Development of an Adaptive Fixative Delivery Control Methodology for Spaceflight Hardware 2003-01-2476
The Magnetic Field Apparatus (MFA) was developed specifically to test whether high gradient magnetic fields (HGMFs) can simulate gravity by providing a directional stimulus for plants grown in space. This space shuttle middeck-locker experiment was designed to imbibe dry flax (Linum usitatissimum L.) seeds on orbit, capture time-lapsed images of the emerging roots as they are exposed to HGMFs, and, at the appropriate time, chemically fix the biological material. One of the major obstacles in the development of this payload system was to determine exactly when was the ‘appropriate’ time for fixation. Ideally the emerging roots were to be fixed after they have passed the area of highest magnetic gradient (∼8mm), but before they have grown so long as to physically touch the sides of the chamber (∼12mm). Initiating the fixative delivery sub-system within this relatively narrow window of acceptability was obtained with a unique iterative control methodology. It began with a gross, open loop control process and ended with a finer, user-provided feedback system. This scheme was refined by the development of a mathematical algorithm, based on experimental data, to predict root length as a function of both temperature and time. The predictive value of this mathematical expression was enhanced with the inclusion of data from a precursor space flight experiment. Additional capabilities were added to the system to allow for near real-time correction to this algorithm based on analysis of collected images as the experiment progressed in flight.
Citation: Anderson, K., Boody, A., Levine, H., Cox, D. et al., "Development of an Adaptive Fixative Delivery Control Methodology for Spaceflight Hardware," SAE Technical Paper 2003-01-2476, 2003, https://doi.org/10.4271/2003-01-2476. Download Citation
Author(s):
Ken Anderson, April Boody, Howard G. Levine, Dave Cox, Karl Hasenstein
Affiliated:
The Bionetics Corporation, Kennedy Space Center
Pages: 9
Event:
International Conference On Environmental Systems
ISSN:
0148-7191
e-ISSN:
2688-3627
Related Topics:
Spacecraft
Magnetic materials
Mathematical models
Windows and windshields
Imaging and visualization
Biological sciences
Gravity
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