Systems, methods, and computer-readable storage media for controlling electrically-powered trash compactors and receptacles. The system first receives data associated with a storage receptacle configured to communicate with the system via a network, wherein the data is received from a server storing information transmitted by the storage receptacle, the storage receptacle having an energy storage for powering operational functions performed by the storage receptacle. The system then identifies a parameter of the storage receptacle associated with an operational function of the storage receptacle, and transmits a signal to the storage receptacle for modifying the parameter based on the data associated with the storage receptacle to yield a modified operation of the storage receptacle.

A container transporter systems, vehicle, and methods are disclosed. The container transporter can be automatically or manually controlled allowing for ease of use in moving a coupled container. The container transporter can be used with virtually any container, such as a refuse container. The automatic movement of the container transporter can assist users with time constrains or physical constraints in moving their refuse for pickup.

A container transporter systems, vehicle, and methods are disclosed. The container transporter can be automatically or manually controlled allowing for ease of use in moving a coupled container. The container transporter can be used with virtually any container, such as a refuse container. The automatic movement of the container transporter can assist users with time constrains or physical constraints in moving their refuse for pickup.

An automatic trash can delivery device to transport a trash can, the automatic trash can delivery device including a main body including a trash can holding portion to hold the trash can therein, a processor disposed within the main body to receive a signal to control the automatic trash can delivery device to move, a motor to be activated in response to the signal received by the processor, and a plurality of wheels disposed at a bottom portion of the main body to rotate and pivot in response to the activation of the motor, such that the automatic trash can delivery device moves along a predetermined path.

An autonomous mobile robotic refuse container device that transports itself from a storage location to a refuse collection location and back to the storage location after collection of the refuse. When it is time for refuse collection, the robotic device autonomously navigates from the refuse container storage location to the refuse collection location. Once the refuse within the container has been collected, the robotic device autonomously navigates back to the refuse container storage location.

A bin aid is provided that is adapted to raise and lower a bin lid of a bin, the bin aid including a main body and a connection means functionally connectable with the main body and able to functionally engage with the bin lid. The connection means includes a rotatable unit and a control means for controlling one or more functions to aid the use of a bin including to selectively control the connection means. The connection means is able selectively to raise and to lower the bin lid with respect to the closely located bin.

A container transporter systems, vehicle, and methods are disclosed. The container transporter can be automatically or manually controlled allowing for ease of use in moving a coupled container. The container transporter can be used with virtually any container, such as a refuse container. The automatic movement of the container transporter can assist users with time constrains or physical constraints in moving their refuse for pickup.

Described herein are devices, systems and methods related to automated waste management. Aspects of the present disclosure include devices, systems, and methods comprising an autonomous waste bin. The autonomous waste bin may include a first and second driving wheels connected to a base of a hollow receptacle. The autonomous waste bin may include a first and second driving motor connected to the first and second driving wheels respectively, the first and second driving motor configured to provide a driving force to the first and second driving wheels. The autonomous waste bin may include at least one controller in communication with the first and second driving motors, the at least one controller configured to control the movement of the autonomous waste bin, via the first and second driving wheels.

A refuse collection system includes a refuse collection robot and a refuse depot. The refuse collection robot includes a chassis, a tractive element coupled to the chassis, a motor coupled to the chassis and the tractive element and configured to drive the tractive element to propel the refuse collection robot, a refuse container coupled to the chassis and defining a first storage volume, and a controller operatively coupled to the motor. The refuse depot includes a centralized storage defining a second storage volume and a refuse actuator configured to transfer refuse from the first storage volume to the second storage volume. The controller is configured to control the motor to propel the refuse collection to a pickup zone associated with a customer in response to receiving a request for refuse collection from a user device associated with the customer.

A refuse collection drone includes a chassis, tractive elements rotatably coupled with and supporting the chassis, a propulsion system including a battery and an electric motor configured to consume electrical energy from the battery, and a bin removably coupled with the chassis and including a cover. The propulsion system is configured to drive one or more of the tractive elements to transport the refuse collection drone to a customer location. The bin defines a storage volume for refuse. The cover is configured to be driven by an actuator between an open position to allow access to the storage volume and a closed position to limit access to the storage volume. A lock is operable between a locked state to limit transition of the cover out of the closed position and an unlocked state to allow transition of the cover out of the closed position and into the open position.