This review analyses the different gesture recognition systems through a timeline, showing the different types of technology, and specifying which are the most important features and their achieved recognition rates. At the end of the review, Leap Motion sensor possibilities are described in detail, in order to consider its application on the field of sign language. This device has many positive characteristics that make it a good option for sign language. One of the most important conclusions is the ability of the Leap Motion sensor to provide 3D information from the hands for due identification.
The Coordinate Rotation Digital Computer algorithm (CORDIC) is a simple mechanism to compute a set of elementary functions, such as trigonometric functions, using fixed-point devices. It is widely adopted, also in applications running in harsh environments such as space, where radiation is a cause of errors in nanoelectronic devices. A single event upset in a configuration bit of a Field Programmable Gate Array (FPGA) can completely change the behavior of the implemented circuit, so it is important to detect and reconfigure the FPGA when this happens. Dual modular redundancy is the typical method to detect errors in electronic circuits, but it has an important overhead in area and power consumption and it does not provide any additional functionality apart from the activation of the FPGA reconfiguration trigger in presence of error. This paper presents two ad-hoc techniques to protect the Digital Direct Synthesizer with CORDIC when it is implemented into an FPGA, with limited overhead in terms of area and power consumption when compared with the traditional solution. The first solution slightly increases the percentage of undetected errors, about 11%, reducing to almost half the area overhead of the circuit. The second solution introduces a trade-off between the percentage of error detection and the precision of the trigonometric output of the CORDIC by means of a polymorphic structure with lower area resources than the existing solutions. This last proposal allows the system to increase the precision of the digital synthesis signal under absence of errors or to activate the error protection in scenarios with external disturbances such as radiation.
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