Difference between revisions of "Projects:2014s2-79 FPGA-base Hardware Iimplementation of Machine-Learning Methods for Handwriting and Speech Recognition"
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=== Machine learning === | === Machine learning === | ||
Machine learning is the method that the people build the optimistic construction and algorithms on the machine in order to help it learn from and make predictions on data. | Machine learning is the method that the people build the optimistic construction and algorithms on the machine in order to help it learn from and make predictions on data. | ||
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=== Artificial neural network === | === Artificial neural network === | ||
Artificial neural network(ANN) inspired by the sophisticated functionality of human brains where hundreds of billions of interconnected neurons process information in parallel, researchers have successfully tried demonstrating certain levels of intelligence on silicon | Artificial neural network(ANN) inspired by the sophisticated functionality of human brains where hundreds of billions of interconnected neurons process information in parallel, researchers have successfully tried demonstrating certain levels of intelligence on silicon |
Revision as of 17:27, 4 June 2015
Contents
introduction
Automatic (machine) recognition, description, classification, and image processing are important problems in a variety of engineering and scientific disciplines such as biology, psychology, medicine, marketing, computer vision, artificial intelligence, and remote sensing [1]. Handwriting recognition is the ability of the machines that receive and interpret intelligible handwritten input from the sources such as hand-pad, photos and other devices. Neural network is the most commonly way people used to realize the pattern classification tasks and image recognition. Generally, handwriting recognition system is implemented using software technology. However, the speed of software-based implementation is not fast enough for people, and software-based implementation relies the computer which is not suitable for somewhere that high portability is need [2]. FPGA-based handwriting recognition implementation is a good way that can solve the problem very well. FPGA are the construction of programmable logic, which are not only erasable and flexible for design and realize the algorithm like the software, but also have a great speed to operate some kind of algorithm especially running parallel algorithm due to FPGA has parallel execution ability.
Motivation
Nowadays, the technologies of handwriting and speech recognition are used widely in people daily life such as Siri, Hollow Google (the speech recognition system on smart phone) and over 90% portable devices have handwriting recognition function. It can be seen that people enjoyed the writing progress but distressed on the error result. Although the recognition rate on today is much better than many years ago, but it is still cannot satisfy people’s want. Fortunately, with the combination algorithms, clever use of modern computing power, and availability of very big training datasets, benchmarks on accuracy and efficiency for automatic recognition of handwriting and speech will frequently being surpassed.
Background
Handwriting input
Handwriting data is converted to digital form either by scanning the writing on paper or by writing with a special pen on an electronic surface such as a digitizer combined with a liquid crystal display
Machine learning
Machine learning is the method that the people build the optimistic construction and algorithms on the machine in order to help it learn from and make predictions on data.
Artificial neural network
Artificial neural network(ANN) inspired by the sophisticated functionality of human brains where hundreds of billions of interconnected neurons process information in parallel, researchers have successfully tried demonstrating certain levels of intelligence on silicon Artificial neural networks are structures include basic elements, the neurons, connected in the networks with massive parallelism that can greatly benefit from hardware implementation. Generally, it has three layers-input, hidden and output layers. The data come through the input go into the system, after computing in the hidden layer, and then result coming out at the output layer .
FPGA
A field-programmable gate array (FPGA) is an integrated circuit designed which the customer or the designer can configure after manufacturing – hence "field-programmable". The designers usually use hardware description language (HDL) to realize the configuration, similar to that used for an application-specific integrated circuit (ASIC)
Simulink & System generator
Simulink is a block diagram environment for multidomain simulation and Model-Based Design. It supports simulation, automatic code generation, and continuous test and verification of embedded systems
System generator is a digital signal processor (DSP) design tool from Xilinx that enables the use of the Mathworks model-based Simulink design environment for FPGA design.
Designs are captured in the DSP friendly Simulink modeling environment using a Xilinx specific blockset. All of the downstream FPGA implementation steps including synthesis and place and route are automatically performed to generate an FPGA programming file
Algorithm
MNIST database
The MNIST database (Mixed National Institute of Standards and Technology database) is a large database of handwritten digits that is commonly used for training and testing in the field of machine learning. The MNIST database of handwritten digits has a training set of 60,000 examples, and a test set of 10,000 examples, each image transform to 28*28 pixels. It is a subset of a larger set available from NIST. The digits have been size-normalized and centered in a fixed-size image