摘要:
Separable units comprising plenoptic cameras and eye ports can be attached to either the smart phone or to the eyeglasses by a mating surface. These separable units can be wireless coupled to a remote device, to a remote display, to other separable plenoptic cameras, or to other eyeglasses. The separable units can be mated to an eyeglass and positioned over the eye or eyes of the user. In addition, these separable cameras can be electrically wired through the mating device. The cameras can be placed at various distances apart from another offers greater flexibility in analyzing the depth of images. These images from these cameras are shared within the system. The smart phone can be in wireless contact with a remote system comprising another server, the Internet, another smart phone, another camera system, or the camera mounted on the eyeglass.
摘要:
An apparatus is described that allows a table to be turned upside down so that a toddler can use the upright legs as grips and the horizontal cross support beams as obstacles to master the art of stepping over this obstacle height of the cross support beams. Once the art of stepping is mastered, the table is flipped upright to function as a table again. Several adjustments are added to a table so that the height of the cross support beams and length of the legs can be adjusted to provide a range of mastering possibilities when in the upside down position. When flipped upright, the surface of the table can have adjustable to have uniform height or a top that slants.
摘要:
An involuntary action adjusted by the accommodation of the crystalline lens of the eye provides the data to the embedded algorithm to get the new image. Instead of the user performing a voluntary action to control the embedded algorithm, an involuntary action by the user is used to control the embedded algorithm allowing the user to automatically adjust the Plane of Depth (POD) for a Light Field Photograph (LFP) image or an eyeglass image. The adjustment of eyeglass image is used by an accommodation system to control the mechanical system of lenses in an eyeglass to automatically focus the glasses over a range of PODs. In addition, a voluntary far/near button can be used manually to adjust the POD for both the LFP image and the eyeglass adjustment. The variation of the crystalline thickness to adjust the focus of nearby and distant objects is called accommodation.
摘要:
An apparatus is described that allows a table to be turned upside down so that a toddler can use the upright legs as grips and the horizontal cross support beams as obstacles to master the art of stepping over this obstacle height of the cross support beams. Once the art of stepping is mastered, the table is flipped upright to function as a table again. Several adjustments are added to a table so that the height of the cross support beams and length of the legs can be adjusted to provide a range of mastering possibilities when in the upside down position. When flipped upright, the surface of the table can have adjustable to have uniform height or a top that slants.
摘要:
Plenoptic cameras and eye ports are separable units and can be attached to either the smart phone or to the eyeglasses by a mating surface. These separable units can be wireless coupled to a remote device, to a remote display, to other separable plenoptic cameras, or to other eyeglasses. The separable units can be mated to an eyeglass and positioned over the eye or eyes of the user. In addition, these separable cameras can be electrically wired through the mating device. The cameras can be separated and placed at various distances apart from one another to offer greater flexibility in analyzing the depth of images. These images from these cameras are shared within the system. The smart phone can be in wireless contact with a remote system. The remote system can be another server, the Internet, another smart phone, another camera system, or the camera mounted on the eyeglass.
摘要:
An involuntary action adjusted by the accommodation of the crystalline lens of the eye provides the data to the embedded algorithm to get the new image. Instead of the user performing a voluntary action to control the embedded algorithm, an involuntary action by the user is used to control the embedded algorithm allowing the user to automatically adjust the Plane of Depth (POD) for a Light Field Photograph (LFP) image or an eyeglass image. The adjustment of eyeglass image is used by an accommodation system to control the mechanical system of lenses in an eyeglass to automatically focus the glasses over a range of PODs. In addition, a voluntary far/near button can be used manually to adjust the POD for both the LFP image and the eyeglass adjustment. The variation of the crystalline thickness to adjust the focus of nearby and distant objects is called accommodation.
摘要:
Long and short distance 3-D images can be shared between users. The first user takes an image or video of an object using a plenoptic camera. The user can focus the original image using the crystalline lens measuring unit to any POD automatically or manually adjust the focus using a far/near button. In addition, the user can send the original image to a second user or guest. The first and second users can perform a process to align their accommodation information versus the function of the POD. The first user can view the original image and their crystalline lens measuring unit can determine the POD being viewed setting the accommodation value or do so manually using the far/near button The accommodation value is sent to the second user who translates the first user's accommodation value into their accommodation value and observes the final image being perceived by the first user.
摘要:
Two cameras forming a 3-D camera system are used to project the key pattern of the plane from the displayed keyboard of a small display of a smartphone to that of a larger initialization plane of a virtual keyboard which is displaced in a parallel plane and increased in size from the displayed keyboard plane. The displayed keyboard is located on a screen of the display screen of the smartphone. The angular variation of the finger's position from the displayed keyboard plane based on the camera image indicates the keyboard character being depressed. Plenoptic cameras can also be used. The displacement distance or baseline of the plenoptic cameras is advantageous to increase. Highlighting the keys on the displayed keyboard when the fingers are in the initialization plane or activation plane of a virtual keyboard either by color, shading, or any other visual means provides positive feedback to the user.