Faster GPS via the sparse fourier transform
Author(s)
Hassanieh, Haitham; Adib, Fadel M.; Katabi, Dina; Indyk, Piotr
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GPS is one of the most widely used wireless systems. A GPS receiver has to lock on the satellite signals to calculate its position. The process of locking on the satellites is quite costly and requires hundreds of millions of hardware multiplications, leading to high power consumption. The fastest known algorithm for this problem is based on the Fourier transform and has a complexity of O(n log n), where n is the number of signal samples. This paper presents the fastest GPS locking algorithm to date. The algorithm reduces the locking complexity to O(n√(log n)). Further, if the SNR is above a threshold, the algorithm becomes linear, i.e., O(n). Our algorithm builds on recent developments in the growing area of sparse recovery. It exploits the sparse nature of the synchronization problem, where only the correct alignment between the received GPS signal and the satellite code causes their cross-correlation to spike.
We further show that the theoretical gain translates into empirical gains for GPS receivers. Specifically, we built a prototype of the design using software radios and tested it on two GPS data sets collected in the US and Europe. The results show that the new algorithm reduces the median number of multiplications by 2.2x in comparison to the state of the art design, for real GPS signals.
Date issued
2012-08Department
Massachusetts Institute of Technology. Computer Science and Artificial Intelligence Laboratory; Massachusetts Institute of Technology. Department of Electrical Engineering and Computer ScienceJournal
Proceedings of the 18th annual international conference on Mobile Computing and Networking - Mobicom '12
Publisher
Association for Computing Machinery
Citation
Hassanieh, Haitham, Fadel Adib, Dina Katabi, and Piotr Indyk. “Faster GPS via the Sparse Fourier Transform.” Proceedings of the 18th Annual International Conference on Mobile Computing and Networking - Mobicom ’12 (2012). August 22–26, 2012, Istanbul, Turkey. ACM. p.353-364.
Version: Author's final manuscript
ISBN
9781450311595