A method includes retrieving, by a device, contextual information based on at least one of an image, the device, user context, or a combination thereof. At least one model is identified from multiple models based on the contextual information and at least one object recognized in an image based on at least one model. At least one icon is displayed at the device. The at least one icon being associated with at least one of an application, a service, or a combination thereof providing additional information.

A multi-mirror system that includes an electrically-powered, lighted mirror having a plurality of reflective surfaces and a means with which to control the intensity of the emitted light.

A multi-mirror system that includes an electrically-powered, lighted mirror having a plurality of reflective surfaces and a means with which to control the intensity of the emitted light.

A mirror for a mobile device, the mirror configured as a flexible multilayered laminate electrostatically and removably adhered to a viewing screen or other smooth surface of the mobile device. The laminate has at least one reflective layer adhered to an optically transparent bottom layer made of a plastic-silicone material. In another embodiment, the laminate includes a switchable film layer that when current is applied becomes optically opaque, allowing a split screen use of the viewing screen. For instance, when current is applied to the laminate, half of the viewing screen is a mirror and the other half allows use of software and other features of the mobile device. In yet another embodiment, a true mirror is created using software to create a reflective surface beneath a glass of the viewing screen. Control of the mirror using software and physical switches are also provided. LED lighting is also provided.

A mirror for a mobile device, the mirror configured as a flexible multilayered laminate electrostatically and removably adhered to a viewing screen or other smooth surface of the mobile device. The laminate has at least one reflective layer adhered to an optically transparent bottom layer made of a plastic-silicone material. In another embodiment, the laminate includes a switchable film layer that when current is applied becomes optically opaque, allowing a split screen use of the viewing screen. For instance, when current is applied to the laminate, half of the viewing screen is a mirror and the other half allows use of software and other features of the mobile device. In yet another embodiment, a true mirror is created using software to create a reflective surface beneath a glass of the viewing screen. Control of the mirror using software and physical switches are also provided. LED lighting is also provided.

A magnifying cosmetic mirror for use in applying cosmetics at the eye. The cosmetic mirror is constructed to have a base mirror and side mirrors extending at obtuse angles from opposite sides of the base mirror. The side mirrors are constructed as magnifying mirrors, such as spherical concave mirrors, of a focal length that provides a magnifying view of the eye when placed above the base mirror. The magnification of the side mirrors is selected according to the separation of the side mirrors from one another, and the angles at which they extend from the base mirror.

A magnifying cosmetic mirror for use in applying cosmetics at the eye. The cosmetic mirror is constructed to have a base mirror and side mirrors extending at obtuse angles from opposite sides of the base mirror. The side mirrors are constructed as magnifying mirrors, such as spherical concave mirrors, of a focal length that provides a magnifying view of the eye when placed above the base mirror. The magnification of the side mirrors is selected according to the separation of the side mirrors from one another, and the angles at which they extend from the base mirror.

A mirror system including a flat non-magnifying mirror and an inset magnifying mirror provides an installation that is aesthetically pleasing and has reduced susceptibility to damage, for installation in locations such as hotel rooms and hotel bathrooms. The magnifying mirror is inset in an aperture defined by the larger non-magnifying mirror and is either fixed in place by bonding to the edges of the aperture or using a backer, or is extendable from an extension arm that is recessed in a box that extends into a wall behind the mirror system when installed. The extension arm may be a swing arm, a telescoping arm or a scissor arm that is fastened to the back or a side of the box.

Disclosed is an invention in the field of cosmetic mirrors. The present invention particularly relates to a portable makeup mirror device comprising a first mirror, a second mirror, and a third mirror, each of varying mirror magnification factors, being supported by a freestanding frame, said makeup mirror device having the first mirror and second mirror pivoting and upwardly removed from the mirror housing in opposite directions, and once fully deployed are located on opposing sides of the mirror housing central aperture showing a third mirror fixed within the mirror housing. The freestanding frame has a base and a support member having a plurality of pivots for adjusting the base and mirror assembly.

A portable heated mirror includes a mount subassembly that includes a mount housing and a mount member that is configured to releasably attach the heated mirror to a support surface. The heated mirror also includes a mirror subassembly that is pivotally attached to the mount subassembly by a ball-in-socket arrangement. The mirror subassembly includes a mirror housing that contains a mirror and a flexible heating element in the form of a flexible heat film that contains heating elements and is secured to a rear surface of the mirror for heating the mirror when the flexible heat film is actuated. A battery power source is operatively connected to a printed circuit board that is contained within the mirror housing.