Abstract
The high-frame rate camera can capture, store and display the high-speed moving subject in real time, it can analyze the mechanism and the motion law of the high speed transient event by video playback. Therefore it has been widely used in the field of measurement of the high-speed moving subject. This article has proposed a parallel data bus FPGA image acquisition and transmission system which successfully solves the problem of a large amount of data quantity, fail to store and transport in real-time during the image acquisition process with high frame. The system’s hardware composition and the working principle have been described; meanwhile, the image output structure and algorithm have been introduced in detail. Experimental results show that the system is reliable and absolutely fulfill the requirements of real-time performance.
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References
Thanassis, M., Peter, M.: High Frame Rate Imaging Using Parallel Transmission of Focused Coded Fields. In: IEEE Ultrasonics Symposium, vol. 2, pp. 1417–1420 (2004)
Masanori, H., Kensaku, Y., Michitaka, K.: FPGA Implementation of A Vehicle Detection Algorithm Using Three-dimensional Information. In: IPDPS 2008 - 22nd IEEE International Parallel and Distributed Processing Symposium, April 14-18 (2008)
Cambier, J.L., Nelson, M.R., Brown, S.I., Goldbaum, M.H., Rehkopf, P.G., Warnicki, J.L.: Image Acquisition and Storage for Ophthalmic Fluorescein Angiography. In: IEEE Computer Society International Symposium on Medical Images and Icons, ISMII 1984, pp. 224–231. IEEE (1984)
Oike, Y., Ikeda, M., Asada, K.: A CMOS Image Sensor for High-Speed Active Range Finding Using Column-Parallel Time-Domain ADC and Position Encoder. IEEE Transactions on Electron Device 50(1), 152–157 (2003)
Tripti, J., Prashant, B., Singh Kushwah, C.B., Mayenk, M.: Reconfigurable hardware for median filtering for image processing applications. In: 3rd International Conference on Emerging Trends in Engineering and Technology, ICETET 2010, pp. 172–175 (2010)
Cui, Z., Wang, H., Chen, Z., Xu, Y., Yang, W.: A high-performance digital system for electrical capacitance tomography. Measurement Science and Technology 22(5) (May 2011)
Yogindra, A., Sajish, C., Subrahmanya, C.R.: Design of a FPGA based data acquisition system for radio astronomy applications. In: The International Conference on Microelectronics, ICM, pp. 555–557 (2004)
Fan, H., Yang, F., Liao, Q.: Frame frequency multiplier system for stereo video on programmable hardware. In: 1st International Symposium on Computer Network and Multimedia Technology, CNMT 2009 (2009)
Qiu, W., Yu, Y., Sun, L.: A programmable, cost-effective, real-time high frequency ultrasound imaging board based on high-speed FPGA. In: 2010 IEEE International Ultrasonics Symposium, IUS 2010, pp. 1976–1979 (2010)
Si, X.: The design of FPGA real-time image acquisition system based on SDRAM. Journal of Southwest University (Natural Science Edition) 33(01), 128–132 (2011)
Yiming, S., Juan, L., Chunmao, L.: Design of SDRAM Controller Based on FPGA. Electronic Engineer. 29(09), 10–13 (2003)
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Huang, D., Zhang, T., Hou, H., Zhang, W. (2011). Design of System for High-Frame Frequency Image Acquisition and Remote Transmission. In: Tan, H. (eds) Informatics in Control, Automation and Robotics. Lecture Notes in Electrical Engineering, vol 132. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-25899-2_100
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DOI: https://doi.org/10.1007/978-3-642-25899-2_100
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