Concurrent dual processing of pseudoranges with corrections

What is claimed is: 1. A method of improving position determination of a cellular device, the method comprising: extracting raw pseudorange information from a Global Navigation Satellite System (GNSS) receiver; obtaining locally measured movement information that reflects measurements of movement of the cellular device, wherein the measurements are obtained using at least one hardware sensor that is in a known physical relationship with the cellular device; determining, performed by a first process, a first set of one or more position fixes based on the extracted raw pseudorange information; determining, performed by a second process, carrier phase smoothed pseudoranges by smoothing the extracted raw pseudorange information based on carrier phase information, wherein the first process and the second process are executed by at least one hardware processor, wherein the at least one hardware processor is located in the cellular device and outside of a GNSS chipset embedded in the cellular device; determining, performed by the second process, a second set of one or more position fixes based on the carrier phase smoothed pseudoranges; while a predetermined amount of carrier phase information is not available for performing carrier phase smoothing, providing to a user one or more of the first set of position fixes; and while a predetermined amount of carrier phase information is available for performing carrier phase smoothing, providing to the user one or more of the second set of position fixes. 2. The method as recited by claim 1 , wherein the method further comprises: applying the locally measured movement information to the first set of position fixes and the second set of position fixes while the locally measured movement information is available. 3. The method as recited by claim 1 , wherein the method further comprises: creating blended locally measured movement information by blending locally measured movement information from two or more sensors associated with the cellular device; and applying the blended locally measured movement information to the first set of the position fixes while the blended locally measured movement information is available. 4. The method as recited by claim 3 , wherein the applying of the blended locally measured movement information further comprises: applying the blended locally measured movement information to the first set of the position fixes and the second set of position fixes while the blended locally measured movement information is available. 5. The method as recited by claim 3 , wherein the creating of the blended locally measured movement information further comprises: blending the locally measured movement information from the sensors based on weighting factors. 6. The method as recited by claim 1 , wherein the method further comprises: determining whether to provide a position fix from the first set or the second set depending on whether a predetermined amount of carrier phase information is available, wherein a position fix is provided from the first set when a predetermined amount of carrier phase information is not available and a position fix is provided from the second set when a predetermined amount of carrier phase information is available. 7. The method as recited by claim 1 , wherein the method further comprises: obtaining external corrections from a correction source that is external to the cellular device; providing, performed by the first process, corrected unsmoothed pseudoranges by applying the external corrections to the extracted raw pseudoranges; and determining, performed by the first process, the first set of position fixes based on the corrected unsmoothed pseudoranges. 8. The method as recited by claim 1 , wherein the method further comprises: obtaining external corrections from a correction source that is external to the cellular device; providing, performed by the second process, corrected smoothed pseudoranges by applying the external corrections to the carrier phase smoothed pseudoranges; and determining, performed by the second process, the second set of position fixes based on the corrected smoothed pseudoranges. 9. A system for improving position determination of a cellular device, the system comprising: one or more hardware processors located in the cellular device and outside of a Global Navigation Satellite System (GNSS) chipset embedded in the cellular device; the one or more hardware processors configured to execute a first process and a second process; extracting logic that extracts raw pseudorange information from the GNSS receiver; locally measured movement information accessing logic that obtains locally measured movement information that reflects measurements of movement of the cellular device, wherein the measurements are obtained using at least one hardware sensor that is in a known physical relationship with the cellular device; and processing logic that: determines, performed by the first process, a first set of one or more position fixes based on the extracted raw pseudorange information; determines, performed by the second process, carrier phase smoothed pseudoranges by smoothing the extracted raw pseudorange information based on carrier phase information; determines, performed by the second process, a second set of one or more position fixes based on the carrier phase smoothed pseudoranges; while a predetermined amount of carrier phase information is not available for performing carrier phase smoothing, provides to a user one or more of the first set of position fixes; and while a predetermined amount of carrier phase information is available for performing carrier phase smoothing, provides to the user one or more of the second set of position fixes. 10. The system as recited by claim 9 , wherein the processing logic further applies the locally measured movement information to the first set of position fixes and the second set of position fixes while the locally measured movement information is available. 11. The system as recited by claim 9 , wherein the at least one hardware sensor is selected from a group consisting of a hardware sensor that is internal to the cellular device and a hardware sensor that is physically coupled to the cellular device. 12. The system as recited by claim 9 , wherein the at least one hardware sensor is selected from a group consisting of an image capturing device and an accelerometer. 13. The system as recited by claim 9 , wherein: the processing logic discards at least one of the first set of position fixes based on the locally measured movement information, wherein the first process discards the at least one of the first set of position fixes based on the locally measured movement information. 14. The system as recited by claim 9 , wherein: the processing logic discards at least one of the second set of position fixes based on the locally measured movement information, wherein the second process discards the at least one of the second set of position fixes based on the locally measured movement information. 15. The system as recited by claim 9 , wherein the system further comprises: control logic that determines whether to provide a position fix from the first set or the second set depending on whether a predetermined amount of carrier phase information is available; and position fix determining logic provides a position fix from the first set when a predetermined amount of carrier phase information is not available and a position fix is provided from the second set when a predetermined amount of carrier phase information is available.