A series of techniques incorporated in two sensing methods that enable fullness detection whilst minimizing the current consumption of the battery operated wireless electronic circuitry that implements the detection.

A monitoring system comprises a plurality of monitoring stations disposed in or associated with a respective rubbish bin housing or surround. Each monitoring station comprising an identifier, a sensor for monitoring the bin or a detectable quality of the environment in which the bin is located, a processor for receiving a signal from the sensor and a transmitter for transmitting the signal.

A storage receptacle can include a storage bin and a pedal mounted to the receptacle as well as a hopper. A method of using the storage receptacle can include receiving a force on a hopper handle of a hopper of a storage receptacle, the hopper having a cable connection point connected to a cable, based on the force, rotating the hopper to enable a user to place material in a storage bin of the storage receptacle, wherein the rotating causes the cable to have slack and preventing the cable having the slack from coming out of a groove in a pulley via a shroud positioned over at least a portion of the pulley.

Systems, methods, and computer-readable storage media for dynamically adjusting sensors for use in compactors and receptacles. A receptacle first sends a signal from a transmitter on a first module in a receptacle to a receiver on a second module in the receptacle, wherein the first module is located on a first inner wall of the receptacle and the second module is located on a second inner wall of the receptacle, and wherein at least part of the first module and the second module is located a distance above a bin inside the receptacle. Next, the receptacle determines a signal-detection characteristic including a signal detection status or a number of signal pulses associated with a signal detection. Based on the signal-detection characteristic, the receptacle determines an operating condition of the receptacle, the operating condition including a fullness level or an obstruction level associated with the first or second sensors.

A trash container includes a container unit and a sanitary and health control arrangement. The container unit includes a container having a top opening and a container cavity, and a container cover being moved between an opened position and a closed position. The sanitary and health control arrangement includes a monitoring module coupled at the container unit for collecting different trash information thereof, and a sanitary module operatively linked to the monitoring module for maintaining the container unit in a sanitary manner in response to the trash information.

A waste container monitoring system may include a monitoring device configured to be positioned in a waste container, a remote processing system, and sensors to monitor conditions of the container. A communication connection communicates the one or more conditions to the remote processing system. A waste compactor monitoring system may include a monitoring assembly having a hub device and one or more sensors connected to the hub device and distributed around the waste compactor system, the one or more sensors being configured to monitor one or more conditions of the waste compactor system. A sensor assembly for a waste container monitoring system may connect to a hydraulic reservoir in a waste compactor. The sensor assembly may include a breather cap, a sensing element for detecting a level and/or a temperature of fluid in the hydraulic reservoir, and a dip tube to support the sensing element inside the hydraulic reservoir.

A system and bin monitoring units are adapted to monitor the status of plurality of garbage bins and to collect bins status in a central service unit, to store and analyze the status of the garbage bins and to control the operation and collection travel plans of garbage field service units that comprise garbage collection trucks and garbage collection stuff.

Systems, methods, and computer-readable storage media for dynamically adjusting sensors for use in compactors and receptacles. A receptacle first sends a signal from a transmitter on a first module in a receptacle to a receiver on a second module in the receptacle, wherein the first module is located on a first inner wall of the receptacle and the second module is located on a second inner wall of the receptacle, and wherein at least part of the first module and the second module is located a distance above a bin inside the receptacle. Next, the receptacle determines a signal-detection characteristic including a signal detection status or a number of signal pulses associated with a signal detection. Based on the signal-detection characteristic, the receptacle determines an operating condition of the receptacle, the operating condition including a fullness level or an obstruction level associated with the first or second sensors.

Movable integrated system for waste collection, including a container structure, adapted to be installed at least partially above ground, the structure including a plurality of access doors to a plurality of waste collection compartments or containers contained in the container structure that are made of two-dimensional modular structure; the container structure integrates a waste compaction unit supplied by a respective access hatch and transferring compacted waste into the collection containers.

A compacting system includes a container, a ram extendable into the container to compact waste, and a gate that is selectively deployable to close off the opening in the container to prevent the fallback of waste into the loading area. The system also includes at least one sensor for providing information as to an actual level of waste within the container.