An autonomous vehicle (AV) implements a health protocol that may reduce pathogen transmission between users of the AV. The AV is equipped with a thermal sensor that captures a body temperature of a user. The AV compares the user’s temperature to a threshold temperature, and if the user’s temperature exceeds the threshold temperature, the AV performs checks to ensure that the user’s planned trip follows current regulations or recommendations. For example, the AV confirms that the user is traveling between the user’s home and a healthcare facility. If the trip is permitted, the AV enables the user to enter the AV. The AV may include a disinfectant system for disinfecting the passenger compartment or surfaces after the user exits the AV.

A vehicle floor area may include a body and a floor. The floor may be attached to and positioned at least partially above the body. The floor may comprise floor perforations. A collection receptacle may be supported by the body and positioned at least partially below the floor so that solid waste or liquid waste can fall through the floor perforations onto the collection receptacle. The waste that has fallen onto the collection receptacle may be removed from the collection receptacle.

A vehicle floor area may include a body and a floor. The floor may be attached to and positioned at least partially above the body. The floor may comprise floor perforations. A collection receptacle may be supported by the body and positioned at least partially below the floor so that solid waste or liquid waste can fall through the floor perforations onto the collection receptacle. The waste that has fallen onto the collection receptacle may be removed from the collection receptacle.

An integrated sterilization lamp module integrated in a vehicle, including: a sterilization lamp which is configured for emitting sterilization light rays to sterilize surfaces in the vehicle at which they arrive; an attachment device which is configured for attaching the integrated sterilization lamp module to the vehicle; and an automatic controller which is configured for controlling the sterilization lamp so that it can automatically perform a sterilization operation. The application also relates to a vehicle including the integrated sterilization lamp module.

An integrated sterilization lamp module integrated in a vehicle, including: a sterilization lamp which is configured for emitting sterilization light rays to sterilize surfaces in the vehicle at which they arrive; an attachment device which is configured for attaching the integrated sterilization lamp module to the vehicle; and an automatic controller which is configured for controlling the sterilization lamp so that it can automatically perform a sterilization operation. The application also relates to a vehicle including the integrated sterilization lamp module.

The systems and methods disclosed herein are directed to an autonomous vehicle food locker system that may include environmentally controlled storage compartments for storing and/or transporting perishable food items to be delivered to end consumers. The storage compartments may provide ultraviolet light controls and surfaces that provide sanitized food storage areas for a delivery vehicle. Computing processor(s) may be configured for determining a sanitization procedure for sanitizing the interior portion of the food storage locker based on sensor information received from internal and external sensors, video feeds, photographs, and other information. The processor(s) may determine one or more sanitation characteristics that can indicate or inform cleanliness of the interior portion of the food storage locker, and perform automated sanitization procedures that can include activating a chemical layer disposed on the interior portion of the food storage locker. The system may also maintain a digital record documenting the delivery process.

The systems and methods disclosed herein are directed to an autonomous vehicle food locker system that may include environmentally controlled storage compartments for storing and/or transporting perishable food items to be delivered to end consumers. The storage compartments may provide ultraviolet light controls and surfaces that provide sanitized food storage areas for a delivery vehicle. Computing processor(s) may be configured for determining a sanitization procedure for sanitizing the interior portion of the food storage locker based on sensor information received from internal and external sensors, video feeds, photographs, and other information. The processor(s) may determine one or more sanitation characteristics that can indicate or inform cleanliness of the interior portion of the food storage locker, and perform automated sanitization procedures that can include activating a chemical layer disposed on the interior portion of the food storage locker. The system may also maintain a digital record documenting the delivery process.

A debris canister and filter assembly, which may be used in a vehicular vacuum cleaner, includes a debris canister having an inlet, an outlet, and a peripheral side wall. The peripheral side wall at least partially defines an interior space of the debris canister. A filter is disposed in the interior space of the debris canister, and includes filter media having a non-pleated portion and a pleated portion. The peripheral side wall forms a corner of the debris canister, and the filter media has a rounded-corner shaped to fit adjacent to the corner of the peripheral side wall.

A debris canister and filter assembly, which may be used in a vehicular vacuum cleaner, includes a debris canister having an inlet, an outlet, and a peripheral side wall. The peripheral side wall at least partially defines an interior space of the debris canister. A filter is disposed in the interior space of the debris canister, and includes filter media having a non-pleated portion and a pleated portion. The peripheral side wall forms a corner of the debris canister, and the filter media has a rounded-corner shaped to fit adjacent to the corner of the peripheral side wall.

A method for operating a vehicle having at least one surface region designed to come into direct contact with a user, and at least one sensor to register a direct contact between the at least one surface region and the user. The method includes registering the beginning of a use of the vehicle by the user, registering direct contacts of the user with the at least one defined surface region by using the at least one sensor, registering the end of the use of the vehicle by the user, evaluating the registered direct contacts of the user with the at least one surface region, wherein the surface region is classified with respect to a potential degree of soiling of the surface region caused by the direct contacts during the use, and outputting a notification on the potential degree of soiling of the surface region.