A method of controlling a dishwasher including a tub, at least one spray nozzle, a rack, and a microphone, includes: spraying, by the at least one spray nozzle, washing water while the at least one spray nozzle is rotating, analyzing a characteristic of a sound wave input to the microphone, the sound wave being generated based on the washing water colliding with one or more washing targets in the tub, determining whether a washing target made of a set material is present among the one or more washing targets based on the analyzed characteristic, determining, based on determining that the washing target made of the set material is present, a location in which the washing target made of the set material is present according to the analyzed characteristic, and reducing an amount of impact applied to the washing target made of the set material by the washing water.

A method of controlling a dishwasher includes: linking the dishwasher to an air quality detection device provided at an outside of the dishwasher, receiving information regarding activation of an auto open door (AOD) function of the dishwasher, determining whether a quality of indoor air input from the air quality detection device is within a set range, based on determining that the quality of the indoor air deviates from the set range, recommending a user of the dishwasher to deactivate the AOD function of the dishwasher, maintaining or deactivating the AOD function of the dishwasher based on a command input from the user, and washing a washing target in the dishwasher.

A dishwasher and method utilize a cam-based position sensor that is configured to sense multiple rotational positions for a discretely directable tubular spray element driven by a tubular spray element drive.

A dishwasher appliance can include a basket configured for receipt of articles for washing and a camera assembly mounted within the wash chamber with a view of a rack assembly. A controller is operably coupled with the camera assembly and may be configured for obtaining an image of the rack assembly positioned in the wash chamber, determining whether the basket is positioned in the rack assembly, and adjusting at least one operating parameter of the dishwashing appliance based on whether the basket is positioned in the rack assembly.

In a method for operating a dishwasher, in particular a domestic dishwasher, items to be washed arranged in an interior of the dishwasher are washed during a wash program. A quantity of a specific gas in the interior is determined during the wash program, and a hygiene program is started and/or a notification is outputted to a user of the dishwasher relating to a start of the hygiene program as a function of the determined quantity of the specific gas.

A structural unit, in particular a heating pump for a water-conducting domestic appliance, in particular a domestic dishwasher, includes a heatable tube section through which a liquid can flow during operation and in which one or more mechanical structures are arranged that produce locally different flow speeds of the liquid. A first temperature measuring device is arranged on an outer side of the tube section radially outside a region of lower flow rate or less incident flow, and a second temperature measuring device is arranged on the outer side of the tube section radially outside a region of higher flow rate or more incident flow.

A dishwasher and method utilize a thermal imaging system in a dishwasher to configure a wash cycle and/or perform other operations in the dishwasher.

An automated cleaning machine includes a trained cleaning outcome classifier that automatically classifies or scores cleaning outcomes for a cleaning machine using machine learning techniques. The cleaning outcome classifier may be trained on training data comprising a plurality of training inputs and a known output for each of the plurality of training inputs. Each of the plurality of training inputs may include one or more cleaning process parameters corresponding to a cleaning process executed by a cleaning machine executed during a training phase. The known output for each training input may include a cleaning outcome classification or score. The cleaning outcome of a novel cleaning process may then be classified or scored with the trained cleaning outcome classifier based on one or more cleaning process parameters corresponding to the novel cleaning process.

According to an implementation of the present disclosure, the dishwasher includes a case forming an outer appearance of the dishwasher and defining an opening at a front side of the case; a door configured to open and close the opening; a tub configured to receive washing water; a sump disposed at a bottom surface of the tub and configured to collect and spray the washing water; a rack disposed inside the sump and configured to accommodate a dish; a dish recognition camera configured to capture an upper portion of the rack and disposed at at least one of an inner surface of the door or an inner surface of the tub; and a controller configured to control operation of the dishwasher and the dish recognition camera.

Dishwashing appliances and methods, as provided herein, may include features or steps such as activating the drain pump for an activation period and receiving a pump-status signal during the activation period. Dishwashing appliances and methods may further include features or steps for detecting a pressure (P1) upstream from the drain pump during the activation period, determining a condition at the filter based on the pump-status signal and P1, and directing the drain pump based on the determined condition.