Enhancing the security of LTE networks against jamming attacks. Jover, R. P., Lackey, J., & Raghavan, A. EURASIP Journal on Information Security, 2014(1):7, December, 2014.
Enhancing the security of LTE networks against jamming attacks [link]Paper  doi  abstract   bibtex   
The long-term advancement (LTE) is the new mobile communication system, built after a redesigned physical part and predicated on an orthogonal regularity division multiple gain access to (OFDMA) modulation, features solid performance in challenging multipath surroundings and substantially boosts the performance of the cellular channel in conditions of pieces per second per Hertz (bps/Hz). Nevertheless, as all cordless systems, LTE is susceptible to radio jamming episodes. Such dangers have security implications especially regarding next-generation disaster response communication systems predicated on LTE technology. This proof concept paper overviews some new effective attacks (smart jamming) that extend the number and effectiveness of basic radio jamming. Predicated on these new hazards, some new potential security research guidelines are introduced, looking to improve the resiliency of LTE systems against such problems. A spread-spectrum modulation of the key downlink broadcast stations is coupled with a scrambling of the air tool allocation of the uplink control stations and a sophisticated system information subject matter encryption scheme.
@article{jover_enhancing_2014,
	title = {Enhancing the security of {LTE} networks against jamming attacks},
	volume = {2014},
	issn = {1687-417X},
	url = {https://jis-eurasipjournals.springeropen.com/articles/10.1186/1687-417X-2014-7},
	doi = {10.1186/1687-417X-2014-7},
	abstract = {The long-term advancement (LTE) is the new mobile communication system, built after a redesigned physical part and predicated on an orthogonal regularity division multiple gain access to (OFDMA) modulation, features solid performance in challenging multipath surroundings and substantially boosts the performance of the cellular channel in conditions of pieces per second per Hertz (bps/Hz). Nevertheless, as all cordless systems, LTE is susceptible to radio jamming episodes. Such dangers have security implications especially regarding next-generation disaster response communication systems predicated on LTE technology. This proof concept paper overviews some new effective attacks (smart jamming) that extend the number and effectiveness of basic radio jamming. Predicated on these new hazards, some new potential security research guidelines are introduced, looking to improve the resiliency of LTE systems against such problems. A spread-spectrum modulation of the key downlink broadcast stations is coupled with a scrambling of the air tool allocation of the uplink control stations and a sophisticated system information subject matter encryption scheme.},
	language = {en},
	number = {1},
	urldate = {2020-05-20},
	journal = {EURASIP Journal on Information Security},
	author = {Jover, Roger Piqueras and Lackey, Joshua and Raghavan, Arvind},
	month = dec,
	year = {2014},
	pages = {7}
}
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