Methods and systems to estimate compliance of a patient circuit in the presence of leak

What is claimed is: 1. A method for determining compliance of a connecting circuit in a non-invasive ventilator system, the method comprising the steps of: providing a non-invasive ventilator system, the system comprising a mask configured to provide gas to a user, a flow or pressure controller and further comprising a low frequency, high cutoff, low pass filter; generating a test signal by filtering white noise through the low frequency, high cutoff, low pass filter; exciting the flow or pressure controller with the generated test signal for a predetermined time period, wherein excitation occurs over a series of increasing bias flows; obtaining, during the excitation of the pressure or flow controller, a measurement of at least one of a gas pressure or flow rate of the non-invasive ventilator system; determining a vector of pressure of the obtained measurement; and determining, using the determined pressure vector, a parameter of a pressure flow model to indicate compliance of the connecting circuit in the non-invasive ventilator system. 2. The method of claim 1 , wherein the measurement is proximal pressure or blower flow. 3. The method of claim 1 , further comprising the steps of: averaging the one or more measurements obtained during a first subset of the predetermined time period; analyzing the average to determine whether a patient port of the non-invasive ventilator system was blocked and/or if the leak was insufficient during the obtaining step; and proceeding to said determining a vector of the obtained measurement step only if the patient port was blocked and/or the leak was sufficient. 4. The method of claim 1 , wherein the generated test signal is offset by a bias. 5. The method of claim 1 , wherein the vector is determined using a Moore-Penrose pseudo inverse method. 6. The method of claim 1 , further comprising the step of comparing the determined physical parameter estimate measurement to a predetermined range of acceptance. 7. The method of claim 6 , wherein the determined physical parameter estimate is utilized by the non-invasive ventilator system only if the determined physical parameter estimate is within the predetermined range of acceptance. 8. A non-invasive ventilator system, comprising: a remote ventilator component configured to generate a gas source; a user interface comprising a mask configured to provide gas to a user; a connecting circuit configured to connect the remote ventilator component to the user interface; at least one sensor configured to measure at least one of gas flow or pressure; a low frequency, high cutoff, low pass pressure filter, wherein a pressure test signal is filtered; and a controller, the controller configured to generate the pressure test signal by filtering white noise through the low frequency, high cutoff, low pass filter; excite a flow source of the remote ventilator component with the generated pressure test signal for a predetermined time period, wherein excitation occurs over a series of increasing bias flows; obtain a measurement of at least one of a gas pressure or flow rate from the at least one sensor of the system; determine a vector of pressure of the obtained measurement; and determine, using the determined pressure vector, a parameter of a pressure flow model to indicate a compliance of a connecting circuit in the non-invasive ventilator system. 9. The non-invasive ventilator system of claim 8 , wherein the measurement is proximal pressure.