Hand Biometrics Using High Order Zernike Moments
<Contributed to MeLi Wiki by Professor George Bebis, Department of Computer Science and Engineering, University of Nevada, Reno>
Hand Biometrics
Recently, there has been increased interest in developing biometrics-based authentication systems which has led to intensive research in fingerprint, face, hand, ear, and iris recognition <refname="Biometrics"> Biometrics: http://en.wikipedia.org/wiki/Biometrics </ref>. Each biometric has its strength and weakness depending on the application and its requirements. The geometry of the hand contains relatively invariant features of an individual. Hand-based authentication is among the oldest live biometrics-based authentication modalities. The existence of several hand-based authentication commercial systems and patents indicate the effectiveness of this type of biometric.
Hand shape can be easily captured in a relatively user friendly manner by using conventional CCD cameras. This technology is more acceptable by the public in daily life mainly because it lacks a close connection to forensic applications. However, hand-based verification systems are usually employed in small scale person authentication applications due to the fact that geometric features of the hand (e.g., finger length/width, area/size of the palm) are not as distinctive as fingerprint or iris features. Lately, there has been some interest lately in fusing different biometrics to increase system performance. The ease of use and acceptability of hand-based biometrics make hand shape a good candidate in these heterogeneous systems.
The majority of hand-based verification systems use geometric measurements. In these systems, the user is asked to place his/her hand on a surface and align it, with the help of some guidance pegs, on the surface. A mirror is usually used to obtain a side view of the hand using a single camera. The alignment operation simplifies the feature extraction process to a great extent and allows high processing speeds. In most cases, a few handcrafted geometric features (e.g. length, width and height of the fingers, thickness of the hand, aspect ratio of fingers and palm, etc.) are extracted, making it possible to construct a small template. Removal of pegs, to improve convenience, and use of more powerful feature extraction techniques to capture the shape of the hand more accurately represent promising research directions in this area. In this assignment, you will investigate using high-order Zernike moments for capturing hand geometry.