Abstract: A modular system is provided for a multi-purpose accessory configured to selectively operate as a brush guard, a cabin protector, and a tailgate extender for a vehicle. The system includes a first mounting structure connected to a front frame of the vehicle. A second mounting structure is connected to a cabin portion of the vehicle, and a third mounting structure is connected to a tailgate of the vehicle. A multi-purpose accessory is provided including a main body portion and at least one attachment member extending from the main body portion. The attachment member is configured to alternately be received by the first mounting structure, wherein the multi-purpose accessory serves as a brush guard; the second mounting structure, wherein the multi-purpose accessory serves as a cabin protector; and the third mounting structure, wherein the multi-purpose accessory serves as a tailgate extender.

Abstract: A lateral view system for a vehicle including a display device that displays a lateral view of the vehicle, a camera operatively coupled to the display device that captures the lateral view of the vehicle, and an arm assembly that articulates the camera between a concealed position to be concealed in a door portion of the vehicle and an extended position to capture the lateral view of the vehicle, the arm assembly including an arm member having a camera, an arm housing embedded in the door portion of the vehicle to receive the arm member, and an arm external surface that matches an external surface of the door portion and seats substantially flush with the external surface of the door portion when the camera is in the concealed position.

Abstract: Systems, apparatus, and methods to remove vehicle sensor debris are disclosed. A disclosed cleaning assembly for a vehicle includes a track coupled to the vehicle. The cleaning assembly also includes an arm adjustably coupled to the track and having a nozzle positioned on the arm. The arm is moveable, via the track, near an exterior surface of the vehicle that is associated with a vehicle sensor. The cleaning assembly also includes a first motor operatively coupled to the arm configured to move the arm along the track relative to debris positioned on the exterior surface. The cleaning assembly also includes a pump fluidly coupled to the nozzle configured to expel the fluid from the nozzle to remove the debris.

Abstract: Systems, methods, and other embodiments described herein relate to a manner of extending the use of originally-equipped automotive vehicle sensors to other types of transportation. In one embodiment, a method includes acquiring data from a vehicle-equipped detachable sensor about one or more object in an environment around a non-automotive entity when the vehicle-equipped detachable sensor is mounted to the non-automotive entity. The vehicle-equipped detachable sensor is capable of sensing a portion of an environment around an automotive vehicle and configured to communicate with a mobile device. The vehicle-equipped detachable sensor is also structured to be detached from the automotive vehicle and mounted to the non-automotive entity. The method includes determining, based on the acquired data, whether a detected object impinges upon a current travel trajectory of the non-automotive entity.

Abstract: Systems, methods, and other embodiments described herein relate to a manner of extending the use of originally-equipped automotive vehicle sensors to identify selected object types. In one embodiment, a method includes acquiring data from a vehicle-equipped detachable sensor of an environment around a non-automotive entity when the vehicle-equipped detachable sensor is mounted to the non-automotive entity. The vehicle-equipped detachable sensor is capable of sensing a portion of an environment around an automotive vehicle and configured to communicate with a mobile device. The vehicle-equipped detachable sensor is also structured to be detached from the automotive vehicle and mounted to the non-automotive entity. The method includes identifying, from the acquired data, an object based on a selected object type received from the mobile device. The method also includes, in response to identifying the object from the acquired data, outputting at least one notification signal to the mobile device.

Abstract: Systems, methods, and other embodiments described herein relate to a manner of extending the use of originally-equipped automotive vehicle sensors to environmental mapping. In one embodiment, a method includes acquiring sensor data from a vehicle-equipped detachable sensor of an environment around a non-automotive entity when the vehicle-equipped detachable sensor is mounted to the non-automotive entity. The vehicle-equipped detachable sensor is capable of sensing a portion of an environment around an automotive vehicle and configured to communicate with a computing device. The vehicle-equipped detachable sensor is also structured to be detached from the automotive vehicle and mounted to the non-automotive entity. Further, the method includes receiving a mapping request from the computing device. The method also includes, in response to the mapping request, building a map, from the acquired sensor data, of an area traveled by the non-automotive entity.

Abstract: A dynamic gap at a vehicle interface can be actively managed using an interface seal. The interface can be defined between a first vehicle component and a second vehicle component. A gap can be defined between the first vehicle component and the second vehicle component. The gap can have an associated width. The width of the gap can vary during vehicle operation. An interface seal can be provided at least partially within the first vehicle component. The interface seal can be movable between a stowed position and a deployed position. In the stowed position, the interface seal can be located substantially entirely within the first vehicle component. In the deployed position, the interface seal can extend at least partially out of the first vehicle component in a direction toward the second vehicle component. As a result, the width of the gap can be reduced.

Abstract: A vehicle seat assembly includes a seat base, a seat back rotatably connected to the seat base, a seat bottom mounted on the seat base, and at least one of the following mounted to one of the seat base, seat back, and seat bottom: a resistance mechanism structured to exert a biasing force on at least one exercise arm operatively connected to the resistance mechanism; a bicycle seat receptacle structured for detachably mounting a bicycle seat to the seat base; and a docking mechanism structured for detachably mounting a pedal mechanism to the seat base.

Abstract: The present disclosure relates to a method, a system, and a non-transitory computer readable medium for cleaning obstructions for the sensors of the autonomous vehicle. The method includes: detecting, via a sensor, obstructions that block the field of views for the sensors; retrieving real-time weather data outside the autonomous vehicle; estimating, based on the real-time weather data, the features of the obstructions; proposing, based on the estimation of the features of the obstructions and, one or more cleaning plans; querying, via a user interface, a selection by a user regarding the proposed cleaning plans; and executing, via a cleaning system for the sensors of the autonomous vehicle, the proposed cleaning plan selected by the user. User interaction may be vehicle-driven or user-driven.

Abstract: A lateral view system for a vehicle including a display device that displays a lateral view of the vehicle, a camera operatively coupled to the display device that captures the lateral view of the vehicle, and an arm assembly that articulates the camera between a concealed position to be concealed in a door portion of the vehicle and an extended position to capture the lateral view of the vehicle, the arm assembly including an arm member having a camera, an arm housing embedded in the door portion of the vehicle to receive the arm member, and an arm external surface that matches an external surface of the door portion and seats substantially flush with the external surface of the door portion when the camera is in the concealed position.

Abstract: A glass cleaning system includes: a housing including at least one peripheral sidewalls being substantially perpendicular relative to a side of a vehicle to which the housing is attached, a cover, and a vision system including at least one sensor and processing circuitry, wherein the vision system is disposed in an interior of the housing, the at least one sensor is communicatively coupled to the processing circuitry, and the vision system is configured to be used with the vehicle to detect surrounding objects and determine distances between said objects and the vehicle; a window mounted as the at least one peripheral sidewall of the housing and configured to tilt towards the interior of the housing into an angled orientation and back; a drain duct disposed in the interior of the housing; and at least one spray nozzle.

Abstract: A light diverting system for diverting light from a headlamp assembly of a vehicle includes a processor and a user input device communicatively coupled to the processor. A light diverting apparatus includes an actuator communicatively coupled to the processor and a light diverting member comprising a reflective surface configured to reflect light from a light source. A memory module is communicatively coupled to the processor that stores logic that, when executed by the processor, causes the system to receive user instructions from the user input device and adjust a position of the light diverting member using the light diverting apparatus based on the user instructions.

Abstract: Embodiments described herein generally relate to a vehicle door glass damping system that functions like a clamp along a perimeter of a door glass when the door glass is in a closed position. The system includes an actuator assembly having a motor housing and a plunger. The assembly is configured to apply a force in the vehicle lateral direction force to a perimeter edge of the door glass. A plurality of actuator assemblies may be provided about the perimeter of the door glass at multiple locations. The actuator assembly may be a single touch location or may touch off on the whole perimeter of the door glass. When the door glass is displaced, a sealing member body within a glass run channel pivotally compresses which creates a compression seal between the sealing member body and the exterior surface of the door glass.

Abstract: A vehicle includes a body, a handle, and at least one connection site for the handle at which the handle is selectively connectable to the vehicle. The body defines a passenger compartment and a door opening, and includes a door over the door opening. The at least one connection site includes a home connection site on the door. When connected to vehicle at the home connection site, the handle, from its corresponding location on the door, is subject to being operated by a user to allow the door to open.

Abstract: Embodiments described herein relate to a tonneau cover for a bed of a truck. In one embodiment, the tonneau cover includes a set of panels that span a width of the bed between at least two mounting rails that are attached to sidewalls of the bed. The set of panels detachably connect to the mounting rails at attachment points within the mounting rails and are at least partially supported by the attachment points. Individual panels within the set of panels connect with adjacent ones of the set of panels through a detachable hinge within opposing sides. The individual panels connect to the mounting rails through retractable pins that extend from opposing ends.

Abstract: A vehicle includes a wheel within a wheel well, a fender panel assembly that includes a fender outer panel and a fender inner panel, the fender panel assembly at least partially surrounding the wheel well, and an overfender assembly connected to the fender panel assembly. The overfender assembly includes an overfender backing including a fender outer panel connection portion that connects to the fender outer panel and a fender inner panel connection portion that connects to the fender inner panel and an overfender garnish connected to the overfender backing. The overfender garnish and the overfender backing are formed separately of different materials.

Abstract: A light diverting system for diverting light from a headlamp assembly of a vehicle includes a processor and a user input device communicatively coupled to the processor. A light diverting apparatus includes an actuator communicatively coupled to the processor and a light diverting member comprising a reflective surface configured to reflect light from a light source. A memory module is communicatively coupled to the processor that stores logic that, when executed by the processor, causes the system to receive user instructions from the user input device and adjust a position of the light diverting member using the light diverting apparatus based on the user instructions.

Abstract: A door assembly including a door frame, a frame member, and a garnish coupled to the frame member. The door frame at least partially defining a window opening. The door frame includes an outer door panel and an inner door panel. The outer door panel includes a window edge adjacent the window opening, a trailing edge, and an exterior surface extending between the window edge and the trailing edge. The inner door panel is coupled to and positioned inboard of the outer door panel in a vehicle lateral direction. The frame member is coupled to and positioned between the outer door panel and the inner door panel. The garnish covers a portion of the exterior surface of the outer door panel adjacent the window edge while permitting a vehicle body color of the exterior surface of the door outer panel between the garnish and the trailing edge to be exposed.

Abstract: A rear deck post assembly is provided for reinforcing a cargo bed of a utility vehicle. The assembly includes a first deck mount coupled to a vehicle frame, and a first rear deck post coupled to the first deck mount. A second deck mount is provided coupled to the vehicle frame and spaced apart from the first deck mount. A second rear deck post is coupled to the second deck mount. A deck sill component is provided longitudinally extending between the first deck post and the second deck post. Deck bolts may be used to couple the deck sill component, deck mounts, and deck posts to the vehicle frame. The first and second deck mounts and deck posts may be a cast aluminum alloy, a cast magnesium alloy, or a fiber reinforced composite material.

Abstract: A cargo assist can help a user in loading, unloading, and/or transporting items in a vehicle. The cargo assist can include a cargo assist arm. A cargo carrier can be operatively connected to the cargo assist arm and can be selectively disconnected therefrom. The cargo assist arm can be selectively movable between at least a stowed position and a deployed position. In the stowed position, the cargo assist arm can be located entirely within a cargo space of the vehicle. At least a portion of the cargo assist arm and at least a portion of the cargo carrier can be received within a recess defined within a first lateral side wall of the cargo space. In the deployed position, the cargo carrier and a portion of the cargo assist arm can extend through an access opening to the cargo space and can be located outside of the vehicle.