Method, device, and system for detecting dynamic imbalance of washing machine

What is claimed is: 1. A device for determining a dynamic imbalance error of a washing machine having four legs, the device comprising: a vibration sensor attachable to a washing machine cabinet at a position spaced by a predetermined distance from a vibration axis that connects two legs among the four legs of the washing machine that are in contact with a floor during operation of the washing machine; and a controller configured to receive a vibration signal detected by the vibration sensor during the operation of the washing machine and processing the vibration signal into vibration data, wherein, in a vibration level state in which two remaining legs of the four legs that vibrate about the vibration axis alternately vibrate the controller is configured to: process the vibration data when a gap between a vibrating leg of the two remaining legs and the floor is outside a predetermine range to determine the washing machine as being in a dynamically imbalanced position; generate a training dataset by collecting at least one of a displacement magnitude of the vibration sensor, a displacement ratio of the vibration sensor, and a displacement phase of the vibration sensor; determine result values of dynamic balance and dynamic imbalance labeled with the at least one of the displacement magnitude, the displacement ratio, and the displacement phase after operating the washing machine multiple times; and determine whether the washing machine is in a dynamically imbalanced position by applying a model trained to the vibration data received after training the model by training a machine learning algorithm on the training dataset to determine the dynamic imbalance of the washing machine. 2. The device according to claim 1 , wherein the controller is configured to determine whether the washing machine is in a dynamically imbalanced position based on at least one of the displacement magnitude, which is calculated from the vibration signal detected by the vibration sensor during the operation of the washing machine, the displacement ratio of a vertical component to a horizontal component of a displacement of the vibration sensor, or the displacement phase of an angle between a direction of the displacement of the vibration sensor and the horizontal plane including the vibration axis parallel to the floor. 3. The device according to claim 2 , wherein the controller is configured to select one state among floating of a back left leg of the four legs, floating of a back right leg of the four legs, and a normal level, based on the displacement ratio. 4. The device according to claim 2 , wherein the controller is configured to: determine whether the washing machine is in the dynamically imbalanced position based on the displacement phase when the vibration sensor is positioned at a middle of an edge of the washing machine cabinet; or determine whether the washing machine is in the dynamically imbalanced position based on the displacement ratio when the vibration sensor is positioned at one of four corners of the washing machine cabinet. 5. The device according to claim 1 , wherein the controller is configured to: determine whether the washing machine is in the dynamically imbalanced position through a test operation of the washing machine when the washing machine is used for a first time after being installed; and notify a user that the washing machine is in the dynamically imbalanced position via a display panel of the washing machine or a smartphone application or make a request for rebalancing the washing machine to the user. 6. A dynamic imbalance determination system comprising: a washing machine including: a washing machine cabinet; four legs connected to the washing machine cabinet; a vibration sensor attached to the washing machine cabinet at a position spaced by a predetermined distance from a vibration axis that connects two legs among the four legs of the washing machine that are in contact with a floor during operation of the washing machine; and a controller configured to receive a vibration signal detected by the vibration sensor during the operation of the washing machine and processing the vibration signal into vibration data; and a server that remotely communicates with the washing machine, wherein in a vibration level state in which two remaining legs of the four legs that vibrate about the vibration axis alternately vibrate, wherein the server is configured to: receive vibration data from the controller and process the vibration data when a gap between a vibrating leg of the two remaining legs and the floor is outside a predetermine range to determine the washing machine as being in a dynamically imbalanced position; generate a training dataset by collecting at least one of a displacement magnitude of the vibration sensor, a displacement ratio of the vibration sensor, or a displacement phase of the vibration sensor; determine result values of dynamic balance and dynamic imbalance labeled with the at least one of the displacement magnitude, the displacement ratio, or the displacement phase after operating the washing machine multiple times; determine a trained model by training a machine learning algorithm on the training dataset to determine the dynamic imbalance of the washing machine; and determine whether the washing machine is in a dynamically imbalanced position by applying the trained mode to the data received after the tmined model is training the model. 7. The system according to claim 6 , wherein the server is configured to: notify a user of the dynamic imbalance via a smartphone application or a display panel of the washing machine; provide the user with an instruction helping the user balance the washing machine; or request the user to rebalance the washing machine. 8. The system according to claim 6 , wherein the machine learning algorithm uses the Naive Bayses Classification after operating the washing machine multiple times, and the server is configured to notify the user of the dynamic imbalance or request the user to rebalance the washing machine when a prediction reliability of the dynamic imbalance is a specific percentage value or more when applying the Naive Bayses Classification to the vibration data. 9. The system according to claim 6 , wherein the server is configured to: collect at least one of a displacement magnitude, a displacement ratio, or a displacement phase measured from a comparative washing machine that is a same kind as the washing machine; determine result values of dynamic balance and dynamic imbalance labeled with the at least one of the displacement magnitude, the displacement ratio, or the displacement phase from the comparative washing machine; generate a training dataset from the at least one of the displacement magnitude, the displacement ratio, and the displacement phase from the comparative washing machine, and the determined result values labeled with the at least one of the displacement magnitude, the displacement ratio, or the displacement phase from the comparative washing machine; train a machine learning algorithm on the training dataset to determine the dynamic imbalance, thereby training the model; and determine whether the washing machine is in a dynamically imbalanced position by applying the model trained on the same kind of comparative washing machine to the washing machine.