%0 Journal Article
%T Gesture Recognition Using Neural Networks Based on HW/SW Cosimulation Platform
%A Priyanka Mekala
%A Jeffrey Fan
%A Wen-Cheng Lai
%A Ching-Wen Hsue
%J Advances in Software Engineering
%D 2013
%I Hindawi Publishing Corporation
%R 10.1155/2013/707248
%X Hardware/software (HW/SW) cosimulation integrates software simulation and hardware simulation simultaneously. Usually, HW/SW co-simulation platform is used to ease debugging and verification for very large-scale integration (VLSI) design. To accelerate the computation of the gesture recognition technique, an HW/SW implementation using field programmable gate array (FPGA) technology is presented in this paper. The major contributions of this work are: (1) a novel design of memory controller in the Verilog Hardware Description Language (Verilog HDL) to reduce memory consumption and load on the processor. (2) The testing part of the neural network algorithm is being hardwired to improve the speed and performance. The American Sign Language gesture recognition is chosen to verify the performance of the approach. Several experiments were carried out on four databases of the gestures (alphabet signs A to Z). (3) The major benefit of this design is that it takes only few milliseconds to recognize the hand gesture which makes it computationally more efficient. 1. Introduction In today¡¯s world, the field programmable gate array (FPGA) technology has advanced enough to model complex chips replacing custom application-specific integrated circuits (ASICs) and processors for signal processing and control applications. FPGAs are preferred as higher-level tools evolve to deliver the benefits of reprogrammable silicon to engineers and scientists at all levels of expertise. Taking advantage from the current FPGA technology, this paper proposes a hardware/software cosimulation methodology using hardware description language (HDL) simulations on FPGA as an effort to accelerate the simulation time and performance [1, 2]. The conventional software simulation method has more flexibility in terms of parameters variation. The desired simulation parameters can be changed to study the system behavior under various conditions. The major drawback with the conventional approach is the intolerable simulation time. On the other hand, the complete hardware-based approach can provide significant speedup in examining the system behavior, but the flexibility will be nonetheless compromised. In this paper, we attempt to leverage the merits of the software simulation and hardware emulation to retain both the flexibility and performance by adopting a HW/SW-based platform approach [1]. 2. Background/Literature Review The communication between human and machines or between people can be done using gestures called sign language [3]. The use of sign language plays an important role in the means
%U http://www.hindawi.com/journals/ase/2013/707248/