A vehicle is configured to transport a passenger through autonomous travel. The vehicle includes an in-vehicle camera configured to image the passenger to generate an image, a camera controller configured to control the in-vehicle camera, and a passenger information detection unit configured to detect information about the passenger. The passenger information detection unit measures the number of passengers and the camera controller stops an operation of the in-vehicle camera in a case where the number of passengers is one.

A stiffness improvement structure includes a plurality of transverse reinforcement frames formed in parallel to the transverse frame and provided with an interval from each other in a longitudinal direction of the vehicle, and a plurality of longitudinal reinforcement frames formed in parallel to the longitudinal frame and provided with an interval from each other in the width direction of the vehicle, and thus vehicle body stiffness is improved by reinforcing stiffness of a towed portion of a vehicle body being towed and which reinforces stiffness of the vehicle by being provided in a vehicle body including a transverse frame formed in a width direction of the vehicle and a longitudinal frame formed in a longitudinal direction of the vehicle,.

A stiffness improvement structure includes a plurality of transverse reinforcement frames formed in parallel to the transverse frame and provided with an interval from each other in a longitudinal direction of the vehicle, and a plurality of longitudinal reinforcement frames formed in parallel to the longitudinal frame and provided with an interval from each other in the width direction of the vehicle, and thus vehicle body stiffness is improved by reinforcing stiffness of a towed portion of a vehicle body being towed and which reinforces stiffness of the vehicle by being provided in a vehicle body including a transverse frame formed in a width direction of the vehicle and a longitudinal frame formed in a longitudinal direction of the vehicle,.

The present disclosure relates to a vehicle that includes a windshield and a frame. In addition, the vehicle includes a first pillar that extends from one side of the windshield. The first pillar includes a first wall and a second wall coupled to the first wall. The first pillar also includes a first portion and a second portion. The first portion includes a first interior support coupled to the first wall and a second interior support coupled to the second wall. Further, the first interior support includes a first end which is spaced from a second end in the second portion.

A side window assembly for a vehicle comprising a cabin, a chassis window frame rail, and a body with a door integral therewith and aligned with the chassis rail axis, comprising a window frame fitted within an opening between a front post of the door and an internal edge of the cabin independently of an internal fender panel and of a fender of the cabin, and a glazing, secured to the window frame to fill the opening.

A side window assembly for a vehicle comprising a cabin, a chassis window frame rail, and a body with a door integral therewith and aligned with the chassis rail axis, comprising a window frame fitted within an opening between a front post of the door and an internal edge of the cabin independently of an internal fender panel and of a fender of the cabin, and a glazing, secured to the window frame to fill the opening.

An articulated electric bus includes two units with: a passenger compartment including a main floor forming a low and thin platform with a planar surface extending over the majority of the width of the passenger compartment, a wheel housing adjacent to the planar surface, a longitudinal row of seat places on the wheel housing, and a driving wheel which is housed in the wheel housing under the longitudinal row of seats. The driving wheel defines a rotation axis and includes an electric engine, and a rim with a rim top above the planar surface. The driving wheel is vertically movable with respect to the planar surface, and the wheel housing actually receives a pair or a couple of driving wheels.

A motor coach comprises a front door, a front stairwell, an upper aisleway, upper seats, a side door and a mobility impaired area. The front stairwell leads from the front door. The upper aisleway leads from the front stairwell. The upper aisleway is generally at the level of the top of the upper stairwell. The upper seats are along the upper aisleway. The side door may be lower than or at the same height as the front door, and leads to the mobility impaired area, which is inside and generally at the level of the bottom of the side door. The upper aisleway, upper seats, and mobility impaired area are all together in one unified passenger compartment while separated by differences of location of doors for loading and heights of floors. Numerous advantages flow, including but not limited to the following: loading and unloading times for mobility impaired passengers are substantially improved, especially as compared to typical high floor, wheelchair lift equipped coaches.

A motor coach comprises a front door, a front stairwell, an upper aisleway, upper seats, a side door and a mobility impaired area. The front stairwell leads from the front door. The upper aisleway leads from the front stairwell. The upper aisleway is generally at the level of the top of the upper stairwell. The upper seats are along the upper aisleway. The side door may be lower than or at the same height as the front door, and leads to the mobility impaired area, which is inside and generally at the level of the bottom of the side door. The upper aisleway, upper seats, and mobility impaired area are all together in one unified passenger compartment while separated by differences of location of doors for loading and heights of floors. Numerous advantages flow, including but not limited to the following: loading and unloading times for mobility impaired passengers are substantially improved, especially as compared to typical high floor, wheelchair lift equipped coaches.

A passenger compartment of the modular vehicle, such as a bus, includes a roof panel and sandwich-type side panels coupled to structural joiners to form the passenger compartment. The side panels and the joiners may include pultruded beams for increased structural integrity. A chassis of the vehicle has channels integrated therein for coupling of the side panels and passenger compartment to the chassis. This coupling to the chassis channel may also include the use of a bonding agent.