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.

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).

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.

An enhanced local node to be installed to a waste collection site. A radio interface unit is configured for communication using signals specified for radio access in a radio access network, and a radar unit is configured to use information on received or transmitted signals of the radio interface unit to determine a distance from the local node to refuse objects inside a container. The local node thus uses the same signals to detect a fill state of a container and to transmit the fill state of the container from the local node to the control node.

A computer system including sensor and alternative power technologies for enhancing waste disposal and energy efficiency using is provided. The computer system may be configured to receive waste data and recycling data from at least one sensor located proximate to a waste bin, and determine a level of waste in the waste bin based upon the received waste data, and a level of contamination of the waste bin based upon the received recycling data. The computer system may be also configured to determine whether collection of waste in the waste bin or decontamination of the waste bin is required. The computer system may be further configured to generate an alert including information corresponding collection or decontamination of the waste bin, and transmit the alert to one or more client devices associated with at least one user.

A system for storing recyclable containers, such as used food or beverage containers, including a storage for housing recyclable containers, the storage having a set of inner surfaces which defines a storage volume for the recyclable containers; a transporting channel, the transporting channel including an inlet port and an outlet port, wherein the inlet port is arranged to receive compressed and/or uncompressed recyclable containers, and the outlet port being arranged in at least one of the inner surfaces in the set of inner surfaces, a force feeding transporting mechanism configured to transport transfer at least one recyclable container through the transporting channel, and into the storage volume via the outlet port, a centre axis of the outlet port of the transporting channel is directed upwards from the horizontal plane at an angle, the angle being within the range of 15 and 85 at the outlet port of the transporting channel.

In an example embodiment, a universal compacting mechanism can be selectively engaged with an existing trash receptacle of any size or shape. The universal compacting mechanism comprises a housing assembly, a motor, a power source, a plate assembly, and an attachment mechanism. The housing assembly includes a threaded rod extending along at least part of the longitudinal axis of the housing assembly. The motor engages with the threaded rod for rotating the threaded rod about the longitudinal axis of the threaded rod. The power source is electrically connected to the motor for providing power to the motor. The plate assembly includes a compaction plate. The plate assembly is engaged with the threaded rod such that rotation of the threaded rod causes a raising or lowering of the plate assembly. The attachment mechanism selectively engages the trash compactor to an existing trash receptacle of any size or shape.

Systems, methods, and apparatuses for controlling electrically-powered trash receptacles and monitoring fullness levels. The system can include a storage enclosure and a bin contained inside the storage enclosure, the bin configured to receive and store items deposited in the storage enclosure, wherein an inside portion of the bin is at least partially covered by a bag placed inside the bin to hold the items deposited in the storage enclosure. The system can also include a sensor configured to sense a content fullness state of the bin and a processor configured to control operations performed by the sensor. In addition, the system can include a sleeve configured to be installed over an inside portion of the bin and the bag, the sleeve at least partially restricting a movement of the bag.

A tool is disclosed for use in managing waste services. The tool may have an interface configured to receive input from a user indicative of an on-demand service request. The tool may also have a communication device, and a controller in electronic communication with the interface and the communication device. The controller may be configured to transmit a waste management command to a remote service provider via the communication device based on the input.