Method and device for inflating a cuff of a non-invasive blood pressure measurement apparatus

The invention claimed is: 1. A method of inflating a cuff of a non-invasive blood pressure measurement apparatus, the method comprising the steps of: determining a plurality of target pressure values of the cuff for a plurality of time points; measuring a plurality of pressure values of the cuff at the plurality of time points; calculating an inflation speed parameter at one of time points (i+1), by determining a summation comprising: a difference between the target pressure values at said one time point (i+1) and a previous time point (i), a difference between the measured pressure values at said one time point (i+1) and the previous time point (i), a ratio of the determined difference in target pressure values to the difference in measured pressure values, multiplying a value of the inflation speed parameter at the previous time point (i) by the ratio and a weighting factor specific to the previous time point (i), wherein the summation is carried out from an initial time point (i=1) to a current time point (n−1), wherein the sum of the weighting factors from the initial time point (i=1) to the current time point (n−1) is equal to 1; and inflating the cuff at a speed corresponding to the calculated inflation speed parameter from said current time point (n−1) until a next time point (n). 2. The method as claimed in claim 1 , wherein each time interval between every two adjacent time points is a predefined time period. 3. The method as claimed in claim 2 , wherein the predefined time period is in a range of 100 ms to 800 ms. 4. The method as claimed in claim 1 , wherein the plurality of target pressure values of the cuff is determined based on a maximum pressure value used in the blood pressure measurement and a target time to complete the inflating of the cuff. 5. The method as claimed in claim 1 , wherein calculating the inflation speed parameter further includes: multiplying the value of the inflation speed parameter multiplied by the ratio by a weighting factor. 6. A device for inflating a cuff of a non-invasive blood pressure measurement apparatus, the device comprising: a pressure sensor configured to sense a plurality of pressure values of the cuff at each of a plurality of time points; a processor configured to: determine a plurality of target pressure values of the cuff for a plurality of time points; measure a plurality of pressure values of the cuff at the plurality of time points; calculate an inflation speed parameter at one of time points (i+1), by determining a summation comprising: p 2 a difference between the target pressure values at said one time point (i+1) and a previous time point (i), a difference between the measured pressure values at said one time point (i+1) and the previous time point (i), a ratio of the determined difference in target pressure values to the difference in measured pressure values, multiplying a value of the inflation speed parameter at the previous time point (i) by the ratio and a weighting factor specific to the previous time point (i), wherein the summation is carried out from an initial time point (i=1) to a current time point (n−1), wherein the sum of the weighting factors from the initial time point (i=1) to the current time point (n−1) is equal to 1; and an inflation unit configured to inflate the cuff at a speed corresponding to the calculated inflation speed parameter from the current time point (n−1) until a next time point (n). 7. The device as claimed in claim 6 , wherein each time interval between every two adjacent time points is a predefined time period. 8. The device as claimed in claim 7 , wherein the predefined time period is in a range of 100 ms to 800 ms. 9. The device as claimed in claim 6 , wherein the processor is configured to: calculate the difference between the target pressure values at the current time point and the previous time point by subtractively combining the target pressure point for the current time point and the target pressure value for the previous time point; calculate the difference between the sensed pressure values at the current time point and the previous time point by subtractively combining the sensed pressure point for the current time point and the sensed pressure value for the previous time point. 10. The device as claimed in claim 6 , wherein the processor is configured to: calculate the current inflation speed by multiplicatively combining the previous inflation speed parameter, the ratio, and a weighting value. 11. The device as claimed in claim 6 , wherein adjacent ones of the plurality of time points are each separated by a predefined time period. 12. The device as claimed in claim 11 , wherein the predefined time period is between 100 ms to 800 ms. 13. A device for inflating a cuff of a non-invasive blood pressure measurement apparatus, the device comprising: a pressure sensor configured to sense a plurality of pressure values of the cuff at each of a plurality of time points; a processor configured to calculate a next inflation speed parameter S n , by means of the following equation: S = ∑ i = 0 n - 1 ⁢ ⁢ PM i + 1 - PM i P i + 1 - P i × S i × K i - 1 wherein n is a total number of time points of the plurality of time points, PM i+1 is a target pressure value of the cuff at the time point i+1 of a plurality of time points, P i+1 is the pressure value of the cuff at the time point i+1 of a plurality of time points, S i is the inflation speed parameter corresponding to the time interval between a current time point n−1 and the next time point n and K i is a weighting factor, where K i+1 ≧K 1 ; and K i + 1 ≥ K i ; and