This disclosure describes a collection bin for a waste collection vehicle. The collection bin includes a weighing system with a processor for measuring the weight of material collected from each waste container and associating this weight with appropriate data, such as the owner of the waste container.

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 chair device, a mattress device, and a propping device are provided. The chair device includes a support stand, a seat module disposed above the support stand, a connection module disposed at one side of the seat module, a back support module connected to the connection module and disposed at one side of the seat module, a first pressure adjustment module disposed in the seat module, a second pressure adjustment module disposed in the back support module, a first pressure sensing module disposed in the seat module, a second pressure sensing module disposed in the back support module, and a control module. The control module adjusts the first pressure adjustment module according to first sensed pressure signals from the first pressure sensing module, and adjusts the second pressure adjustment module according to second sensed pressure signals from the second pressure sensing module.

A tableware washing device and a method of washing tablewares are provided. The tableware washing device includes: a casing including a first accommodating space, which is used for accommodating at least one tableware for performing a washing process, a carrying module disposed in the casing, a control module, a first cleaning module disposed on an inner side of the casing and electrically connected to the control module, and a first image capture module electrically connected to the control module and disposed in the casing. The first cleaning module includes a plurality of first cleaning units that respectively provide a plurality of cleaning jets to clean the at least one tableware. The control module determines whether or not the at least one tableware is clean through a plurality of first cleaning procedure image informations captured by the first image capture module.

A waste storage device and an intelligent management system are provided. The waste storage device includes: a casing, a control module disposed in the casing, a microphone module disposed on an outer surface of the casing, and a moving module electrically connected to the control module. The microphone module is electrically connected to the control module. When the microphone module receives a first audio signal, the microphone module transmits the first audio signal to the control module, the control module analyzes an audio sending direction of the first audio signal, and the control module provides a driving signal to the moving module according to the first audio signal to drive the waste storage device to move in the audio sending direction.

Waste chute devices and methods for using the same are provided. In some embodiments, a method for operating waste chutes comprises: receiving, using a hardware processor of a waste chute device, an identity associated with a user of the waste chute device; in response to receiving the identity associated with the user, allowing, using the hardware processor, a door of the waste chute device to be opened; determining, using the hardware processor, a number of items and at least one type associated with the items that have been placed in an opening of the waste chute device; determining, using the hardware processor, that the door of the waste chute device has been closed; updating, using the hardware processor, information associated with the user based on the number of items and the at least one type of items that have been placed in the opening of the waste chute device; and providing, using the hardware processor, the user with the updated information.

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 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 recycling system with an automated dumpster includes a main body and the main body includes a main control module. The main control module includes a main control unit, and is electrically connected to a dumpster module. The dumpster module includes a dumpster and the dumpster includes a sub-control module. The sub-control module includes a sub-control unit. The sub-control unit is electrically connected to a power unit and a scanning unit. The power unit is used to drive the dumpster and the scanning unit is disposed at the front end of the dumpster to receive signals. The sub-control unit also includes guiding units. The guiding unit is disposed on the transporting path of the dumpster. By the scanning unit, the scanned signal is transmitted back to the sub-control unit to control the dumpster moving automatically.

Embodiments of the present invention are related to an autonomously propelled waste receptacle including a top, a collapsible lid, a housing, an exterior, an interior, and a bottom. The housing includes a circuit board panel, a door, and doorway. The exterior includes a user interface, a plurality of sensors, at least one antenna, and a camera. The interior includes a bin, a trash compactor with a plurality of threaded rods connected to the collapsible lid, an upper can platform, and a bottom tech platform. The bottom includes a plurality of wheels used to drive the autonomously propelled waste receptacle.

The collapsible lid also acts as a descending masher compacting trash within the interior bin and the bin is structured to rotate through the doorway to empty. The autonomously propelled waste receptacle may navigate using at least one of sensors, camera, WiFi communication, cellular communication, and GPS communication.