Systems and methods for determining a length and/or a diameter of a conduit

What is claimed is: 1 . A method comprising: generating acoustic data representative of at least one or more reflections of an acoustic signal in a conduit coupled to a respiratory therapy device, the one or more reflections being indicative of a length of the conduit, a diameter of the conduit, or both the length and the diameter of the conduit; and analyzing the acoustic data to determine the length of the conduit, the diameter of the conduit, or both the length of the conduit and the diameter of the conduit, the analyzing including: producing a frequency intensity signal from the acoustic data, the frequency intensity signal representing an intensity of the one or more reflections of the acoustic signal across a frequency band; selecting a portion of the frequency intensity signal expected to include the resonant frequency of the conduit; calculating a transform of the selected portion of the frequency intensity signal to generate a wave period intensity signal; extracting a resonant frequency of the conduit from the wave period intensity signal; and determining the length of the conduit based at least in part on the resonant frequency of the conduit. 2 . The method of claim 1 , wherein analyzing the acoustic data to determine the length of the conduit, the diameter of the conduit, or both the length of the conduit and the diameter of the conduit includes: comparing at least a portion of the acoustic data to one or more predetermined sets of acoustic data, each of the one or more predetermined sets of acoustic data corresponding to (i) a conduit having a known length, (ii) a conduit having a known diameter, or (iii) both (i) and (ii); and selecting one of the one or more predetermined sets of acoustic data that matches the portion of the acoustic data, the selected predetermined set of acoustic data corresponding to the length of the conduit, the diameter of the conduit, or both the length of the conduit and the diameter of the conduit. 3 . The method of claim 1 , wherein analyzing the acoustic data to determine the length of the conduit, the diameter of the conduit, or both the length of the conduit and the diameter of the conduit includes: comparing the frequency-domain intensity signal to one or more predetermined frequency intensity signals, each of the one or more predetermined frequency intensity signals corresponding to (i) a conduit having a known length, (ii) a conduit having a known diameter, or (iii) both (i) and (ii); and selecting one of the one or more predetermined frequency signals that matches the frequency intensity signal, the selected predetermined frequency intensity signal corresponding to the length of the conduit, the diameter of the conduit, or both the length of the conduit and the diameter of the conduit. 4 . The method of claim 1 , wherein analyzing the acoustic data to determine the length of the conduit, the diameter of the conduit, or both the length of the conduit and the diameter of the conduit includes: generating a cepstrum from the acoustic data; comparing the generated cepstrum to one or more predetermined cepstrums, each of the one or more predetermined cepstrums corresponding to (i) a conduit having a known length, (ii) a conduit having a known diameter, or (iii) both (i) and (ii); and selecting one of the one or more predetermined cepstrums that matches the generated cepstrum, the selected predetermined cepstrum corresponding to the length of the conduit, the diameter of the conduit, or both the length of the conduit and the diameter of the conduit. 5 . The method of claim 1 , wherein analyzing the acoustic data further includes: calculating a log of the frequency intensity signal prior to the selecting the portion of the frequency intensity signal that is expected to include the resonant frequency of the conduit; performing pre-processing on the acoustic data prior to determining the resonant frequency, the pre-processing including (i) de-trending, (ii) spectral windowing, or (iii) both (i) and (ii). 6 . The method of claim 1 , wherein selecting the portion of the frequency intensity signal expected to include the resonant frequency of the conduit is based at least in part on a speed of sound, a sampling rate of the acoustic data, predetermined conduit length ranges, predetermined conduit diameter ranges, or any combination thereof. 7 . The method of claim 1 , wherein the length of the conduit is proportional to the resonant frequency of the conduit. 8 . The method of claim 1 , further comprising: generating an initial characterization of a user interface coupled to the conduit, an initial categorization of the user interface, or both, based at least in part on the acoustic data; and generating an updated characterization of the user interface, an updated categorization of the user interface, or both, based at least in part on (i) the initial characterization of the user interface, the initial categorization of the user interface, or both, and (ii) the length of the conduit, the diameter of the conduit, or both the length of the conduit and the diameter of the conduit. 9 . The method of claim 8 , wherein generating the initial characterization of the user interface, the initial categorization of the user interface, or both, includes calculating a cepstrum of the generated acoustic data. 10 . The method of claim 9 , wherein generating the updated characterization of the user interface, the updated categorization of the user interface, or both, includes adjusting the cepstrum based at least in part on the length of the conduit, the diameter of the conduit, or both the length of the conduit and the diameter of the conduit. 11 . The method of claim 10 , wherein the initial characterization of the user interface, the initial categorization of the user interface, or both, is based at least in part on an assumed length of the conduit, and wherein adjusting the cepstrum includes multiplying the cepstrum by a ratio of (i) the determined length of the conduit to (ii) the assumed length of the conduit. 12 . The method of claim 10 , wherein the initial characterization of the user interface, the initial categorization of the user interface, or both, is based at least in part on an assumed diameter of the conduit, and wherein adjusting the cepstrum includes multiplying the cepstrum by a ratio of (i) the determined diameter of the conduit to (ii) the assumed diameter of the conduit. 13 . The method of claim 8 , wherein the initial characterization of the user interface includes a determination of a type of the user interface, a determination of a manufacturer of the user interface, a determination of a model of the user interface, a determination of a form factor of the user interface, a determination of a size of one or more elements of the user interface, or any combination thereof. 14 . The method of claim 8 , wherein the initial categorization of the user interface includes a determination of whether the user interface belongs to a first user interface category or a second user interface category, wherein (i) the first user interface category is associated with a direct connection between the conduit and a cushion of the user interface, between the conduit and a frame of the user interface, or between the conduit and both the cushion and the frame, and wherein the second user interface category is associated with an indirect connection between the conduit and a cushion of the user interface, between the conduit and a frame of the user interface, or between the conduit and both the cushion and the frame. 15 . The method of claim 1 , furt