Vital signs monitor

What is claimed is: 1. A method of estimating a central aortic pressure waveform in a subject comprising: measuring a radial artery pressure waveform in the subject by using an apparatus comprising a wearable device comprising: (a) a supporting structure; (b) a sensor comprising a sensing modality selected from the group consisting of: a thin film strain gauge, a one-dimensional structure, and a planar structure; or two of the sensing modalities in a face-to-face configuration; (c) a processor; and (d) a transmitter; wherein the supporting structure is configured to press the sensor against a skin surface of a subject, wherein the sensor is configured to detect a biological metric of the subject, and wherein the processor is configured to quantify one or more signal(s) corresponding to the biological metric and the transmitter is configured to transmit the one or more signals to an external user system, and transforming the radial artery pressure waveform to a central aortic pressure waveform using a transfer function. 2. The method according to claim 1 , wherein the transfer function describes the properties of a system on the basis of its immediate past input and output data. 3. The method according to claim 2 , wherein the transfer function uses the relation: T ( t )=− a 1 T ( t− 1)− a 2 T ( t− 2)− . . . − a na T ( t−na )+ b 1 P ( t− 1)+ . . . + b nb P ( t−nb )  (1) where T(t) and T(t−I) [I=1, 2 . . . na] are present and are previous output (radial tonometer) discrete measurements, respectively, and P(t−I) are previous input (aortic pressure) discrete measurements, a 1 , a 2 , a na and b nb are parameters of the model, and na and nb represent a number of previous input-output values used to describe the present output. 4. The method according to claim 1 , wherein the wearable device further comprises: memory, and a battery. 5. The method according to claim 4 , wherein the processor, memory, battery and transmitter are comprised within a housing disposed on an inner or an outer side of the supporting structure. 6. The method according to claim 4 , wherein the transfer function describes the properties of a system on the basis of its immediate past input and output data. 7. The method according to claim 6 , wherein the transfer function uses the relation: T ( t )=− a 1 T ( t− 1)− a 2 T ( t− 2)− . . . − a na T ( t−na )+ b 1 P ( t− 1)+ . . . + b nb P ( t−nb )  (1) where T(t) and T(t−I) [I=1, 2 . . . na] are present and are previous output (radial tonometer) discrete measurements, respectively, and P(t−I) are previous input (aortic pressure) discrete measurements, a 1 , a 2 , a na and b nb are parameters of the model, and na and nb represent a number of previous input-output values used to describe the present output.