There is disclosed a flexible panel, including (i) a fluorescent layer; (ii) an electroluminescent panel layer arranged to illuminate the fluorescent layer; (iii) an ultraviolet protection layer, transparent to visible light, arranged on a front face of the flexible panel to protect the fluorescent layer, and (iv) an adhesive layer; wherein the adhesive layer is arranged on a rear face of the flexible panel, such that the flexible panel is attachable to a surface. There are further disclosed related systems including such flexible panels and a power supply for the flexible panel; objects including such systems; related kits of parts; related methods of assembly; related methods of connection; and connector systems suitable for connecting such flexible panels to a power supply for the flexible panel.

There is disclosed a flexible panel, including (i) a fluorescent layer; (ii) an electroluminescent panel layer arranged to illuminate the fluorescent layer; (iii) an ultraviolet protection layer, transparent to visible light, arranged on a front face of the flexible panel to protect the fluorescent layer, and (iv) an adhesive layer; wherein the adhesive layer is arranged on a rear face of the flexible panel, such that the flexible panel is attachable to a surface. There are further disclosed related systems including such flexible panels and a power supply for the flexible panel; objects including such systems; related kits of parts; related methods of assembly; related methods of connection; and connector systems suitable for connecting such flexible panels to a power supply for the flexible panel.

A self-driving vehicle with an external advertising platform, such as video display signage, designed to provide on-demand video ever-changing advertising. The audiences of such advertisements would include those individuals that were in proximity to the self-driving vehicle as it traversed a geographic area. A large fleet of such self-driving vehicles could constantly move between targeted areas, including suburban neighborhoods to reach a maximum audience, without the need of a human operator.

A protective motor cover assembly includes a cylinder that is positionable over an outboard boat motor. The cylinder is comprised of a resiliently stretchable material to conform to contours of the outboard boat motor. The cylinder is comprised of an opaque material to protect the outboard boat motor from sunlight. Indicia are printed thereon on the cylinder to enhance the ornamental appearance of the outboard boat motor. A drawstring is slidably integrated into the cylinder. The drawstring closes the cylinder around the outboard boat motor when the drawstring is tightened for retaining the cylinder around the outboard boat motor.

A system for capturing and analyzing first-party data of a user. The user's first party data is received from a mobile software application and a self-driving vehicle equipped with digital content screens and intelligent sensors for capturing data. The data source shared between the vehicle and the software application would be owned by the same provider. Privacy concerns surrounding user data would be minimal because the provider would have exact sources for the data and approved usage rights directly from the user. The user first-party data will give the provider improved insights into that consumer's interests and needs, allowing the provider to provide digital content to the user personalized digital content on the digital content screens of the self-driving vehicle. The data collected from the user in or near the self-driving vehicle may be used to target the user on the provider websites, social media, or the mobile software application.

A protective motor cover assembly includes a cylinder that is positionable over an outboard boat motor. The cylinder is comprised of a resiliently stretchable material to conform to contours of the outboard boat motor. The cylinder is comprised of an opaque material to protect the outboard boat motor from sunlight. Indicia are printed thereon on the cylinder to enhance the ornamental appearance of the outboard boat motor. A drawstring is slidably integrated into the cylinder. The drawstring closes the cylinder around the outboard boat motor when the drawstring is tightened for retaining the cylinder around the outboard boat motor.

A process of printing an image or images on the sails of a watercraft or other wind powered objects without altering or compromising the efficacy of the sails is described. The process employs a method of printing large-scale, single or multiple panel, continuous, high-resolution photographic and graphic images on wind-catching fabrics. The dynamics and curvatures of a sail are integrated into the manufacturing process when employed for sails, though the process may be applied to any large-scaled fabric print. The process of the present invention produces printed sails providing for the highest resolution photographic, art, and graphic printing with virtually no weight gain, nor effect on the sail's original performance. Modern equipment is employed to achieve printing of realistic, high quality images directly on to the fabric of sails without compromising flexibility or durability, as well as without infringing on the speed and agility of the sailing craft.

A process of printing an image or images on the sails of a watercraft or other wind powered objects without altering or compromising the efficacy of the sails is described. The process employs a method of printing large-scale, single or multiple panel, continuous, high-resolution photographic and graphic images on wind-catching fabrics. The dynamics and curvatures of a sail are integrated into the manufacturing process when employed for sails, though the process may be applied to any large-scaled fabric print. The process of the present invention produces printed sails providing for the highest resolution photographic, art, and graphic printing with virtually no weight gain, nor effect on the sail's original performance. Modern equipment is employed to achieve printing of realistic, high quality images directly on to the fabric of sails without compromising flexibility or durability, as well as without infringing on the speed and agility of the sailing craft.

A process of printing an image or images on the sails of a watercraft or other wind powered objects without altering or compromising the efficacy of the sails is described. The process employs a method of printing large-scale, single or multiple panel, continuous, high-resolution photographic and graphic images on wind-catching fabrics. The dynamics and curvatures of a sail are integrated into the manufacturing process when employed for sails, though the process may be applied to any large-scaled fabric print. The process of the present invention produces printed sails providing for the highest resolution photographic, art, and graphic printing with virtually no weight gain, nor effect on the sail's original performance. Modern equipment is employed to achieve printing of realistic, high quality images directly on to the fabric of sails without compromising flexibility or durability, as well as without infringing on the speed and agility of the sailing craft.

A process of printing an image or images on the sails of a watercraft or other wind powered objects without altering or compromising the efficacy of the sails is described. The process employs a method of printing large-scale, single or multiple panel, continuous, high-resolution photographic and graphic images on wind-catching fabrics. The dynamics and curvatures of a sail are integrated into the manufacturing process when employed for sails, though the process may be applied to any large-scaled fabric print. The process of the present invention produces printed sails providing for the highest resolution photographic, art, and graphic printing with virtually no weight gain, nor effect on the sail's original performance. Modern equipment is employed to achieve printing of realistic, high quality images directly on to the fabric of sails without compromising flexibility or durability, as well as without infringing on the speed and agility of the sailing craft.