IJIGSP Vol. 7, No. 12, 8 Nov. 2015
Cover page and Table of Contents: PDF (size: 325KB)
Full Text (PDF, 325KB), PP.39-46
Views: 0 Downloads: 0
Optical sorting, Color image processing, OpenCV, Raspberry pi, Contours detection
Sorting of finished products or agriculture food has different method for ultra high speed quality inspection. Optical sorting is one of the important applications of image processing used in industries to replace manual method to verify quality of finished products or row food. Most of the systems use the computer as main processing device that perform image processing algorithms on it, such kind of system having limitations like higher cost, bigger size and large Initial boot-up time. This type of design cannot be implemented for ultra fast, higher capacity and smaller in size agricultural products like nuts, grains and pulses. Standalone image processing have embedded image processing platform that can able to overcome the limitation of computer based systems at certain level. As peanuts (Arachis hypogeal) come from farm, they are mixed with foreign material like rocks, moisture contended soil particles and outer shells of raw peanuts and they must be separated with high level of accuracy and precision. here discussed the multi channel peanut sorting algorithm that apply on raspberry pi ARM platform for peanut quality segregation by sort out foreign material as well as defective peanut like aflatoxin contaminants and fungi allergies contents from the required quality good peanuts. In paper we discuss about implementation of such a system by using conveyor belt method and image processing algorithm. Algorithm takes consider the color and size of peanut for optical peanut sorting process.
Desai Vasishth P., Arjav Bavarva,"Image Processing Method For Embedded Optical Peanut Sorting", IJIGSP, vol.7, no.12, pp.39-46, 2015. DOI: 10.5815/ijigsp.2015.12.06
[1]Lin, K., Wu, J. and Xu, L, "Separation approach for shape grading of fruits using computer vision", Transactions of The Chinese Society, 2011.
[2]S. R. Choudhari and Dr. D. V. Padole, "Design of colour sorter system by using arm processor", Nagpur International Journal of Computing and Technology, Volume 1, 2014.
[3]F. E. Dowell, W. Robert, "UV, VIS and NIR Properties of peanuts", National Peanuts Research Laboratory, Georgia, USA, 1993.
[4]G. Senthilkumar, K. Gopalakrishnan and S. Kumar, "Embedded Image Capturing System Using Raspberry Pi System", Bharath University, Chennai, India, 2014.
[5]S. Prasad, P. Mahalakshmi, A. John and R. Swathi, "Smart Surveillance Monitoring System Using Raspberry PI and PIR Sensor", International Journal of Computer Science and Information Technologies, Vol. 5, 2014.
[6]J. K. Tang and Prof. V. Patel, "Edge detect using different algorithm on Raspberry pi", international Journal for Scientific Research & Development, Vol. 1, Issue 4.
[7]Swapna D. Pahade, Ajay D. Jadhav and Poorva Waingankar, "Low Bit Rate Video Coding Implementation on Low Cost Low Performance DSP Processor", Department of Electronics & Communication Engg. Sinhgad college of Engineering, Pune, 2013.
[8]J. A. Thomasson, R. Sui, G. C. Wright, A. J. Robson, "Optical Peanut Yield Monitor: Development and Testing", American Society of Agricultural and Biological Engineers, 2006.
[9]Snjay Singh, Anil Kumar, Ravi Saini, "Real time FPGA based implementation of color image edge detection", International journal for image, graphics and signal processing , November 2012.
[10]Hong Chen, Jing Wang, Qiaoxia Yuan and Peng Wan "Quality classification of peanuts based on image processing", Huazhong Agricultural University, Wuhan, china, 2011.
[11]Clement Farabet, Berin Martini and Polina Akselrod "Bio- Inspired Vision Processor for Ultra-Fast Object Categorization", Yale University, New Haven, USA.
[12]Yu-Bin Zhou and Yu-Ning Yang, "Real-time Multi-channel Vision Processing Based on DSP & FPGA", Shanghai University of Science and Technology, Shanghai, China, January 2012.
[13]Hossain Hajimowlana "Compact Web Manufacturing Process Defect-Detection System Uses a Camera and ADI Blackfin® Processor", Analog Devices, May 2003.
[14]Jon Holton and Tim Fratangelo "Raspberry Pi Architecture", Raspberry Pi Foundation, London, UK, 2012.
[15]Md. Rokunuzzaman and H. P.W. Jayasuriya, "Development of a low cost machine vision system for sorting of tomatoes" Nagoya University, Nagoya, Japan, March 2013.