This paper presents a study of the impact of different
types of waveform jamming schemes against remote detonation
communication devices based on Long term evolution (LTE)
technology. Two main categories of waveform jamming signals
(single-carrier and multi-carriers) were used. Also, two jamming
scenarios against LTE-based remote detonation devices (jamming
the whole LTE frame and jamming the LTE synchronization
channel) were investigated. The key point of evaluating the
effectiveness of the presented waveform jamming signals is by
measuring their ability to successfully cut off the connection
between the transmitter and the LTE-based remote detonation
device. This is achieved by verifying that the remote detonation
device is unable to successfully receive the transmitted information
(Deny of Service (DOS) mode). To this end, emulations of these
scenarios are held using two Keysight software-defined radio
software programs (SystemVue 2015 and VSA 89600). Finally, a
real practical experiment of the impact of different waveform
jamming schemes against LTE-based remote detonation devices is
emulated to present the optimal waveform jamming scheme
against these types of devices.