Interpretation of pressure test data

What is claimed is: 1. An apparatus comprising: a downhole apparatus configured to be positioned within a wellbore penetrating a subterranean formation, wherein the downhole apparatus is operable to obtain pressure test data at a plurality of different-depth stations; and a processing system comprising a processor and a memory including computer program code, wherein the processing system is operable to: obtain initial settings of station-specific parameters, wherein: the station-specific parameters are descriptive of wellbore/formation properties each specific to one of the plurality of different-depth stations at which pressure test data is obtained by the downhole apparatus positioned in the wellbore penetrating the subterranean formation; and each wellbore/formation property is: a property of the wellbore proximate the corresponding station; or a property of the subterranean formation proximate the corresponding station; obtain initial settings of station-shared parameters; wherein: the station-shared parameters are descriptive of petrophysical properties of each of a plurality of petrophysically unique zones of the subterranean formation; and the pressure test data at each of the plurality of different-depth stations is influenced by the petrophysical properties of at least two of the zones; and develop a pressure transient model of the collective zones by performing regression analysis utilizing the pressure test data of each of the plurality of different-depth stations simultaneously, the initial settings of the station-specific parameters, and the initial settings of the station-shared parameters, wherein: the pressure transient model is based on the station-specific parameters and the station-shared parameters; and the regression analysis analytically determines a model value of at least one of the station-specific parameters and the station-shared parameters. 2. The apparatus of claim 1 wherein the processing system is further operable to determine estimated values of each petrophysical property in each of the zones utilizing the pressure transient model of the collective zones. 3. The apparatus of claim 1 wherein the processing system is further operable to receive an indication of which of the station-specific parameters and the station-shared parameters is utilized during the regression analysis. 4. The apparatus of claim 1 wherein the downhole apparatus is operable to obtain the pressure test data at each of the plurality of different-depth stations simultaneously. 5. The apparatus of claim 1 wherein the downhole apparatus is operable to obtain the pressure test data at each of the plurality of different-depth stations sequentially. 6. The apparatus of claim 1 wherein the initial settings of the station-specific parameters include estimated or measured values, value ranges, or a combination thereof of the wellbore/formation properties. 7. The apparatus of claim 1 wherein the initial settings of the station-shared parameters include estimated or measured values, value ranges, or a combination thereof of the petrophysical properties. 8. The apparatus of claim 1 wherein the processing system is further operable to iteratively: enable changing one or more of the initial settings of the station-specific parameters and the station-shared parameters; and develop the pressure transient model by performing the regression analysis utilizing the pressure test data of each of the plurality of different-depth stations simultaneously and the changed one or more of the initial settings of the station-specific parameters and the station-shared parameters. 9. The apparatus of claim 1 wherein the processing system is further operable to iteratively develop the pressure transient model of the collective zones by performing the regression analysis utilizing the pressure test data of each of the plurality of different-depth stations simultaneously, the initial settings of the station-specific parameters, and the initial settings of the station-shared parameters, and wherein the regression analysis analytically determines a model value of a different at least one of the station-specific parameters and the station-shared parameters. 10. The apparatus of claim 1 , wherein the processing system is further operable to output the model value of the at least one of the station-specific parameters and the station-shared parameters to an output device comprising a display, a printer, a speaker, or a combination thereof, wherein the model value comprises respective depths of tops of zones in the subterranean formation, respective depths of bottoms of the zones in the subterranean formation, thicknesses of the zones, horizontal permeabilities of the subterranean formation in the zones, vertical permeabilities of the subterranean formation in the zones, porosity of the subterranean formation in the zones, viscosity of a formation fluid of the subterranean formation in the zones, total compressibility of the subterranean formation fluid in the zones, skin damage of the subterranean formation at the stations, compressibility of a formation fluid at the stations, a wellbore pressure in the wellbore at the stations, an initial pressure of the formation fluid at the stations, or a combination thereof. 11. A method comprising: positioning a downhole apparatus within a wellbore penetrating a subterranean formation; operating the downhole apparatus to obtain pressure test data at a plurality of different-depth stations; transferring the pressure test data obtained at the plurality of different-depth stations to a processing system comprising a processor and a memory including computer program code; and operating the processing system to determine a model value of at least one station-specific parameter, at least one station-shared parameter, or a combination thereof, wherein operating the processing system comprises: obtaining initial settings of the station-specific parameters, wherein: the station-specific parameters are descriptive of wellbore/formation properties each specific to one of the plurality of different-depth stations at which the pressure test data is obtained by the downhole apparatus; and each wellbore/formation property is: a property of the wellbore proximate the corresponding station; or a property of the subterranean formation proximate the corresponding station; obtaining initial settings of the station-shared parameters; wherein: the station-shared parameters are descriptive of petrophysical properties of each of a plurality of petrophysically unique zones of the subterranean formation; and the pressure test data at each of the plurality of different-depth stations is influenced by the petrophysical properties of at least two of the zones; and developing a pressure transient model of the collective zones by performing regression analysis utilizing the pressure test data of each of the plurality of different-depth stations simultaneously, the initial settings of the station-specific parameters, and the initial settings of the station-shared parameters, wherein: the pressure transient model is based on the station-specific parameters and the station-shared parameters; and the regression analysis analytically determines a model value of at least one of the station-specific parameters and the station-shared parameters. 12. The method of claim 11 wherein operating the processing system further comprises determining estimated values of each petrophysical property in each of the zones utilizing the pressure transient model of the collective zones. 13. The method of claim 11 wherein operating the processing system furt