Image processing on Windows CE using the processor ARMv 4I
Keywords:
Embedded dispositive, ARMv 4I processor, Image processing, Windows CE
Abstract
This paper presents a methodology for the design of applications in embedded and mobile dispositives for digital image processing. Shows an example of design using a sobel mask for edge detection on the image of Lena in the dispositive Zeus Epic 520 which count with ARMv 4I processor with Windows CE operative system.
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References
[1] C. Hallinan,”Embedded Linux primer”, Prentice hall, september 2006, capítulo 2.
[2] ARMv 5 Reference manual, ARM ltda, 2005 disponible en http://infocenter. arm.com/help/index.jsp?topic=/ com.arm.doc.ddi0100i/index.html, 2007 copyrigth.
[3] Devian, “ArmEabiPort”, disponible en http://wiki.debian.org/ArmEabiPort, capítulo 4.
[4] ARM,“Procedure Call Standard for the ARM® Architecture”, ARM IHI 0042D, current through ABI release 2.08, October 2009.
[5] ARCOM, “ZEUS Windows CE Development kit Manual”, 2001 ARCOM.
[6] Microsoft msdn, “Windows CE 5.0”, disponible en http://msdn.microsoft. com/enus/library/ gg144991%28v= WinEmbedded.0%29.aspx, 2011 Microsoft.
[7] S.Phung, “Profesional Windows CE 6.0”, Wiley Publishing inc, 2009.
[8] S. Pavlov, P. Belevsky, “Windows CE 6.0 Fundamentals”, Microsoft Press. 1998.
[9] Microsoft msdn, “Platform builder Users Guide Windows CE 5.0”, disponible en http://msdn.microsoft. com/en-us/library/aa448756.aspx, 2011 Microsoft.
[10] P. González, “Manual básico de Embedded Visual C++ 4.0”, Universidad de Oviedo, 2004.
[11] D. Phillips, “Image processing in C”, “2nd ed. R&D Publications, 2000, pp 7-21 , pp 47 -56.
[12] W. K. Pratt, “digital image procesing”, Wiley-Interscience Publication,JOHN WILEY & SONS, INC, 3th edition, pp 453 – 454.
[13] Q. Ying-Donga, C. Cheng-Songa, C. San-Benb, L. JinQuana,” A fast subpixel edge detection method using Sobel–Zernike moments operator”, Image and Vision Computing 23, 2005, pp 11–17.
[2] ARMv 5 Reference manual, ARM ltda, 2005 disponible en http://infocenter. arm.com/help/index.jsp?topic=/ com.arm.doc.ddi0100i/index.html, 2007 copyrigth.
[3] Devian, “ArmEabiPort”, disponible en http://wiki.debian.org/ArmEabiPort, capítulo 4.
[4] ARM,“Procedure Call Standard for the ARM® Architecture”, ARM IHI 0042D, current through ABI release 2.08, October 2009.
[5] ARCOM, “ZEUS Windows CE Development kit Manual”, 2001 ARCOM.
[6] Microsoft msdn, “Windows CE 5.0”, disponible en http://msdn.microsoft. com/enus/library/ gg144991%28v= WinEmbedded.0%29.aspx, 2011 Microsoft.
[7] S.Phung, “Profesional Windows CE 6.0”, Wiley Publishing inc, 2009.
[8] S. Pavlov, P. Belevsky, “Windows CE 6.0 Fundamentals”, Microsoft Press. 1998.
[9] Microsoft msdn, “Platform builder Users Guide Windows CE 5.0”, disponible en http://msdn.microsoft. com/en-us/library/aa448756.aspx, 2011 Microsoft.
[10] P. González, “Manual básico de Embedded Visual C++ 4.0”, Universidad de Oviedo, 2004.
[11] D. Phillips, “Image processing in C”, “2nd ed. R&D Publications, 2000, pp 7-21 , pp 47 -56.
[12] W. K. Pratt, “digital image procesing”, Wiley-Interscience Publication,JOHN WILEY & SONS, INC, 3th edition, pp 453 – 454.
[13] Q. Ying-Donga, C. Cheng-Songa, C. San-Benb, L. JinQuana,” A fast subpixel edge detection method using Sobel–Zernike moments operator”, Image and Vision Computing 23, 2005, pp 11–17.
Published
2011-12-12
How to Cite
Álvarez Triana, J., & Fernández Gallego, J. (2011). Image processing on Windows CE using the processor ARMv 4I. ITECKNE, 8(2), 216-222. https://doi.org/https://doi.org/10.15332/iteckne.v8i2.2738
Issue
Section
Academic Discussion Articles
