Apparatus for determining blood pressure

The invention claimed is: 1. An apparatus for determining a blood pressure of a user, comprising: an acquisition portion, configured to collect a pulse wave signal and an ECG signal including a heart rate, a pulse wave transmit time, a pulse wave rise time, a pulse wave fall time, and a pulse wave peak value and a pulse wave trough value of two adjacent repeat cycles from the user; a characteristic parameter determination portion, configured to extract characteristic parameters of the user corresponding respectively to the pulse wave signal and the ECG signal including the heart rate, the pulse wave transmit time, the pulse wave rise time, the pulse wave fall time, and the pulse wave peak value and the pulse wave trough value of two adjacent repeat cycles; a characteristic vector determination portion, configured to establish a characteristic vector of the user based on the characteristic parameters of the user extracted by the characteristic parameter determination portion and personal information of the user including gender, age, height, and weight of the user; and a blood pressure determination portion, configured to determine the blood pressure of the user based on the characteristic vector of the user established by the characteristic vector determination portion and a characteristic-vector-and-blood-pressure relational model; wherein the characteristic-vector-and-blood-pressure relational model is pre-established based on characteristic vectors and corresponding blood pressures of a first sub-population of sample individuals; the apparatus further comprising a model testing portion, wherein: the model testing portion is configured, after the characteristic-vector-and-blood-pressure relational model is determined: to obtain a calculated blood pressure of a second sub-population of the sample individuals, the second sub-population of the sample individuals being different from the first sub-population of the sample individuals and for testing of optimal coefficients of each parameter in the characteristic-vector-and-blood-pressure relational model, the calculated blood pressure of the second sub-population being based on the characteristic-vector-and-blood-pressure relational model and the characteristic vector of the second sub-population of the sample individuals; and upon determination by the apparatus that a difference between the calculated blood pressure and the determined blood pressure of the second sub-population of the sample individuals does not satisfy a standard, the apparatus re-determines the characteristic-vector-and-blood-pressure relational model until the standard is met; and wherein upon the difference satisfies the standard, the apparatus determines the characteristic-vector-and-blood-pressure relational model. 2. The apparatus of claim 1 , wherein: the acquisition portion and the characteristic parameter determination portion are arranged in an acquisition device; the characteristic vector determination portion and the blood pressure determination portion are arranged in a computing device; and the acquisition device is configured to send the characteristic parameters of the user to the computing device. 3. The apparatus of claim 2 , wherein the acquisition device is a wearable smart device. 4. The apparatus of claim 2 , wherein the computing device comprises one of a smart phone, a computer, or a remote server. 5. The apparatus of claim 2 , wherein the acquisition device is configured to send the characteristic parameters of the user to the computing device via a wireless communication, selected from one of a cellular communication, a Bluetooth communication, and a Wi-Fi communication. 6. The apparatus of claim 1 , further comprising a model determination portion, wherein: the model determination portion is configured to determine a characteristic-vector-and-blood-pressure relational model based on the characteristic vector and corresponding blood pressure of a first sub-population of sample individuals; the acquisition portion is further configured to measure a pulse wave signal, an ECG signal, and a blood pressure of each of a plurality of sample individuals at each of a plurality of time intervals; and the characteristic vector determination portion is further configured, after extracting characteristic parameters of each sample individual at each time interval from the ECG signal and the pulse wave signal thereof, to establish a characteristic vector of the each sample individual based on the characteristic parameters and pre-determined personal information of the each sample individual. 7. The apparatus of claim 1 , wherein the pre-established characteristic-vector-blood-pressure relation model is established via a support vector machine algorithm. 8. The apparatus of claim 1 , wherein the characteristic-vector-and-blood-pressure relational model allows the apparatus to determine the blood pressure of the user without individual calibration for the user. 9. The apparatus of claim 1 , wherein the apparatus is a cuff-less blood pressure measurement apparatus based on the characteristic vector of the user and the pre-established characteristic-vector-and-blood-pressure relational model. 10. The apparatus of claim 9 , wherein the characteristic vector of the user includes personal information of the user and characteristic parameters of the user that are determined based on the ECG signal and the pulse wave signal of the user, and the apparatus is configured to obtain the blood pressure of the user without individual calibration for the user. 11. The apparatus of claim 10 , wherein the first sub-population are configured for the determination of the characteristic-vector-and-blood-pressure relational model, and the second sub-population are configured for testing of the optimal coefficients of each parameter in the relational model that have been determined. 12. The apparatus of claim 11 , wherein the standard is set as within ±5 mmHg for an average of differences, or <12 mmHg of a standard deviation, and an accuracy of the relational model is determined by an average or a standard deviation of a difference between a calculated blood pressure based on the second sub-population and the measured blood pressure. 13. The apparatus of claim 12 , wherein upon a testing result meeting the standard, the apparatus is configured to output the characteristic-vector-and-blood-pressure relational model as characteristic-vector-and-blood-pressure relational model for subsequent determination of a blood pressure of a user. 14. The apparatus of claim 13 , wherein the apparatus is configured to determine the characteristic-vector-and-blood-pressure relational model based on: y = ∑ i = 1 I ⁢ ⁢ ( α i - α i * )