A vehicle door comprising a mount, a encapsulated fixed window module, a movable window, and a sliding joint, the windows comprising outer surfaces which are aligned with each other as well as with an outer surface of a first trim attached to the first ascending strand and fixed to the first ascending post, and an outer surface of a second trim attached to the second ascending strand and fixed to the ascending profile.

A vehicle assembly includes a vehicle body and a driver seat. The vehicle body defines a driver compartment having a first door with a first window and a second door with a second window. The driver seat is disposed within the driver compartment. When the driver seat is in a position that accommodates an operator being in a 95.sup.th male height percentile, the operator within the driver seat can see out of (i) the first window at a first angle relative to a forward looking direction that is parallel with a longitudinal axis of the vehicle body and (ii) the second window at a second angle relative to the forward looking direction. Each of the first angle and the second angle is at least 95 degrees.

A vehicle assembly includes a vehicle body and a driver seat. The vehicle body defines a driver compartment having a first door with a first window and a second door with a second window. The driver seat is disposed within the driver compartment. When the driver seat is in a position that accommodates an operator being in a 95.sup.th male height percentile, the operator within the driver seat can see out of (i) the first window at a first angle relative to a forward looking direction that is parallel with a longitudinal axis of the vehicle body and (ii) the second window at a second angle relative to the forward looking direction. Each of the first angle and the second angle is at least 95 degrees.

A vehicle having a system which includes at least one sensor contained therein. The systems utilizes conditional probability to determine if an occupant (i.e. child and/or animal) is in the vehicle in the absence of an adult. The system used conditional probability to predict the likelihood that a child and/or animal was left unsupervised within the vehicle. The system collects data from existing vehicle sensors (door sensor, weight sensor, seatbelt sensor, face detection sensor, input sensors or any other suitable sensor already imbedded within the hardware of the vehicle) and uses that data to assume if an adult, child and/or animal is present. A motion sensor and a temperature sensor (infrared camera) are further utilized to determine the presence of a child/animal and the temperature of a child. Input from the motion sensor and/or temperature sensor (infrared camera) are utilized to provide warnings or to take corrective measures.

A side structure for a passenger vehicle has a side element, which at least partially delimits a lateral window opening, and a transparent side window, which is movable relative to the side element between a closed position closing at least a partial region of the window opening and at least one open position opening up the partial region of the window opening. The side structure has a strut which extends in the longitudinal direction of the vehicle and on which the side window is held via a hinge device so as to be movable relative to the side element and relative to the strut in such a manner that the side window is movable outwards in the transverse direction of the vehicle and downwards in the vertical direction of the vehicle from the closed position into the open position.

A vehicular vision system includes a forward-viewing camera that views through a windshield forward of a vehicle. Responsive at least in part to processing by an image processor of image data captured by the forward-viewing camera while the equipped vehicle is traveling along a road, another vehicle on the road ahead of the equipped vehicle is detected, and the vehicular vision system may determine lateral acceleration of the detected other vehicle on the road ahead of the equipped vehicle. The vehicular vision system may generate an output based at least in part on the determined lateral acceleration of the detected other vehicle on the road ahead of the equipped vehicle. Responsive to determination that the equipped vehicle is approaching a school zone, pedestrian detection via image processing of image data captured by the forward-viewing camera may be enhanced.

A vehicular vision system includes a forward-viewing camera that views through a windshield forward of a vehicle. Responsive at least in part to processing by an image processor of image data captured by the forward-viewing camera while the equipped vehicle is traveling along a road, another vehicle on the road ahead of the equipped vehicle is detected, and the vehicular vision system may determine lateral acceleration of the detected other vehicle on the road ahead of the equipped vehicle. The vehicular vision system may generate an output based at least in part on the determined lateral acceleration of the detected other vehicle on the road ahead of the equipped vehicle. Responsive to determination that the equipped vehicle is approaching a school zone, pedestrian detection via image processing of image data captured by the forward-viewing camera may be enhanced.

A vehicle includes a chassis, a cargo body coupled to the chassis, a cargo support member, and a shelf assembly. The cargo support member is mounted to an outer wall of the cargo body and is disposed within the cargo body. The shelf assembly includes a tray and a strap. The tray is hingedly coupled to the cargo support member. The strap is coupled to the tray and the cargo support member. The strap is adjustable to reposition a forward end of the tray.

A vehicle includes a chassis, a cargo body coupled to the chassis, a cargo support member, and a shelf assembly. The cargo support member is mounted to an outer wall of the cargo body and is disposed within the cargo body. The shelf assembly includes a tray and a strap. The tray is hingedly coupled to the cargo support member. The strap is coupled to the tray and the cargo support member. The strap is adjustable to reposition a forward end of the tray.

A vehicle includes a chassis, a cab coupled to the chassis, a cargo body coupled to the chassis and positioned rearward of the cab, a seating unit, and a mail tray. The cab includes a first floor portion defining a first interface at a first position within the cab. The cargo body includes a second floor portion defining a second interface at a second position within the cargo body. The seating unit includes a frame assembly that engages with the first interface and the second interface such that the seating unit is selectively repositionable between the first position and the second position. The mail tray is selectively positionable in the first position when the seating unit is in the second position.