Abstract: A method of identifying a thermally distinguishable region in a living body is disclosed. The method comprises determining transient thermal history of a surface of the living body, and estimating a location or presence of the thermally distinguishable region in the living body based on the transient thermal history.

Abstract: A method of determining a thermal signature from thermal data associated with a body section is disclosed. The method comprises: segmenting the thermal data into a plurality of segments, and calculating a set of locations defining a contour, each location being central with respect to picture-elements associated with one segment, thereby determining the thermal signature based on the contour.

Abstract: A method of determining an internal three-dimensional thermally distinguishable region in the living body is disclosed. The method comprises obtaining a synthesized thermospatial image defined over a three-dimensional spatial representation of the living body and having thermal data arranged gridwise over a surface of the three-dimensional spatial representation in a plurality of picture-elements each represented by a intensity value over the grid. The method further comprises searching over the grid for at least one set of picture-elements represented by generally similar intensity values. For at least a few sets of picture-elements, the method defines a plurality of loci, each locus being associated with at least a pair of picture-elements of the set and defined such that each point of the locus is at equal thermal distances from individual picture-elements of the pair. The plurality of loci is used for determining the internal three-dimensional thermally distinguishable region.

Abstract: A method of analyzing a thermal image of a body section is disclosed. The method comprises obtaining a thermospatial representation of the body section, calculating a surface integral of the thermal data over the surface, and determining the likelihood that a thermally distinguishable region is present in the body section, based on a value of the surface integral.

Abstract: An imaging method comprising: receiving a spatial thermal representation of a curved body section, wherein the spatial thermal representation comprises a thermal image associated with spatial data; and generating a theoretical thermal simulation of the curved body section, wherein said generating of the theoretical thermal simulation is based on the spatial data of the representation and on predetermined thermodynamic logic of a type of the curved body section.

Abstract: A method of determining a thermal signature from thermal data associated with a body section is disclosed. The method comprises: segmenting the thermal data into a plurality of segments, and calculating a set of locations defining a contour, each location being central with respect to picture-elements associated with one segment, thereby determining the thermal signature based on the contour.

Abstract: A system for providing information related to a tissue region of a patient is provided. The system includes a user interface configured for co-displaying medical imaging information of the tissue region and visible light information of the tissue region.

Abstract: A method of determining a thermal signature from thermal data associated with a body section is disclosed. The method comprises: segmenting the thermal data into a plurality of segments, and calculating a set of locations defining a contour, each location being central with respect to picture-elements associated with one segment, thereby determining the thermal signature based on the contour.

Abstract: A method of determining an internal three-dimensional thermally distinguishable region in the living body is disclosed. The method comprises obtaining a synthesized thermospatial image defined over a three-dimensional spatial representation of the living body and having thermal data arranged gridwise over a surface of the three-dimensional spatial representation in a plurality of picture-elements each represented by a intensity value over the grid. The method further comprises searching over the grid for at least one set of picture-elements represented by generally similar intensity values. For at least a few sets of picture-elements, the method defines a plurality of loci, each locus being associated with at least a pair of picture-elements of the set and defined such that each point of the locus is at equal thermal distances from individual picture-elements of the pair. The plurality of loci is used for determining the internal three-dimensional thermally distinguishable region.

Abstract: A method of determining an internal three-dimensional thermally distinguishable region in the living body is disclosed. The method comprises obtaining a synthesized thermospatial image defined over a three-dimensional spatial representation of the living body and having thermal data arranged gridwise over a surface of the three-dimensional spatial representation in a plurality of picture-elements each represented by a intensity value over the grid. The method further comprises searching over the grid for at least one set of picture-elements represented by generally similar intensity values. For at least a few sets of picture-elements, the method defines a plurality of loci, each locus being associated with at least a pair of picture-elements of the set and defined such that each point of the locus is at equal thermal distances from individual picture-elements of the pair. The plurality of loci is used for determining the internal three-dimensional thermally distinguishable region.

Abstract: A method of analyzing a thermal image of a body section is disclosed. The method comprises obtaining a thermospatial representation of the body section, calculating a surface integral of the thermal data over the surface, and determining the likelihood that a thermally distinguishable region is present in the body section, based on a value of the surface integral.

Abstract: A system for providing information related to a tissue region of a patient is provided. The system includes a user interface configured for co-displaying medical imaging information of the tissue region and visible light information of the tissue region.

Abstract: A camera system is provided. The camera system includes an optical sensing unit which is surrounded by a camera housing and at least one temperature balancing fixture which is in thermal contact with a surface of the camera housing The temperature balancing fixture is configured for maintaining symmetrically-opposed regions on the surface of the camera housing at a substantially similar temperature.

Abstract: A method of identifying a thermally distinguishable region in a living body is disclosed. The method comprises determining transient thermal history of a surface of the living body, and estimating a location or presence of the thermally distinguishable region in the living body based on the transient thermal history.

Abstract: A method of determining an internal three-dimensional thermally distinguishable region in the living body is disclosed. The method comprises obtaining a synthesized thermospatial image defined over a three-dimensional spatial representation of the living body and having thermal data arranged gridwise over a surface of the three-dimensional spatial representation in a plurality of picture-elements each represented by a intensity value over the grid. The method further comprises searching over the grid for at least one set of picture-elements represented by generally similar intensity values. For at least a few sets of picture-elements, the method defines a plurality of loci, each locus being associated with at least a pair of picture-elements of the set and defined such that each point of the locus is at equal thermal distances from individual picture-elements of the pair. The plurality of loci is used for determining the internal three-dimensional thermally distinguishable region.