Abstract
Under the demands of powerful performance for field data measuring and controlling, an embedded data acquisition frame based on ARM+HPI+DSP is presented in this paper, by adopting HPI driver technology, the two cores are seamless connected in WinCE system frame. A method for manufacturing process oriented field quality data real-time acquisition and analysis is established by adopting event driven and multi-thread dispatch strategy. With this framework, a real-time acquisition and analysis system platform of field quality data is realized to meet the demands of processing quality control. The ability of real-time acquisition and analysis for field dynamic data is improved effectively.
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References
Duan, G.J., Tang, X.Q., Wang, S.C.: The Model of Integrated Quality System in Modern Manufacturing Company. China Mechanical Engineering 10(3), 292–294 (1999)
Chen, B., Jiang, P.Y.: Research on Quality Data Require and Analyzing Technologies for Supporting Digital Manufacturing. Aviation Maintenance & Engineering 4, 38–42 (2006)
Zhu, F.Y., Zhang, G.B., Wang, G., Xie, R.C.: Research and Realization of Quality Management Control Chart on Embedded Terminal. Journal of Chongqing University(Natural Science Edition) 28(6), 23–25 (2005)
Ma, Y.W., Wu, J., Liu, D., Wang, S.W.: Design of Power Quality Monitoring in Wind Power Plant Based on Embedded System. Microcomputer Information 23(3-2), 17–19 (2007)
Wang, Y.H.: Real-time Data Collection System of Bridge with Fiber Sensor Based on DSP and ARM Technologies. Journal of Wuhan University of Technology 28(8), 108–109 (2006)
Wu, Y., Xiong, Z.H., Ding, H.: Data acquisition and control systembased on RTX and MFC packaging platform. Systems Engineering and Electronics 26(9), 1257–1261 (2004)
Sun, Y.Q.: The Principle and Application of Enhanced 8-bit Host Port Interface(HPI-8). Electronic & Computer Design World 22, 49–50 (2002)
Zhang, G., Zhang, J.T.: Application for HPI interface in multi-processor system. Application of Electronic Technique 7, 72–74 (2002)
Zhu, S.D., Zhang, D.X., Wu, X.P.: Application of HPI in Data Communication of Master-Slave System. Computer Technology and Development 16(12), 213–214 (2006)
Tang, Y.: Applied Guide to Real-Time Operating System. China Electric Power Press, BeiJing (2002)
Zhao, W.G., Wang, W.H., Fen, H.: Application of the Embedded System in Industrial Instrument. Automation and Instrumentation 4, 55–57 (2003)
Liu, G.M., Dai, Q.Y., Gao, M.G.: Application for Real-Time Operating System VxWorks in Tracking Radar System. Application of Electronic Technique 10, 47–49 (2002)
Dong, X.X.: Implementation of a Real Time Control System Based on QNX. Modern Radar. 6, 26–28 (2002)
Qu, Y.F., Pu, S.B., Wang, Y.A.: Contrast Study of Subpixel Edge Detections in Vision Measuring System. Chinese Journal of Scientific Instrument 24(4), 460–462 (2003)
Zhang, Y.H., Hu, D.J.: Gray moment operators for subpixel edge detection on CCD images. Optical Technique 30(6), 693–698 (2004)
Qu, Y.D., Cui, C.S.: Analysis of the influencing factors on subpixel Sobel-Zernike moments edge operator. Opto-electronic Engineering 37(7), 71–73 (2005)
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Yao, Y., Zhao, L., Li, X., Xu, D. (2008). Dual-Core Embedded Real-Time Inspection and Analysis Platform for Field Quality Control and Application. In: Xiong, C., Liu, H., Huang, Y., Xiong, Y. (eds) Intelligent Robotics and Applications. ICIRA 2008. Lecture Notes in Computer Science(), vol 5315. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-540-88518-4_82
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DOI: https://doi.org/10.1007/978-3-540-88518-4_82
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-540-88516-0
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