Compressed Sensing Based Apple Image Measurement Matrix Selection

• Published in: International journal of distributed sensor networks Vol. 2015; no. 7; p. 901073
• Main Authors: Xiao, Ying, Gao, Wanlin, Zhang, Ganghong, Zhang, Han
• Format: Journal Article
• Language: English
• Published: London, England Hindawi Publishing Corporation 01.01.2015; SAGE Publications; Sage Publications Ltd. (UK); Sage Publications Ltd; Hindawi - SAGE Publishing
• Subjects: Apples; Compressed; Data compression; Data processing; Detection; Efficiency; Engineering research; Fruit industry; Image processing; Image reconstruction; Methods; Quality; Reconstruction; Sampling; Sensors; Signal processing; Technology application; Theory; Transformations
• ISSN: 1550-1329; 1550-1477; 1550-1477
• DOI: 10.1155/2015/901073

The purpose of this paper is to design a measurement matrix of apple image based on compressed sensing to realize low cost sampling apple image. Compressed sensing based apple image sampling method makes a breakthrough to the limitation of the Nyquist sampling theorem. By investigating the matrix measurement signal, the method can project a higher dimensional signal to a low-dimensional space for data compression and reconstruct the original image using less observed values. But this method requires that the measurement matrix and sparse transformation base satisfy the conditions of RIP or incoherence. Real time acquiring and transmitting apple image has great importance for monitoring the growth of fruit trees and efficiently picking apple. This paper firstly chooses sym5 wavelet base as apple image sparse transformation base, and then it uses Gaussian random matrices, Bernoulli random matrices, Partial Orthogonal random matrices, Partial Hadamard matrices, and Toeplitz matrices to measure apple images, respectively. Using the same measure quantity, we select the matrix that has best reconstruction effect as the apple image measurement matrix. The reconstruction PSNR values and runtime were used to compare and contrast the simulation results. According to the experiment results, this paper selects Partial Orthogonal random matrices as apple image measurement matrix.