Abstract: Cameras are positioned so that at least a portion of the field of view of at least one camera is redirected by a reflective surface. Images from these cameras are merged to produce a composite image while disregarding at least a portion of a camera's field of view such that there is at least one blind region in the composite field of view. Advantageously, such blind regions can be made to encompass edges of mirror surfaces that would otherwise produce image artifacts in the composite image; this can be accomplished without introducing gaps in the angular span of the composite field of view. Data representative of the composite image is stored in a memory from which it may be retrieved selectively using a control means to display a portion of the composite image. The image and control data may be transmitted over a communication network to facilitate remote control and display.

Abstract: Cameras are positioned so that they each view a different reflective surface of a polyhedron such as a pyramid. This results in each camera having a virtual optical center positioned within the pyramid. The cameras are positioned so that their virtual optical centers are offset from each other. The offsets produce narrow blind regions that remove image distortions received from the edges of the pyramid's reflective surfaces. Additionally, planar shades that extend in an outward direction are positioned in the blind regions.

Abstract: Panoramic images are displayed with referencing icons that assist the user in conceptualizing the panoramic image as an unrolled cylindrical representation of a panoramic image. Icons above and below the image indicate a cylinder by their substantially elliptical shape. The icons also include left and right extensions with reference marks that give the impression of a cylindrical surface being unrolled. As a result, a user more readily understands the relationship between objects in different parts of the panoramic image.