Disclosed herein are various embodiments related generally to computer vision, graphics, image scanning, and image processing as well as associated mechanical, electrical and electronic hardware, computer software and systems, and wired and wireless network communications to form at least three-dimensional models or images of objects and environments.

Disclosed herein are various embodiments related generally to computer vision, graphics, image scanning, and image processing as well as associated mechanical, electrical and electronic hardware, computer software and systems, and wired and wireless network communications to form at least three-dimensional models or images of objects and environments.

A furlable lamp includes a translucent flexible sheet having left and right halves, a bent spine connecting the left and right halves, an opening and a space located between the left and right halves, a supporting structure including a plurality of hollow frame pairs and a light base pair, and a light source disposed on the light base pair. The opening is gradually narrowed from a first end to a second end of the translucent flexible sheet. Each of the hollow frame pairs and light base pair, which are arranged one by one from the first end to the second end of the translucent flexible sheet, includes left and right units symmetrically fixed on the left and right halves of the sheet respectively. The furlable lamp is capable of furling and unfurling to change the shape and light-emitting effect thereof.

A portable lighting system for single-handed operation includes abase for supporting the portable lighting system, a light source positioned on the base, a traveler having a key member attached to a rotating shaft mechanism extending from the traveler, and a frame connected to the base and the traveler and enclosing the light source. The frame includes a plurality of flexible ribs attached to the base at a first end and to the traveler at a second end, a latch plate having a key opening for engaging the key member and spaced a distance from the traveler, and at least one guide track connected between the traveler and the latch plate. The traveler is movable along the guide member from a starting position toward the latch plate causing the flexible ribs to bend outwardly and the key member is configured to enter the key opening and rotate via the rotating shaft mechanism to lock the traveler from returning to the starting position on the guide track. This configures the lighting system for use.

A portable lighting system for single-handed operation includes abase for supporting the portable lighting system, a light source positioned on the base, a traveler having a key member attached to a rotating shaft mechanism extending from the traveler, and a frame connected to the base and the traveler and enclosing the light source. The frame includes a plurality of flexible ribs attached to the base at a first end and to the traveler at a second end, a latch plate having a key opening for engaging the key member and spaced a distance from the traveler, and at least one guide track connected between the traveler and the latch plate. The traveler is movable along the guide member from a starting position toward the latch plate causing the flexible ribs to bend outwardly and the key member is configured to enter the key opening and rotate via the rotating shaft mechanism to lock the traveler from returning to the starting position on the guide track. This configures the lighting system for use.

Disclosed herein are various embodiments related generally to computer vision, graphics, image scanning, and image processing as well as associated mechanical, electrical and electronic hardware, computer software and systems, and wired and wireless network communications to form at least three-dimensional models or images of objects and environments.

Disclosed herein are various embodiments related generally to computer vision, graphics, image scanning, and image processing as well as associated mechanical, electrical and electronic hardware, computer software and systems, and wired and wireless network communications to form at least three-dimensional models or images of objects and environments.

A furlable lamp includes a translucent flexible sheet having left and right halves, a bent spine connecting the left and right halves, an opening and a space located between the left and right halves, a supporting structure including a plurality of hollow frame pairs and a light base pair, and a light source disposed on the light base pair. The opening is gradually narrowed from a first end to a second end of the translucent flexible sheet. Each of the hollow frame pairs and light base pair, which are arranged one by one from the first end to the second end of the translucent flexible sheet, includes left and right units symmetrically fixed on the left and right halves of the sheet respectively. The furlable lamp is capable of furling and unfurling to change the shape and light-emitting effect thereof.

A light shade can include a top surface formed by a plurality of adjacent, alternating peak and trough folds that define intervening facets, a bottom surface disposed opposite the top surface, and an edge surface transverse to and connecting the top surface and the bottom surface. The intervening facets can each be in the shape of a triangle with adjacent triangular facets sharing an edge. The shared edge can be one of a peak fold or a trough fold. One or more of the trough folds can have a plunge between the edge surface and an opposing side of the top surface. In an implementation, the light shade can be manufactured from a unitary polymeric sheet with the bottom surface being a mirror image of the top surface.

A light shade can include a top surface formed by a plurality of adjacent, alternating peak and trough folds that define intervening facets, a bottom surface disposed opposite the top surface, and an edge surface transverse to and connecting the top surface and the bottom surface. The intervening facets can each be in the shape of a triangle with adjacent triangular facets sharing an edge. The shared edge can be one of a peak fold or a trough fold. One or more of the trough folds can have a plunge between the edge surface and an opposing side of the top surface. In an implementation, the light shade can be manufactured from a unitary polymeric sheet with the bottom surface being a mirror image of the top surface.