The long-term evolution (LTE) is the newly adopted technology to offer enhanced capacity and coverage for current\nmobility networks, which experience a constant traffic increase and skyrocketing bandwidth demands. This new\ncellular communication system, built upon a redesigned physical layer and based on an orthogonal frequency\ndivision multiple access (OFDMA) modulation, features robust performance in challenging multipath environments\nand substantially improves the performance of the wireless channel in terms of bits per second per Hertz (bps/Hz).\nNevertheless, as all wireless systems, LTE is vulnerable to radio jamming attacks. Such threats have security\nimplications especially in the case of next-generation emergency response communication systems based on LTE\ntechnologies. This proof of concept paper overviews a series of new effective attacks (smart jamming) that extend the\nrange and effectiveness of basic radio jamming. Based on these new threats, a series of new potential security\nresearch directions are introduced, aiming to enhance the resiliency of LTE networks against such attacks. A\nspread-spectrum modulation of the main downlink broadcast channels is combined with a scrambling of the radio\nresource allocation of the uplink control channels and an advanced system information message encryption scheme.\nDespite the challenging implementation on commercial networks, which would require inclusion of these solutions\nin future releases of the LTE standard, the security solutions could strongly enhance the security of LTE-based national\nemergency response communication systems.
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