A device and method for three-dimensional (3-D) imaging using a defocusing technique is disclosed. The device comprises a lens, a central aperture located along an optical axis for projecting an entire image of a target object, at least one defocusing aperture located off of the optical axis, a sensor operable for capturing electromagnetic radiation transmitted from an object through the lens and the central aperture and the at least one defocusing aperture, and a processor communicatively connected with the sensor for processing the sensor information and producing a 3-D image of the object. Different optical filters can be used for the central aperture and the defocusing apertures respectively, whereby a background image produced by the central aperture can be easily distinguished from defocused images produced by the defocusing apertures.

A device and method for three-dimensional (3-D) imaging using a defocusing technique is disclosed. The device comprises a lens, a central aperture located along an optical axis for projecting an entire image of a target object, at least one defocusing aperture located off of the optical axis, a sensor operable for capturing electromagnetic radiation transmitted from an object through the lens and the central aperture and the at least one defocusing aperture, and a processor communicatively connected with the sensor for processing the sensor information and producing a 3-D image of the object. Different optical filters can be used for the central aperture and the defocusing apertures respectively, whereby a background image produced by the central aperture can be easily distinguished from defocused images produced by the defocusing apertures.

An example kiosk for accepting a portable electronic device from a client in exchange for payment, associated method and systems are described. The kiosk may include at least one display, an imaging chamber that includes at least one camera and one or more mirrors fixedly-arranged to capture images of a portable electronic device, at least one communication connection to a remote server and/or operator, and at least one computer. The computer may be configured to, in conjunction with the remote server and/or operator, capture one or more images of the portable electronic device in the imaging chamber while said at least one camera and said mirrors remain in unchanged positions. The computer may also transmit the captured images to the remote server and/or operator, receive an acceptance of the offered payment amount based upon an offered payment amount for the portable electronic device received from the remote server and/or operator, and provide for secure deposit of the portable device in the kiosk.

An example kiosk for accepting a portable electronic device from a client in exchange for payment, associated method and systems are described. The kiosk may include at least one display, an imaging chamber that includes at least one camera and one or more mirrors fixedly-arranged to capture images of a portable electronic device, at least one communication connection to a remote server and/or operator, and at least one computer. The computer may be configured to, in conjunction with the remote server and/or operator, capture one or more images of the portable electronic device in the imaging chamber while said at least one camera and said mirrors remain in unchanged positions. The computer may also transmit the captured images to the remote server and/or operator, receive an acceptance of the offered payment amount based upon an offered payment amount for the portable electronic device received from the remote server and/or operator, and provide for secure deposit of the portable device in the kiosk.

An example kiosk for accepting a portable electronic device from a client in exchange for payment, associated method and systems are described. The kiosk may include at least one display, an imaging chamber that includes at least one camera and one or more mirrors fixedly-arranged to capture images of a portable electronic device, at least one communication connection to a remote server and/or operator, and at least one computer. The computer may be configured to, in conjunction with the remote server and/or operator, capture one or more images of the portable electronic device in the imaging chamber while said at least one camera and said mirrors remain in unchanged positions. The computer may also transmit the captured images to the remote server and/or operator, receive an acceptance of the offered payment amount based upon an offered payment amount for the portable electronic device received from the remote server and/or operator, and provide for secure deposit of the portable device in the kiosk.

A photo terminal stand system is provided having a case, a one-way mirror, a computer display for presenting a graphical presentation seen through the one-way mirror, a camera, a touch overlay frame, a computer, configured to receive touch input from the touch overlay frame and responsively to activate the camera to record an image or a video sequence, a camera flash, and at least one of a reflector, a wheel bumper brake, and a service step ladder.

A photo terminal stand system is provided having a case, a one-way mirror, a computer display for presenting a graphical presentation seen through the one-way mirror, a camera, a touch overlay frame, a computer, configured to receive touch input from the touch overlay frame and responsively to activate the camera to record an image or a video sequence, a camera flash, and at least one of a reflector, a wheel bumper brake, and a service step ladder.

An example kiosk for accepting a portable electronic device from a client in exchange for payment, associated method and systems are described. The kiosk may include at least one display, an imaging chamber that includes at least one camera and one or more mirrors fixedly-arranged to capture images of a portable electronic device, at least one communication connection to a remote server and/or operator, and at least one computer. The computer may be configured to, in conjunction with the remote server and/or operator, capture one or more images of the portable electronic device in the imaging chamber while said at least one camera and said mirrors remain in unchanged positions. The computer may also transmit the captured images to the remote server and/or operator, receive an acceptance of the offered payment amount based upon an offered payment amount for the portable electronic device received from the remote server and/or operator, and provide for secure deposit of the portable device in the kiosk.

A variable-volume enclosure that enables the photographing, from outside the enclosure, of highly reflective, objects placed in the enclosure without the reflections of things in the environment surrounding the enclosure being seen in the objects includes: (a) a translucent, planar base, (b) a pliable, two-way mirror that is configured so that, when its opposing edges are brought towards one another, the mirror's central portion bends upward to create a temporary enclosed region of the enclosure, (c) an attachment mechanism for fixedly attaching said one of the mirror's edges to the base's top surface, (d) an adjustable attachment mechanism that temporarily and adjustably attaches the mirror's other edge to the base's top surface, (e) a translucent covering which is adjustably attached to a mirror end.

A variable-volume enclosure that enables the photographing, from outside the enclosure, of highly reflective, objects placed in the enclosure without the reflections of things in the environment surrounding the enclosure being seen in the objects includes: (a) a translucent, planar base, (b) a pliable, two-way mirror that is configured so that, when its opposing edges are brought towards one another, the mirror's central portion bends upward to create a temporary enclosed region of the enclosure, (c) an attachment mechanism for fixedly attaching said one of the mirror's edges to the base's top surface, (d) an adjustable attachment mechanism that temporarily and adjustably attaches the mirror's other edge to the base's top surface, (e) a translucent covering which is adjustably attached to a mirror end.