Leak estimation using function estimation

The invention claimed is: 1. A method of estimating leak flow Q leak in a gas delivery system, comprising: generating a first flow of gas from a pressure or flow generator of the gas delivery system; determining a patient flow Q p , wherein the patient flow Q p is a flow of gas delivered to a patient by the gas delivery system; and determining a transfer function φ(x) that estimates the leak flow Q leak , where x is a set of independent measured or fixed variables, based on an adaptive filter constraining patient flow Q p , wherein the constraint regarding patient flow Q p is patient flow Q p equals zero, wherein the transfer function φ(x) is Q leak =g orf ·P p γ , where γ is a predetermined exponent, P p is patient pressure, and g orf is a lumped coefficient, wherein the coefficient g orf is adapted until Q p is zero, and wherein the determining of the transfer function includes adjusting the coefficient g orf to produce zero patient flow Q p by filtering the patient flow Q p to obtain a filtered Q p , multiplying the filtered Q p by a constant K fg to obtain a product, and adding the product to a previous g orf . 2. The method according to claim 1 , wherein the filtering of the patient flow Q p comprises low pass filtering the patient flow Q p . 3. The method according to claim 1 , wherein the set of independent measured or fixed variables comprises at least one of a patient interface parameter, a respiratory parameter and an ambient condition parameter. 4. A method of estimating leak flow Q leak in a gas delivery system, comprising: generating a first flow of gas from a pressure or flow generator of the gas delivery system; determining a patient flow Q p , wherein the patient flow Q p is a flow of gas delivered to a patient by the gas delivery system; and determining a transfer function φ(x) that estimates the leak flow Q leak , where x is a set of independent measured or fixed variables, based on an adaptive filter constraining patient flow Q p , wherein the constraint regarding patient flow Q p is patient flow Q p equals zero, wherein the transfer function φ(x) is Q leak =g orf ·P p γ , where γ is a predetermined exponent, P p is patient pressure, and g orf is a lumped coefficient, wherein the coefficient g orf is adapted until Q p is zero, the method further comprising determining whether g orf is less than 0, and if g orf is less than 0, setting Q leak equal to g orf . 5. A gas delivery system, comprising: a pressure or flow generating system adapted to produce a first flow of gas; a patient circuit operatively coupled to the pressure or flow generating system; and a controller operatively coupled to the pressure or flow generating system, the controller being programmed to estimate leak flow Q leak in the gas delivery system by: determining a patient flow Q p , wherein the patient flow Q p is a flow of gas delivered to a patient by the gas delivery system; and determining a transfer function φ(x) that estimates the leak flow Q leak , where x is a set of independent measured or fixed variables, based on an adaptive filter constraining patient flow Q p , wherein the constraint regarding patient flow Q p is patient flow Q p equals zero, wherein the transfer function φ(x) is Q leak =g orf ·P p γ , where γ is a predetermined exponent, P p is patient pressure, and g orf is a lumped coefficient, wherein the coefficient g orf is adapted until Q p is zero, and wherein the determining of the transfer function includes adjusting the coefficient g orf to produce zero patient flow Q p by filtering the patient flow Q p to obtain a filtered Q p , multiplying the filtered Q p by a constant K fg to obtain a product, and adding the product to a previous g orf . 6. The gas delivery system according to claim 5 , wherein the filtering of the patient flow Q p comprises low pass filtering the patient flow Q p . 7. The gas delivery system according to claim 5 , wherein the set of independent measured or fixed variables comprises at least one of a patient interface parameter, a respiratory parameter and an ambient condition parameter. 8. A gas delivery system, comprising: a pressure or flow generating system adapted to produce a first flow of gas; a patient circuit operatively coupled to the pressure or flow generating system; and a controller operatively coupled to the pressure or flow generating system, the controller being programmed to estimate leak flow Q leak in the gas delivery system by: determining a patient flow Q p , wherein the patient flow Q p is a flow of gas delivered to the patient by the gas delivery system; and determining a transfer function φ(x) that estimates the leak flow Q leak , where x is a set of independent measured or fixed variables, based on an adaptive filter constraining patient flow Q p , wherein the constraint regarding patient flow Q p is patient flow Q p equals zero, wherein the transfer function φ(x) is Q leak =g orf ·P p γ , where γ is a predetermined exponent, P p is patient pressure, and g orf is a lumped coefficient, wherein the coefficient g orf is adapted until Q p is zero, and wherein the controller is further programmed to determine whether g orf is less than 0, and if g orf is less than 0, set Q leak equal to g orf .