along a satellite trajectory is not constant, the system equations are time varying. As a result, the optimal feedback gains are time-varying. Orbit geometry is exploited to treat feedback gains as a function of position rather than time, making feasible the onboard solution of the optimal control problem. In simulations performed to date, the control laws have shown themselves to be fairly robust and a good candidate for an onboard attitude control system.

Keywords: SPACECRAFT DESIGN, TESTING AND PERFORMANCE

Type: NASA, Goddard Space Flight Center, Flight Mechanics(Estimation Theory Symposium, 1989; p 23-38

Format: application/pdf

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Contamination control concepts for space station customer servicing (1986)

Maruya, K. A. ; Medler, E. H. ; Rosales, L. A. ; [et al.]

In: CASI

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Publication Date: 2013-08-31

Description: The customer servicing operations envisioned for the space station, which include instrument repair, orbital replacement unit (ORU) changeout, and fluid replenishment for free-flying and attached payloads, are expected to create requirements for a unique contamination control subsystem for the customer servicing facility (CSF). Both the core space station and the CSF users present unique requirements/sensitivities, not all of which are currently defined with common criteria. Preliminary results from an assessment of the effects of the CSF-induced contamination environment are reported. Strategies for a comprehensive contamination control approach and a description of specific hardware devices and their applicability are discussed.

Keywords: SPACECRAFT DESIGN, TESTING AND PERFORMANCE

Type: NASA- Goddard Space Flight Center, Greenbelt, Md. Fourteenth Space Simulation Conference: Testing for a Permanent Presence in Space; p 342-366

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Verification tests of durable thermal protection system concepts (1985)

Pittman, C. M. ; Shideler, J. L. ; Webb, G. L.

In: Other Sources

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Publication Date: 2011-08-19

Keywords: SPACECRAFT DESIGN, TESTING AND PERFORMANCE

Type: Journal of Spacecraft and Rockets (ISSN 0022-4650); 22; 598-604

Format: text

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A dual-armed free flyer (1989)

Middour, K. ; Uber, J. ; Wang, L. ; [et al.]

In: CASI

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Publication Date: 2017-03-17

Description: This summary presents the main conclusions and results of the design studies conducted by a group of 13 students at the University of Maryland. The students, all participants in the spring 1989 course ENEE418 in the Electrical Engineering Department, met weekly in a two-hour class to discuss and evaluate design alternatives. The main problem considered was the design and control of a planar testbed simulating a free-flying space robot for applications in satellite servicing. This project grew out of the 1988 class where a dual-armed free flyer (DAFF) was designed and partially built. This year, a group of six students continued the development of the DAFF, achieving computer-controlled motion of the DAFF's arms. All fabrication and testing of the DAFF is being conducted in the Intelligent Servosystems Laboratory at the University of Maryland. While the work related to the design and development of the DAFF is the main subject of the report, it should be noted that other students in the ENEE418 class have investigated additional issues related to manipulation in space. For example, one group studied a new parallel linkage based manipulator for fine motion applications such as in assembly operations in space. They investigated the mechanism's kinematics, its reachable workspace, and precision of applying forces and torques. In yet another project, a student set out to measure and map the friction characteristics of the actuators used in the Modular Dextrous Hand, which has been recently developed in the Intelligent Servosystems Laboratory. The results are expected to help compensate for this friction, which is a highly nonlinear disturbance and presents significant problems in high-precision, low-speed operations. This summary continues with the discussion of the results obtained by the group of students who have been working on developing the DAFF testbed.

Keywords: SPACECRAFT DESIGN, TESTING AND PERFORMANCE

Type: USRA, NASA(USRA University Advanced Design Program Fifth Annual Summer Conference; p 93-95

Format: text

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