ELECTRONIC DEVICE WITH SELF-LEARNING FUNCTION AND INTELLIGENT CONTROL METHOD THEREOF
First Claim
1. An electronic device with self-learning function, comprising:
- an input unit configured for generating input signals according to operations of a user;
a state detecting unit configured for detecting real-time values of state parameters of the electronic device;
a state recording unit configured for obtaining the real-time values of predetermined state parameters generated by the operation when the input signals are received;
a state analysis unit configured for analyzing whether the times an operation repeats under a same state parameter value have reached or are equal to a predetermined number of times within a predetermined time period, and determining the operation is a habit and the state parameter value corresponding to the operation is the state parameter value of the habit when the times the operation repeats under a same state parameter value have reached or are equal to the predetermined number of times within the predetermined time period; and
a processing unit;
wherein the state detecting unit transmits a trigger signal to the processing unit when the detected real-time state parameter value is equal to the state parameter value of the habit, and the processing unit executes a task corresponding to the habit.
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Abstract
An electronic device with self-learning function includes an input unit, a state detecting unit, a state recording unit, a state analysis unit, and a processing unit. The input unit generates input signals according to operations of a user. The state detecting unit detects real-time values of the state parameters. The state recording unit obtains the real-time values of predetermined state parameters when the input signals are received. The state analysis unit analyzes whether the times of an operation under a same state parameter value or in same state parameter value range has reached or equal to a predetermined number of times within a predetermined time period. If yes, the state analysis unit determines the operation is a habit and the state parameter value corresponding to the operation is the state parameter value of the habit. The processing unit executes a task corresponding to the habit.
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Citations
11 Claims
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1. An electronic device with self-learning function, comprising:
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an input unit configured for generating input signals according to operations of a user; a state detecting unit configured for detecting real-time values of state parameters of the electronic device; a state recording unit configured for obtaining the real-time values of predetermined state parameters generated by the operation when the input signals are received; a state analysis unit configured for analyzing whether the times an operation repeats under a same state parameter value have reached or are equal to a predetermined number of times within a predetermined time period, and determining the operation is a habit and the state parameter value corresponding to the operation is the state parameter value of the habit when the times the operation repeats under a same state parameter value have reached or are equal to the predetermined number of times within the predetermined time period; and a processing unit; wherein the state detecting unit transmits a trigger signal to the processing unit when the detected real-time state parameter value is equal to the state parameter value of the habit, and the processing unit executes a task corresponding to the habit. - View Dependent Claims (2, 3, 4)
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5. An electronic device with self-learning function, comprising:
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an input unit configured for generating input signals according to operations of a user; a state detecting unit configured for detecting real-time values of state parameters of the electronic device; a state recording unit configured for obtaining the real-time values of predetermined state parameters generated by the operation when the input signals are received; a state analysis unit configured for analyzing whether the times the operations repeats in same state parameter value range have reached or are equal to a predetermined number of times within a predetermined time period, and determining the operation is a habit and the state parameter value range is the state parameter value range of the habit when the times the operations repeats in a same state parameter value range have reached or are equal to a predetermined number of times within a predetermined time period; and a processing unit; wherein the state detecting unit transmits a trigger signal to the processing unit when the detected real-time state parameter value falls in the state parameter value range of the habit, and the processing unit executes a task corresponding to the habit. - View Dependent Claims (6, 7, 8)
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9. An intelligent control method of an electronic device, comprising:
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obtaining corresponding values of predetermined state parameters generated by operations of a user when input signals are received; recording the operations of the user and real-time values of the corresponding predetermined status parameters; analyzing whether the times of an operation under a same state parameter value or in a same state parameter value range have reached or are equal to a predetermined number of times within a predetermined time period; determining the operation is a habit and the state parameter value or value range is a state parameter value or value range of the habit when the times of an operation under a same state parameter value or in a same state parameter value range have reached or are equal to a predetermined number of times within a predetermined time period; detecting a real-time value of one of the predetermined state parameters, and determining whether the real-time value of the predetermined state parameter is equal to the state parameter value or falls in the state parameter value range of the habit; transmitting a trigger signal when the real-time value of the predetermined state parameter is equal to the state parameter value or falls in the state parameter value range of the habit; and executing a task corresponding to the habit.
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- 10. The method as described in claim 10, further comprising the step of determining the habit corresponding to the predetermined state parameter according to the trigger signal.
Specification