A beer dispenser having a nozzle for positioning above a container and dispensing beer into the container. The dispenser includes at least one imaging device for generating at least one image of the dispensed beer, and a processor. The processor determines a measured foam height and a liquid upper surface from the at least one image of the dispensed beer, and adjusts a distance between the nozzle and the liquid upper surface as the beer is dispensed to control the measured foam height.

In an approach for pouring control, a processor recognizes that a user requests material from a dispenser with a container. A processor evaluates the container via one or more sensors. A processor determines that the user is allowed to receive the material. A processor, in response to determining that the user is allowed to receive the material, triggers the dispenser to pour the material into the container. A processor monitors the dispenser pouring the material. A processor determines that an anomaly is detected during pouring the material. A processor, in response to determining that the anomaly is detected during pouring the material, signals the dispenser to stop the pouring.

Certain embodiments of the present disclosure are directed to a method that may include identifying at least one metric for a fluid flowing through a line from a vessel to a dispenser. The method may include identifying a reference value for the at least one metric for the fluid. The method may include performing an analysis of the fluid based on the at least one metric for the fluid. The method may include comparing results of the analysis with the reference value. The method may include performing at least one action based on determining that there has been a change in the at least one metric relative to the reference value.

In an approach for pouring control, a processor recognizes that a user requests material from a dispenser with a container. A processor evaluates the container via one or more sensors. A processor determines that the user is allowed to receive the material. A processor, in response to determining that the user is allowed to receive the material, triggers the dispenser to pour the material into the container. A processor monitors the dispenser pouring the material. A processor determines that an anomaly is detected during pouring the material. A processor, in response to determining that the anomaly is detected during pouring the material, signals the dispenser to stop the pouring.

A portable, self-contained beverage apparatus includes a container assembly having a known storage capacity for storing a consumable liquid, and a dispensing assembly disposed within the container assembly that dispenses variable, non-zero quantities of additives into the consumable liquid. The dispensing assembly includes multiple apertures structured and arranged to retain vessels containing the additives to be dispensed into the consumable liquid. The beverage apparatus also includes a level sensor disposed within the container assembly that determines a consumable liquid level of the consumable liquid stored in the container assembly. In certain embodiments, one or more positive displacement pumping mechanisms are configured to pump additive liquid from additive containers into a beverage chamber.

A portable, self-contained beverage apparatus includes a container assembly having a known storage capacity for storing a consumable liquid, and a dispensing assembly disposed within the container assembly that dispenses variable, non-zero quantities of additives into the consumable liquid. The dispensing assembly includes multiple apertures structured and arranged to retain vessels containing the additives to be dispensed into the consumable liquid. The beverage apparatus also includes a level sensor disposed within the container assembly that determines a consumable liquid level of the consumable liquid stored in the container assembly. In certain embodiments, one or more positive displacement pumping mechanisms are configured to pump additive liquid from additive containers into a beverage chamber.

A portable, self-contained beverage apparatus includes a container assembly having a known storage capacity for storing a consumable liquid, and a dispensing assembly disposed within the container assembly that dispenses variable, non-zero quantities of additives into the consumable liquid. The dispensing assembly includes multiple apertures structured and arranged to retain vessels containing the additives to be dispensed into the consumable liquid. The beverage apparatus also includes a level sensor disposed within the container assembly that determines a consumable liquid level of the consumable liquid stored in the container assembly. In certain embodiments, one or more positive displacement pumping mechanisms are configured to pump additive liquid from additive containers into a beverage chamber.

Provided is a portable, self-contained beverage apparatus. The beverage apparatus includes a container assembly having a known storage capacity for storing a consumable liquid, and a dispensing assembly disposed within the container assembly that dispenses variable, non-zero quantities of additives into the consumable liquid. The dispensing assembly includes multiple apertures structured and arranged to retain vessels containing the additives to be dispensed into the consumable liquid. The beverage apparatus also includes a level sensor disposed within the container assembly that determines a consumable liquid level of the consumable liquid stored in the container assembly.

An embodiment relates to an automatic water supply device comprising: a container seating portion, one side of which is open such that a container is placed; a water intake member arranged on the upper portion of the container seating portion so as to supply the container with a liquid; a container height measuring unit and a water level measuring unit arranged to be adjacent to the water intake member, respectively; and a control unit for comparing the height of the container, which is measured by the container height measuring unit, and the water level, which is measuring by the water level measuring unit, thereby checking whether the water level inside the container reaches a preset height or not, and adjusting the water level inside the container using the result of the checking, wherein the container height measuring unit comprises a plurality of first optical sensors for sensing both ends of the upper end of the container, and can measure the height of the container in response to the result of sensing by the first optical sensors.

A foam and liquid fill level detection system includes a first signal emitter operable to emit a signal at a first wavelength towards a dispensing area, a second signal emitter operable to emit a signal at a second wavelength towards the dispensing area, and one or more signal receivers operable to detect the signal at the first wavelength and the signal at the second wavelength from the dispensing area. The first wavelength is selected such the signal at the first wavelength reflects from liquid, and the second wavelength is selected such the signal at the second wavelength reflects from foam.