A mobile device mounting system includes a device case and a mount. The device case includes: an insert including a rectangular bore and defining a set of undercut sections about the rectangular bore; and a first set of magnetic elements arranged in a first pattern about the rectangular bore. The mount includes: a body; a polygonal boss extending from the body and configured to insert into the rectangular bore; a set of locking jaws arranged on the polygonal boss configured to transiently mate with the set of undercut sections to constrain the polygonal boss within the rectangular bore; and a second set of magnetic elements arranged in a second pattern about the polygonal boss and configured to transiently couple to the first set of magnetic elements to transiently retain the mount against the device case and to drive the set of locking jaws toward the set of undercut sections.

A method of inspection or maintenance of a curved ferromagnetic surface using an unmanned aerial vehicle (UAV) having a releasable crawler is provided. The method includes: flying the UAV from an initial position to a pre-perching position in a vicinity of the ferromagnetic surface; autonomously perching the UAV on the ferromagnetic surface; maintaining magnetic attachment of the perched UAV to the ferromagnetic surface; releasing the crawler from the magnetically attached UAV onto the ferromagnetic surface; moving the crawler over the curved ferromagnetic surface while maintaining magnetic attachment of the released crawler to the ferromagnetic surface; inspecting or maintaining the ferromagnetic surface using the magnetically attached crawler; and re-docking the released crawler with the perched UAV.

A mobile device mounting system includes a device case and a mount. The device case includes: an insert including a rectangular bore and defining a set of undercut sections about the rectangular bore; and a first set of magnetic elements arranged in a first pattern about the rectangular bore. The mount includes: a body; a polygonal boss extending from the body and configured to insert into the rectangular bore; a set of locking jaws arranged on the polygonal boss configured to transiently mate with the set of undercut sections to constrain the polygonal boss within the rectangular bore; and a second set of magnetic elements arranged in a second pattern about the polygonal boss and configured to transiently couple to the first set of magnetic elements to transiently retain the mount against the device case and to drive the set of locking jaws toward the set of undercut sections.

An accessory mounting fixture for a vehicle is provided. The accessory mounting fixture includes a fixture body connectable to a vehicle surface and having a substantially U-shape defining a frontal opening and adapted to receive an accessory portion. The accessory mounting fixture also includes a locking assembly adapted to selectively secure the accessory portion within the frontal opening. The locking assembly has a first lock member pivotally connected to the fixture body on a first side of the frontal opening and a second lock member pivotally connected to the fixture body on the second side of the frontal opening. The first and second locking members are operable between a closed position for confining the accessory portion within the frontal opening, and an open configuration. Positioning the first and second lock members in the closed position secures the accessory portion within the frontal opening.

A grip assembly includes a first grip arm, a base member integrally formed with the first grip arm, a second grip arm movably coupled to and independently positionable relative to the first grip arm and a fastener securing the second grip arm relative to the first grip arm.

A method and system to facilitate monitoring of vehicles, riders, and drivers that includes receiving, using a communication device, and input related to driver energy and driver availability from one or more driver devices. Further, the method may include a step of analyzing, using a processing device, the input related to driver energy to determine energy levels of the one or more drivers. Further, the method may include matching, using the processing device, the rider with a driver based on the analyzing. Further, the method may include transmitting, using the communication device, a notification to the rider device and a matched driver device.

A novel roof-top autonomous vehicle control system for converting a non-autonomous vehicle into an autonomous vehicle includes a weatherproof housing that removably attaches to the roof of a host vehicle. The housing supports modular attachment of various sensors, receivers, computers, and other electrical components that can be installed, removed, and/or interchanged without disrupting the initial calibration thereof. In a particular embodiment, various internal electrical components of the system are mounted on a tray which can be mounted in, and removed from, the housing without disrupting the initial calibration of the various sensors. In a more particular embodiment, the housing includes a plurality of removable panels and windows that provide access to the inside of the housing.

The disclosure relates to a mounting for a sensor on a vehicle structure. In some embodiments, the mounting comprises a first sub-assembly that can be fastened to the vehicle structure; a second sub-assembly, to which the sensor can be fastened; and at least one restoring element; wherein the first and second sub-assemblies can move relative to one another and the restoring element is designed to exert restoring forces on the second sub-assembly in accordance with the relative movement, in order to force the second sub-assembly into an initial position.

A process for mounting an object within an adjustable device. The adjustable device can in turn be attached to a vehicle to hold the object to the vehicle. This adjustable device may be made larger or smaller to accommodate different sizes of objects. The adjustment of the adjustable device comes from the interaction of a set of one or more ribs on one piece with a set of channels on another piece.

A method, and a device that carries out the method, in which the proper holding and/or orientation of the display and/or control unit in the holding device for the carrying out of the further functions is provided.