A waste management system comprises a waste bin storing waste, wherein the waste bin comprises a smart waste bin sensor device installed on the waste bin of a waste bin owner. The smart waste bin sensor device comprises a set of sensors that sends and receives signals through a wireless network to a cloud server. The set of sensors implements, operates, detects, measures, and monitors environmental conditions inside or outside the waste bin. A waste and litter sensor detects, measures, and monitors a waste type, a waste volume, a litter type, a litter level, a biohazardous waste type, and a biohazardous waste level. A pathogen biosensor detects, measures, and monitors a pathogen type and a biosafety level. The pathogen biosensor comprises a sterilizer to kill pathogens. A waste bin mobile application and a waste collection facility application functionality enable a user to monitor waste in the waste bin.

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 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 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 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.

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.

Systems, methods, and articles of manufacture for controlling a compression action of a trash receptacle of an aircraft lavatory. Generally, the systems, methods, and articles of manufacture disclosed and described herein facilitate controlled opening and closing actuations of a flap of a trash receptacle of an aircraft lavatory, and a compression action after detection of at least the closing actuation of trash deposits in the trash receptacle to increase the interior volume of the trash receptacle. By controlling the closing actuations of the flap and compression actions of trash deposits, hygiene and sanitation of the lavatory are improved, odors are prevented from dispersing throughout the lavatory and/or cabin of the aircraft, and fire hazards are reduced.

The present invention relates to a system and a method for monitoring content of a waste container. The system comprises at least one monitoring device comprising a gas sensor for detecting a concentration of at least one gas within a waste container. The system is configured such that when the at least one monitoring device is mounted to the waste container, the monitoring device is configured to communicate information indicative of the detected gas concentration within the waste container via the network interface to a remote computing device such that the system can determine whether the detected concentration of the at least one gas within the waste container exceeds or falls below a pre-determined threshold.

The sorting waste receptacle sorts and temporarily stores differing types of waste items. The sorting waste receptacle includes a hollow housing having a top wall, a bottom wall and at least one sidewall. The top wall has an opening formed therein for depositing a waste item, and a lower interior portion of the hollow housing is divided into a plurality of separate compartments, each compartment corresponding to a different type of waste. When the waste item is inserted through the opening formed in the top wall, the waste item is temporarily held within a movable chute inside the hollow housing. While in the chute, the waste item is weighed by a scale and at least one sensor determines its composition. Based on the composition of the waste item, the chute is moved above the corresponding one of the separate compartments for dispensing of the waste item therein.