The present disclosure describes a computer-implemented method for determining and reporting compliance with rules regarding discarded material from an originating site. The method may include obtaining, for each batch of a plurality of batches of discarded material, identification information of a respective originating site, capturing image data for each batch and associating the identification and image data. The identification and image data may be sent to a server having rules regarding the discarded material. The server may then determine data regarding compliance and generate a report including data regarding compliance with the rules regarding the discarded material for each originating site.

Systems, methods and devices are provided for tracking and managing waste or recyclable materials, which may include one or more devices enabled to capture and record information about waste material at a point in a distribution chain, as well as information technology systems for collecting, processing, analyzing and otherwise managing information about a large number and variety of streams of waste material.

Embodiments relate generally to waste receptacles and more particularly to smart waste receptacles capable of identifying waste. A waste receptacle may identify waste using machine vision and perform a task in response to identifying the waste. In an embodiment, the smart waste receptacle may instruct a user to direct the waste to one of a plurality of waste bins based on a category of the waste. In an embodiment, the smart waste receptacle may place an order to replenish the stock of a product based on the identification of waste. In an embodiment, the smart waste receptacle is created by attaching a smart device to a standard waste receptacle.

Embodiments relate generally to waste receptacles and more particularly to smart waste receptacles capable of identifying waste. A waste receptacle may identify waste using machine vision and perform a task in response to identifying the waste. In an embodiment, the smart waste receptacle may instruct a user to direct the waste to one of a plurality of waste bins based on a category of the waste. In an embodiment, the smart waste receptacle may place an order to replenish the stock of a product based on the identification of waste. In an embodiment, the smart waste receptacle is created by attaching a smart device to a standard waste receptacle.

A storage receptacle can include a storage bin and a pedal mounted to the receptacle. The pedal can rotate downward when pressure is applied in order to pull on a first cable coupled to the pedal. The first cable is connected to a spring, and the spring is connected to a second cable. The second cable connects the spring to a door via an upper pulley of the receptacle. The second cable causes the door to open when the second cable is pulled based on force applied to the pedal. A bottom pulley can be coupled to the pedal via the first cable and configured to translate an upward pull of the first cable to a downward pull of the spring and second cable. The spring controls the motion of the door such that the door does not open too quickly upon a force being applied to the pedal.

An automated waste collection has a housing, within which is disposed a deployment mechanism for receiving a waste bin. The waste bin may be placed onto the deployment mechanism through an access opening traversing through the housing and selectively obstructed by an access closure. Waste may be deposited within the waste bin through a lid opening at a top of the housing. The deployment mechanism may be displaced by a deployment actuator between a stored position within the housing and a deployed position external to the housing. In order to do so, the deployment mechanism traverses through a deployment opening selectively obstructed by a deployment closure. A controller operates according to a predetermined waste collection schedule, actuating the deployment actuator at any scheduled waste collection times.

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.

The present invention discloses a trash bag detection device for a smart trash receptacle, comprising a transmitter for transmitting a signal and a receiver for receiving a signal, both the transmitter and the receiver being disposed on internal surfaces of the trash receptacle, wherein the signal received by the receiver is a direct signal transmitted from the transmitter or a signal from the transmitter that has been reflected. The present invention also discloses a smart trash receptacle incorporating such a trash bag detection device and a method for control of automatic bag replacement. With the present invention, the position of a trash bag in the trash receptacle can be automatically detected, allowing improved intelligent control of the trash receptacle. This is helpful in protecting the trash bag, saving resources, reducing potential safety risks of the smart trash receptacle and increasing its stability and reliability.

A guide robot includes a lower module includes a wheel and a motor provided inside the lower module, and an upper module disposed at an upper portion of the lower module and including a trash can assembly and a display unit. The upper module includes a body part coupled to the upper portion of the lower module and a head part rotatably coupled to an upper portion of the body part. The body part includes a front case forming a front outer appearance of the body part and including the trash can assembly provided inside the front case, and a rear case forming a rear outer appearance of the body part and including the display unit. A garbage insertion part is provided at a portion of the front case corresponding to an upper portion of the trash can assembly to insert garbage into the trash can assembly.

A container system (10, 110) and a method for calculating (S6) a current fill status (64_CURR) of a container (30) using a plurality of presence sensor interactions (34) is disclosed. The container system (10, 110) comprises a presence sensor arrangement (32, 132) for calculating (S6) the plurality of presence sensor interactions (34) with the container (30); a local counting unit (40) for recording (S2) numbers of the plurality of presence sensor interactions (34) as presence sensor interaction data (36); and a local communication unit (60) for transmitting (S3) the presence sensor interaction data (36) to a remote processing unit (55) for calculating (S6) the current fill status (64 CURR).