The technology disclosed relates to enhancing the fields of view of one or more cameras of a gesture recognition system for augmenting the three-dimensional (3D) sensory space of the gesture recognition system. The augmented 3D sensory space allows for inclusion of previously uncaptured of regions and points for which gestures can be interpreted i.e. blind spots of the cameras of the gesture recognition system. Some examples of such blind spots include areas underneath the cameras and/or within 20-85 degrees of a tangential axis of the cameras. In particular, the technology disclosed uses a Fresnel prismatic element and/or a triangular prism element to redirect the optical axis of the cameras, giving the cameras fields of view that cover at least 45 to 80 degrees from tangential to the vertical axis of a display screen on which the cameras are mounted.

Systems involve a case assembly including a base, a first side extending from the base, and a stand assembly including an elongated member having an elongated cavity, and a base extending from the elongated member. The stand assembly is rotatably coupled with the case assembly so that the stand assembly is rotatable between a first rotational position and a second rotational position so that the elongated cavity is covered by the case assembly when the stand assembly is in the first rotational position, and so that the elongated cavity is at least partially uncovered from the case assembly when the stand assembly is in the second rotational position. Other aspects are described in the claims, drawings, and text forming a part of the present disclosure.

Provided is an enclosure for protection of a wireless communication device positioned at an opening formed to a wall of a room, the enclosure including a frame part configured to form a space that receives the wireless communication device, a mount mounted to the frame part and configured to position the wireless communication device so that an antenna of the wireless communication device faces an inside of the room, and a sealing part included in or connected to the frame part and configured to surround the wireless communication device so that the wireless communication device is not exposed to the inside of the room.

An electronic device case particularly useful for tablets and cell phones. The device case has a sidewall with an overhanging wall that properly positions the electronic device adjacent to a back wall for efficient wireless charging. A solar cell is affixed to the back wall and faces outwardly of the case. An inverter is directly connected to the solar cell and is for converging direct current from the solar cell into alternating current upon light being received onto the solar cell. An inductive coil is directly connected to the inverter so that the inductive coil provides an alternating magnetic field upon light being received onto the solar cell. No battery is required within the device case and it relies solely on power from the solar cell.

A case includes: a first base coupled to a portion of an electronic device; a second base including a first surface and a second surface opposite the first surface; a first support part which is rotatably coupled to the second base, and movable parallel to the second surface by rotating in a first rotation direction, or movable to be inclined with respect to the second surface by rotating in a second rotation direction opposite the first rotation direction; and a second support part which is coupled to the second base to be rotatable independently of the first support part, and movable parallel to the second surface by rotating in the second rotation direction, or movable to support the side surface of the electronic device disposed on the first surface by rotating in the first rotation direction.

A case for a smart phone includes a shade portion hingeably attached an edge of the case such that the shade can be rotated from a stowed position in which the shade is flat against the back side of the case to a variety of shading positions in which the shade is angled over the front side of the case to provide shading for a display screen of a smart phone in the case. The shade may be positioned and secured at several different angles and may include a closable window or opening that is aligned with a camera port when the shade is in the stowed position. In this way, a camera of a phone in the case will not be blocked when the shade is in the stowed positioned while the opening can be closed so that the shade will provide full shade when in a shading position.

The invention pertains to a mounting system for a tablet comprising: a frame member; a back plate which is partially surrounded by the frame member, wherein the frame member and the back plate define a receiving space for the tablet on an inner side of the frame member; a guide which extends at least partially on the inner side of the frame member and is formed for insertion and receiving of the tablet in the receiving space; a rigid cover plate which is detachably connected to the back plate and at least partially covers the receiving space; and a covering layer made of leather, imitation leather or non-woven fabric, which at least partially covers the rigid cover plate on a side facing away from the back plate and which is firmly connected to the rigid cover plate.

A clamshell-style laptop case with a foldable shade assembly that, when expanded, shades and protects a laptop that's placed within the opened case. A shade assembly, positioned within the interior of the clamshell case, includes a visor panel, side panels, a rear panel, and lower panel. When the case is opened, the shade assembly can be expanded from its collapsed position by lifting the visor panel upward as it rotates along a hinge connecting it to the rear panel, while the side panels simultaneously expand from a folded position. The side panels remain permanently attached to the shade assembly, reducing the steps required to expand and collapse the shade assembly. The shade assembly may incorporate a friction hinge connecting the shade assembly's lower panel and rear panel which enables the rear panel to rotate greater than 90 degrees to the lower panel, providing improved functionality and accessibility during use.

A system includes an electronic apparatus and a cover. The electronic apparatus include: a front surface provided with a display; control parts protruding from the front surface; a back surface opposite to the front surface; a first and second magnetic member provided at edge parts on the front surface side and the back surface side. The back surface has a shape bulging out to a back. The cover includes: a third magnetic member attracted to the first and second magnetic members, and is configured to be attachable to the front and back surfaces of the electronic apparatus by the magnetic members. The cover includes an outer surface which is exposed when the cover is attached to the front or back surface and an inner surface facing the front surface when the cover is attached to the front surface. The inner surface has a shape bulging out in the outer surface direction.

A cradle for a mobile device includes a cradle base defining a docking button indentation having an indentation perimeter for receiving a docking button disposed on, or coupled to, a back surface of the mobile device or of a case containing the mobile device, the docking button having a lateral cross-sectional shape complementary to the indentation perimeter; a bottom device receiver coupled to the cradle base, the bottom device receiver including electrical contacts for making contact with contacts on the mobile device or the case containing the mobile device; and a latch coupled to the cradle base and manually moveable between a latched position and an unlatched position, wherein, in the latched position, the latch directly engages the docking button and, in the unlatched position, the latch disengages from, or is not engage with, the docking button to permit loading or unloading of the mobile device on the cradle.