Geometric features extraction

摘要

Objects may be represented by various forms, but robust representations must maintain the features that describe the objects and enable analysis and decision making. As objects may not have a specific geometric description, these features may not be easy to specify. Likewise, known features about an object may be altered in the imaging process. Furthermore, if an object is to be compared with similar ones in a database, it is important that features involved in this comparison be robust (ideally invariant) to changes in scale, rotation, and translation. This chapter deals with feature definitions and characterization through feature descriptors. In the computer vision and image analysis literature, various approaches have been introduced to define, detect, and describe features. Local photometric and geometric features have proven to be very successful in applications such as object recognition, stereo matching, image retrieval, robot localization, video data mining, building panoramas, and recognition of object categories (e.g. [9.1]–[9.5]). This chapter will discuss global and local features, and how to extract corners, edges, contours or salient regions, which are among the common features used in image analysis algorithms. The chapter will describe feature detection and a number of efficient descriptors, including SIFT, ASIFT, and SURF. Good surveys of interest-point detectors and feature descriptors exist in the computer vision literature (e.g. [9.6],[9.7]).