A bottle having a water volume measuring function comprises a bottle-lid, a bottle-body, and a measure module disposed in the bottle-lid which comprises at least a micro controller unit, a memory unit and a sound wave transceiver unit. The memory unit stores a lookup table with corresponding relationships between a plurality of frequencies and remained water volumes in the bottle-body. The sound wave transceiver unit emits sound waves with sweeping frequencies towards the bottle-body and receives reflected waves. The micro controller unit determines if any frequency of the sound waves is an air-resonance frequency according to the energy level of each of the reflected waves. When a sound wave frequency is determined as an air-resonance frequency, the micro controller unit obtains the corresponding remained water volume by checking with the air-resonance frequency in the lookup table and users can view the remained water volume without opening the bottle-lid.

A bottle having a water volume measuring function comprises a bottle-lid, a bottle-body, and a measure module disposed in the bottle-lid which comprises at least a micro controller unit, a memory unit and a sound wave transceiver unit. The memory unit stores a lookup table with corresponding relationships between a plurality of frequencies and remained water volumes in the bottle-body. The sound wave transceiver unit emits sound waves with sweeping frequencies towards the bottle-body and receives reflected waves. The micro controller unit determines if any frequency of the sound waves is an air-resonance frequency according to the energy level of each of the reflected waves. When a sound wave frequency is determined as an air-resonance frequency, the micro controller unit obtains the corresponding remained water volume by checking with the air-resonance frequency in the lookup table and users can view the remained water volume without opening the bottle-lid.

A beverage container includes a processor, an electronic display, and one or more sensors. The beverage container includes a beverage compartment for human consumption and a sample compartment for storing a sample of the same beverage stored in the beverage compartment for measuring parameters of the beverage over time. The sensors read parameters related to the beverage and the container. The processor determines the quality of wine in a wine bottle, the temperature history of the wine bottle, and the percentage of time the wine bottle has been stored horizontally. The processor determines whether the beverage in a carbonated beverage container may spill after the container is shaken. The processor determines whether opening of a champagne bottle may result in the cork to pop up. The processor may display customized messages and animations on the electronic display. The processor changes the language used to display based on the container's location.

A beverage container includes a processor, an electronic display, and one or more sensors. The beverage container includes a beverage compartment for human consumption and a sample compartment for storing a sample of the same beverage stored in the beverage compartment for measuring parameters of the beverage over time. The sensors read parameters related to the beverage and the container. The processor determines the quality of wine in a wine bottle, the temperature history of the wine bottle, and the percentage of time the wine bottle has been stored horizontally. The processor determines whether the beverage in a carbonated beverage container may spill after the container is shaken. The processor determines whether opening of a champagne bottle may result in the cork to pop up. The processor may display customized messages and animations on the electronic display. The processor changes the language used to display based on the container's location.

A beverage container includes a processor, an electronic display, and one or more sensors. The beverage container includes a beverage compartment for human consumption and a sample compartment for storing a sample of the same beverage stored in the beverage compartment for measuring parameters of the beverage over time. The sensors read parameters related to the beverage and the container. The processor determines the quality of wine in a wine bottle, the temperature history of the wine bottle, and the percentage of time the wine bottle has been stored horizontally. The processor determines whether the beverage in a carbonated beverage container may spill after the container is shaken. The processor determines whether opening of a champagne bottle may result in the cork to pop up. The processor may display customized messages and animations on the electronic display. The processor changes the language used to display based on the container's location.

A beverage container includes a processor, an electronic display, and one or more sensors. The beverage container includes a beverage compartment for human consumption and a sample compartment for storing a sample of the same beverage stored in the beverage compartment for measuring parameters of the beverage over time. The sensors read parameters related to the beverage and the container. The processor determines the quality of wine in a wine bottle, the temperature history of the wine bottle, and the percentage of time the wine bottle has been stored horizontally. The processor determines whether the beverage in a carbonated beverage container may spill after the container is shaken. The processor determines whether opening of a champagne bottle may result in the cork to pop up. The processor may display customized messages and animations on the electronic display. The processor changes the language used to display based on the container's location.