Method for estimating time of flight for acoustic pyrometry

What is claimed is: 1. A method for estimating a time of flight of an acoustic signal in a hot gas flow path having background noise wherein a plurality of transceivers each generate an acoustic signal, comprising: providing a first transceiver of the plurality of transceivers and a second transceiver of the plurality of transceivers positioned to define a first path having a first direction from the first transceiver to the second transceiver and a second direction opposite the first direction; operating the first transceiver to emit an acoustic signal of interest that travels in the first direction; operating the second transceiver to emit a reference acoustic signal that travels in the second direction; identifying at least one minimum peak height in the acoustic signal of interest having a peak height that is greater than the background noise; comparing a time of flight of the acoustic signal of interest to a time of flight of the reference acoustic signal to determine a signal time difference; and obtaining time of flight information of other acoustic paths having substantially the same path length as the first path to provide a range of time of flights wherein a time of flight of the acoustic signal of interest that falls within the time of flight range and is associated with a minimum peak height forms the estimated time of flight; determining a median of time of flight for acoustic paths that have substantially the same path length as the first path; and determining whether the estimated time of flight is an outlier, wherein the estimated time of flight is an outlier if the signal time difference exceeds a time delay threshold level and a time of flight of the acoustic signal of interest exceeds a maximum allowable deviation from the median, wherein if an outlier is detected, then at least one search parameter for detecting the minimum peak in the acoustic signal of interest is redefined to include updated time of flight information for the acoustic signals associated with acoustic paths having the substantially the same length. 2. The method according to claim 1 , wherein if an outlier is detected the estimated time of flight is set equivalent to the median time of flight. 3. A method for estimating a time of flight of an acoustic signal in a hot gas flow path having background noise wherein a plurality of transceivers each generate an acoustic signal, comprising: providing a first transceiver of the plurality of transceivers and a second transceiver of the plurality of transceivers positioned to define a first path having a first direction from the first transceiver to the second transceiver and a second direction opposite the first direction; operating the first transceiver to emit an acoustic signal of interest that travels in the first direction; operating the second transceiver to emit a reference acoustic signal that travels in the second direction; identifying at least one minimum peak height in the acoustic signal of interest having a peak height that is greater than the background noise; comparing a time of flight of the acoustic signal of interest to a time of flight of the reference acoustic signal to determine a signal time difference; and obtaining time of flight information of other acoustic paths having substantially the same path length as the first path to provide a range of time of flights wherein a time of flight of the acoustic signal of interest that falls within the time of flight range and is associated with a minimum peak height forms the estimated time of flight; determining a median of time of flight for acoustic paths that have substantially the same path length as the first path; and determining whether the estimated time of flight is an outlier, wherein the estimated time of flight is an outlier if the signal time difference exceeds a time delay threshold level and a time of flight of the acoustic signal of interest exceeds a maximum allowable deviation from the median, wherein if an outlier is detected, then at least one search parameter is changed to detect higher or lower minimum peak heights based on a size of a difference between a detected time of flight and the median time of flight. 4. The method according to claim 3 , wherein a size of a minimum peak to be detected is increased if the difference between the detected time of flight and the median time of flight is relatively short or decreased if the difference between the detected time of flight and the median time of flight is relatively large. 5. A method for estimating a time of flight of an acoustic signal in a hot gas flow path having background noise, comprising: positioning a plurality of transceivers to define a plurality of acoustic paths between the individual transceivers, each of the plurality of acoustic paths being normal to the hot gas flow path, each transceiver operable to emit an acoustic signal; activating a first transceiver of the plurality of transceivers to emit an acoustic signal of interest that travels in a first direction toward a second transceiver; activating the second transceiver of the plurality of transceivers to emit a reference acoustic signal on a first acoustic path of the plurality of acoustic paths in a second direction opposite the first direction; identifying at least one minimum peak height in the acoustic signal of interest having a peak height that is greater than the background noise; obtaining time of flight information of the other acoustic paths between each pair of transceivers in the plurality of transceivers, each acoustic path having substantially the same path length as the first path to provide a range of time of flights wherein a time of flight of the acoustic signal of interest that falls within the time of flight range and is associated with a minimum peak height forms the estimated time of flight; providing a median of time of flights for acoustic paths that have substantially the same path length as the first path; determining whether the estimated time of flight is an outlier; and changing at least one search parameter for identifying the minimum peak height, and resetting the estimated time of flight to be equivalent to the median of time of flights if the estimated time of flight is an outlier. 6. The method according to claim 5 , wherein the estimated time of flight is an outlier if a difference in time of flight between the acoustic signal of interest and the reference acoustic signal exceeds a time of flight threshold level and a time of flight of the acoustic signal of interest exceeds a maximum allowable deviation from the median. 7. The method according to claim 6 , wherein if an outlier is detected at least one search parameter for detecting the minimum peak in the acoustic signal of interest is redefined to include updated time of flight information for the acoustic signals associated with acoustic paths having substantially the same length. 8. The method according to claim 6 , wherein if an outlier is detected at least one search parameter is changed to detect higher or lower minimum peak heights based on a size of a difference between a detected time of flight and the median time of flight. 9. The method according to claim 8 , wherein a size of the minimum peak to be detected is increased if the difference between the detected time of flight and the median time of flight is relatively short or decreased if the difference between the detected time of flight and the median time of flight is relatively large. 10. A method for estimating a time of flight of an acoustic signal in a hot gas flow path having background noise, comprising: positioning a plurality of transceivers to define a plurality of acoustic paths between the individ