Abstract
The research area of this article lies at the junction of the instrument-making industry and gas dynamics and covers a scope of problems, related to designing the optimal software–hardware architecture for processing data from physical experiments. The work concerns experiments on investigations of highspeed continuous spin detonation processes. The velocity of the detonation wave exceeds the velocity of sound in the medium by dozens of times. A photosensitive line that supports sufficiently high velocities is quite suitable for the optimal video filming of similar processes. However, for working with the resultant data stream it is required to design a software–hardware complex equipped with a largevolume random access memory that implements the controller of the available memory. For this purpose, a device allowing an optimal solution of the formulated problems was created. The paper describes turning points in designing the unit and the experimental results obtained during the final adjustment of the unit.
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This paper uses the materials of the report submitted at the 11th International Conference “Pattern Recognition and Image Analysis: New Information Technologies,” Samara, Russia, September 23–28, 2013.
Aleksandr N. Samsonov was born in 1987. He graduated from Novosibirsk University in 2011 and was awarded a Master of Physics degree. He is a junior researcher at the Lavrent’ev Institute of Hydrodynamics, Siberian Branch, Russian Academy of Sciences. He has experience in designing highspeed digital signal spectrum analyzers. He has worked as a programmer at the Guzik Technical Enterprises, Mountain View, USA. His interests are in the areas of microprocessor signal-processing architectures, chemical physics, and internal combustion engines.
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Samsonov, A.N. A device for high-speed video filming of supersonic flows and moving particles. Pattern Recognit. Image Anal. 25, 255–262 (2015). https://doi.org/10.1134/S1054661815020236
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DOI: https://doi.org/10.1134/S1054661815020236