Title :
Application of deep belief networks in image semantic analysis and lossy compression for transmission
Author :
Orlowski, Tomasz
Author_Institution :
Inst. of Telecommun., Warsaw Univ. of Technol., Warsaw, Poland
Abstract :
This paper presents a method of modern deep machine learning and its application in dimension reduction and lossy compression. Deep belief networks (or DBN´s), first proposed by Yoshua Bengio, are hierarchic, stochastic, neural networks with appropriate architecture and dedicated training algorithms. They are composed of layers, each one of which is a restricted Boltzmann machine (or RBM). There exists a consistent and well formulated mathematical model describing how DBN´s work. Such adaptive systems are used to learn presented training sets with or without a supervisor. In this paper, the knowledge acquired in this manner is used to classify handwritten digits, stored in a database; then compress and shape the explored, abstract information for the transmission purposes. The experiments performed show, that recognition error of order of less than 5% can be achieved by iterative training.
Keywords :
Boltzmann machines; belief networks; data compression; image coding; iterative methods; learning (artificial intelligence); stochastic processes; RBM; Yoshua Bengio; dedicated training algorithms; deep belief network application; dimension reduction; formulated mathematical model; handwritten digits; image semantic analysis; iterative training; lossy compression; machine learning; neural networks; restricted Boltzmann machine; stochastic process; Algorithm design and analysis; Databases; Educational institutions; Monitoring; Support vector machine classification; Training; Vectors; Deep belief networks; contrastive divergence; handwriting recognition; restricted Boltzmann machines; semisupervised learning; unsupervised learninig;
Conference_Titel :
Signal Processing Symposium (SPS), 2013
Conference_Location :
Serock
DOI :
10.1109/SPS.2013.6623602
