A secured “smart” container is disclosed for collecting green waste products including operational functions for collection, video surveillance and monitoring capacity. The secured “smart” container may include one or more programmable logic controllers. Operational functions are performed by electrical components including sensors to determine green waste deposits characteristics and contents. Operational functions are further adapted to send and receive data, operationally wirelessly, and configured and adapted to utilize solar derived electric power and, optionally, electric power from other sources. Embodiments provide constant 24 hour/7 days a week video surveillance and alert monitoring capabilities. Disclosed systems and methods also include collection and transportation of waste contents from the container to a processing subsystem. Additionally, disclosed systems may also include a monitoring system for monitoring the collection of green waste product, delivery of the same to the processing subsystem and tracking to and throughout final processing of the green waste product and handling personnel.

Systems and methods for operating a system. The methods comprise: generating sensor data by at least one sensor of a waste receptacle that specifies at least one characteristic of at least one item; performing operations by the waste receptacle to identify first media content that is associated with the at least one characteristic of the at least one item; causing the first media content to be output from the waste receptacle or an external device when the first media content is identified by the waste receptacle; and selecting second media content different from the first media content and causing the second media content to be output from the waste receptacle or the external device, when the first media content is unable to be identified by the waste receptacle.

A refuse container having an indicator assembly for informing a waste generator of contamination in a waste stream. A refuse container includes a container body comprising a receptacle portion and a lid coupled with the receptacle portion. The receptacle portion includes a plurality of walls that together define an enclosed space for containing refuse. An indicator device is coupled with the container body. The indicator device is movable relative to the container body between a first position and a second position. First indicia is provided on one of the indicator device or the container body. When the indicator device is in the first position, the first indicia are visible from the exterior of the refuse container, and when the indicator device is in the second position, the first indicia are not visible from the exterior of the refuse container.

A centralized hub system for improving automatic waste transport and collection using a self-driving robot, which allows for self-driving and efficient collection of waste in densely populated areas, such as apartment complexes and residential neighborhoods, and areas with a floating population by using robots with built-in artificial intelligence software and hardware and self-driving waste collection and driving functions and an integrated management server for monitoring these robots, and which helps to put information together in this process and use it as base data for the efficient operation of future waste policies and the corresponding systems. The centralized hub system for improving automatic waste transport and collection using a self-driving robot comprises self-driving inlet robots, an integrated management server, and a self-driving vehicle robot.

According to an embodiment of the present invention, a container collecting apparatus is provided. The container collecting apparatus includes: a container input unit for at least temporarily accommodating a container inserted; and a collection unit provided below the container input unit to collect the container transferred from the container input unit, wherein the container input unit includes: a holding unit on which the container is seated; an opening penetratively formed at one side of the holding unit to transfer the container to the collection unit; and a transfer unit provided with a transfer plate for transferring the container put on the holding unit to the opening by moving from the opposite side of the holding unit toward the opening.

A waste bin comprises a sorting space for sorting waste paper products from other types of waste, a movable separation element comprising a plurality of openings, a physical property sensing mechanism for detecting a physical property of waste received in the sorting space, a removal element for moving waste from the sorting space to a waste paper product compartment, and a control for controlling the movable separation element and the removal element. The movable separation element is configured to move upon the application of an external force exceeding a threshold value. The control is configured to operate the removal element or the movable separation element, based on a detection result of the physical property sensing mechanism. Further, a method of sorting waste paper products from other types of waste in such a waste bin is provided.

The disclosure describes waste receptacles for processing waste comprising a waste portal configured to accept waste deposited by an end user, a waste analysis unit positioned proximate to the waste portal, a waste conveyor connected to the waste portal, a paddle or robotic member positioned over the waste conveyor and configured to push the waste off the waste conveyor and into a grinder or into a waste commodity container.

A waste sorting system uses various sensors to automatically determine a type of a piece of waste, and dispense the waste into an appropriate waste bin, such as a recyclable waste bin, or a landfill waste bin. If the system determines that the piece of waste is of a type that is recyclable, it will first determine whether the waste satisfies a recyclability threshold before it deposits the waste into a recyclable waste bin. If the waste does not satisfy the recyclability threshold, the system will direct the piece of waste to a non-recyclable waste bin even if it is of a type that would otherwise be recyclable if it had met the recyclability threshold.

A refuse container having an indicator assembly for informing a waste generator of contamination in a waste stream. A refuse container includes a container body comprising a receptacle portion and a lid coupled with the receptacle portion. The receptacle portion includes a plurality of walls that together define an enclosed space for containing refuse. An indicator device is coupled with the container body. The indicator device is movable relative to the container body between a first position and a second position. First indicia is provided on one of the indicator device or the container body. When the indicator device is in the first position, the first indicia are visible from the exterior of the refuse container, and when the indicator device is in the second position, the first indicia are not visible from the exterior of the refuse container.

One example embodiment is adapted for use in facilitating collection and transport of memory devices, e.g., drives, motherboards, etc., e.g., for the purposes of subsequent destruction. The example embodiment has an outer bin, also called a garage or outer enclosure, within which is placed an inner bin with wheels. Once closed and locked, the outer bin has a door that can be opened so drives or other memory devices can be inserted. The drives then fall into the inner bin and, once sufficiently filled, the inner bin be easily wheeled out from the outer bin. The inner bin has its own locking lid that is secured when transporting the inner bin with the drives, e.g., to a destruction facility or area. Other features are provided as described below. Enhanced synergistic security features include use of multi-point locking latches to secure doors and lids, metal construction of the bins, and so on. The bins are sized to facilitate efficient collection and transport of potentially sensitive data center media.