The Hit or Miss Transform (HMT) is a well known morphological technique which can be used for shape and object recognition in digital image processing. The standard HMT is a particularly powerful tool for locating objects which are noise free in both the background and foreground regions, do not exhibit internal texture and where objects have well defined edges. Often for various reasons, objects of interest do not exhibit such qualities and as a result may not be detected by the standard HMT. This paper proposes a percentage occupancy based Hit or Miss Transform for the detection of objects subject to noisy edges, internal texture, holes and non homogeneous intensit
The paper presents an highly selective algorithm for detecting extended and almost rectilinear shape...
International audienceThe hit-or-miss transform (HMT) is a fundamental operation on binary images, w...
We present a new shape recognition algorithm for binary images based on the morphological approach. ...
peer reviewedThe Hit or Miss Transform (HMT) is a well known morphological technique which can be us...
The Hit or Miss Transform (HMT) is a well known morphological technique which can be used for shape ...
The Hit-or-Miss transform (HMT) is a well known morphological transform capable of identifying featu...
The Hit-or-Miss Transform (HMT) is a well known morphological transform that is capable of identifyi...
The work presented in this thesis focuses on extending a transform from Mathematical Morphology, kno...
The Hit-or-Miss Transform (HMT) is a well known morphological transform which can be used for templa...
This paper describes an identification of specific shapes within binary images using the morphologic...
The extension of Mathematical Morphology to colour and multivariate images is challenging due to the...
International audienceThe Hit or Miss Transform is a fundamental morphological operator, and can be ...
The Hit-or-Miss Transform (HMT) is a powerful morphological operation that can be utilised in many d...
ISBN : 978-3-642-17687-6International audienceThe Hit-or-Miss transform (HMT) is a well-known morpho...
The Hit-or-Miss Transform (HMT) is a morphological transform which can be used for template matching...
The paper presents an highly selective algorithm for detecting extended and almost rectilinear shape...
International audienceThe hit-or-miss transform (HMT) is a fundamental operation on binary images, w...
We present a new shape recognition algorithm for binary images based on the morphological approach. ...
peer reviewedThe Hit or Miss Transform (HMT) is a well known morphological technique which can be us...
The Hit or Miss Transform (HMT) is a well known morphological technique which can be used for shape ...
The Hit-or-Miss transform (HMT) is a well known morphological transform capable of identifying featu...
The Hit-or-Miss Transform (HMT) is a well known morphological transform that is capable of identifyi...
The work presented in this thesis focuses on extending a transform from Mathematical Morphology, kno...
The Hit-or-Miss Transform (HMT) is a well known morphological transform which can be used for templa...
This paper describes an identification of specific shapes within binary images using the morphologic...
The extension of Mathematical Morphology to colour and multivariate images is challenging due to the...
International audienceThe Hit or Miss Transform is a fundamental morphological operator, and can be ...
The Hit-or-Miss Transform (HMT) is a powerful morphological operation that can be utilised in many d...
ISBN : 978-3-642-17687-6International audienceThe Hit-or-Miss transform (HMT) is a well-known morpho...
The Hit-or-Miss Transform (HMT) is a morphological transform which can be used for template matching...
The paper presents an highly selective algorithm for detecting extended and almost rectilinear shape...
International audienceThe hit-or-miss transform (HMT) is a fundamental operation on binary images, w...
We present a new shape recognition algorithm for binary images based on the morphological approach. ...