A recycling system for recycling reusable objects comprises one or more separating and receiving apparatuses and at least one recyclable object. The separating and receiving apparatus for separating reusable objects and residual waste comprises: a first receiving container for receiving residual waste; a second receiving container for receiving labeled objects; and a sorting device. The sorting device is designed to detect labeled objects, transfer detected objects to the second receiving container, and transfer other objects to the first receiving container.

Provided is an automatic classification system. The automatic classification system is designed based on a YOLOV3 technical framework, so that garbage can be classified and recycled, garbage pollution is reduced, and waste is recycled at the maximum cost. The system is designed with a box of a double-layer structure, wherein an upper box is provided with a garbage throwing-in opening, a camera is mounted at the upper box, and the upper top of the upper box is provided with an partition layer for the installation of a solar panel and a storage battery, so as to meet the power supply requirement of the system. The camera captures thrown-in garbage and uses the recognition algorithm to recognize and classify the garbage classes. A lower box is designed into a double-box structure or a multi-box structure according to the class of the garbage, a mechanical and electric control part is arranged at the joint of the upper box and the lower box, two steering engines are used for respectively controlling the rotation of control baffles and a classification baffle so as to automatically drive the garbage to fall into classification boxes corresponding to the class of the garbage. The automatic classification of the garbage can be realized by the disclosure.

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.

In an aspect for waste management based on context conditions are provided, a method comprises receiving an indication of a waste item to be disposed by a person from a position thereof. One or more waste containers being suggested for disposing the waste item are selected according to the waste item, the position, filling indicators of the waste containers, and context conditions relating to the waste containers. A computer program product and computer system for performing the method are also proposed.

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 3 in 1 reverse vending machine. A vending machine that is solar powered and accepts bottles and cans made of plastic, aluminum, and glass. The machine includes a conveyor system, barcode reader and cleaning system, this prepares the bottle and cans to be shredded and then granulated into small pieces. The machine houses a delivery system that carries the smaller pieces of processed material to its predetermined receptacle for storage. Each bottle and can has a monetary value once received by the machine that will be issued to the user once all bottles and cans are received and calculated per user per transaction.

The disclosure relates to a method and a device for collecting garbage. The method includes acquiring a garbage type of garbage to be collected; determining a garbage collector for recycling garbage of the garbage type; and controlling the garbage collector to output a first prompt message to prompt a user to put the garbage to be collected into the garbage collector.

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.

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.