An exterior protection apparatus for a vehicle includes an exterior airbag device, a collision detector, and a controller. The exterior airbag device includes a bag body, and an inflator configured to expand the bag body over a hood of a vehicle body of the vehicle in a state of having a width corresponding to a vehicle width of the vehicle body of the vehicle. The collision detector is configured to predict or detect a collision between the vehicle body and a person outside the vehicle. The controller is configured to cause the bag body of the exterior airbag device to be expanded in a case where the collision detector predicts or detects the collision. The exterior airbag device includes a flexible crossing member configured to extend along a direction of the vehicle width on an upper surface of the bag body widely expanded.

An apparatus for warning the collision of a vehicle includes an information acquirer configured to acquire information on a surrounding object and information on a vehicle, and a controller configured to generate collision predicting information for the surrounding object, based on the information on the surrounding object and the information on the vehicle, and generate control information to control braking of the vehicle and to provide, based on the collision predicting information, a buffer element to an outside of the vehicle while controlling the braking of the vehicle.

An airbag device includes an airbag, a case in which the folded airbag is housed, and an airbag cover that covers the folded airbag. An attachment portion of the airbag cover is attached to a peripheral wall portion of the case by a rivet being caused to pass through. The case is such that a vicinity of a boundary region between the peripheral wall portion and a bottom wall portion is curved in an approximate arc in cross-section. The attachment portion includes a protruding portion that protrudes toward the peripheral wall portion side in an end edge farther to a leading end side than a region of penetration of the rivet. The protruding portion is disposed in a position opposing a curved region configuring a boundary region between the peripheral wall portion and the bottom wall portion, and is protruded in such a way as to be oriented farther to a central side of the bottom wall portion than an outer side face of the peripheral wall portion, and an edge on the peripheral wall portion side of a protruding end face is disposed in a state of non-contact with the curved region.

A deformation structure includes at least one first layer and a second layer, which are arranged spaced apart from one another in a deformation direction and such that they can be displaced relative to one another. The first layer and the second layer have complementary protrusions and recesses, which are designed in such a way that the protrusions of the first layer and recesses of the second layer, as well as the protrusions of the second layer and recesses of the first layer can dip into one another. The first layer and the second layer are connected to one another via deformable web elements in such a way that, with a high impulse in the deformation direction, the protrusions of the first layer dip into recesses of the second layer, and protrusions of the second layer dip into recesses of the first layer, such that a deformation of the deformation structure occurs at a low force level in the deformation direction, and with a low impulse in the deformation direction, the protrusions of the first layer impinge on the protrusions of the second layer such that a deformation of the deformation structure occurs at a high force level in the deformation direction.

An autonomous robotic vehicle includes a conveyance system, a securable compartment configured to autonomously lock and unlock, a customer identification reader, at least one processor, and a memory storing instructions which, when executed by the at least one processor, causes the autonomous robotic vehicle to, autonomously: travel to a destination location of a customer; capture, by the customer identification reader at the destination location, a customer identification object; determine that the captured customer identification object matches an identity of the customer; unlock the securable compartment based on the determination; capture, by the product identification reader, a product identifier; and accept a product to be returned by locking the securable compartment. The securable compartment contains a product identification reader.

An outside protection apparatus includes: an outside airbag device including an expandable member expandable rearward from a front portion of a body of a vehicle so as to be overlaid on a hood of the body, and an inflator that expands the expandable member; a collision detector that predicts or detects a collision between the body and a outside person outside the vehicle; and a controller that expands the expandable member when the collision detector predicts or detects a collision. The expandable member includes: a front bag portion expandable at the front portion of the body so as to be overlaid on the hood; a rear bag portion expandable in a location closer to rear than the front bag portion; and a tensile member coupled together with the rear bag portion to the body. The rear bag portion is expandable by the tensile member to stand on the hood.

A school bus stop arm with integrated camera system includes a mounting box, an arm-actuating assembly, a stop sign, and a video camera unit. The arm-actuating assembly includes an actuating mechanism, an activation switch, and an elongated arm. The actuating mechanism is mounted within the mounting box so that the elongated arm can moved between a folded position and extended position. A proximal end of the elongated arm is mounted to the actuating mechanism. The stop sign is adjacently mounted to a distal end of the elongated arm. The video camera unit is mounted to the stop sign. The activation switch is operatively coupled with the elongated arm, wherein the activation switch selectively turns the video camera unit on or off based on the positioning of the elongated arm.

A managing apparatus for positioning rental vehicles includes a memory storing instructions and a processor configured to execute the instructions to cause the managing apparatus to access model information and location information for a plurality of autonomous vehicles, receive a request including a delivery location and a chosen model for renting, select an autonomous vehicle of the chosen model from among the plurality of autonomous vehicles based on the model information, the location information, and the delivery location, instruct the selected autonomous vehicle to fully-autonomously or semi-autonomously travel to the delivery location, and instruct the selected autonomous vehicle to switch to manual operation mode at the delivery location for manual operation by a vehicle rental customer.

An autonomous robot vehicle in accordance with aspects of the present disclosure includes a conveyance system and a compartment coupled to the conveyance system. The conveyance system autonomously drives the autonomous robotic vehicle between one or more storage locations and one or more delivery locations. The compartment receives one or more items stored at the one more storage locations. The compartment includes a temperature control module configured to maintain the compartment within a predetermined temperature range to provide temperature control for the one or more items as the conveyance system drives between the one or more storage locations and the one or more delivery locations.

An airbag device includes an airbag, a case in which the folded airbag is housed, and an airbag cover that covers the folded airbag. An attachment portion of the airbag cover is attached to a peripheral wall portion of the case by a rivet being caused to pass through. The case is such that a vicinity of a boundary region between the peripheral wall portion and a bottom wall portion is curved in an approximate arc in cross-section. The attachment portion includes a protruding portion that protrudes toward the peripheral wall portion side in an end edge farther to a leading end side than a region of penetration of the rivet. The protruding portion is disposed in a position opposing a curved region configuring a boundary region between the peripheral wall portion and the bottom wall portion, and is protruded in such a way as to be oriented farther to a central side of the bottom wall portion than an outer side face of the peripheral wall portion, and an edge on the peripheral wall portion side of a protruding end face is disposed in a state of non-contact with the curved region.