Physical layer security (PLS) with radio frequency (RF) energy harvesting (EH) in wireless sensor networks has received significant interest as a technology for secure information transmission and
Recent developments in the field of space-division multiplexing (SDM) for fiber-optic communication systems suggest that the spatial diversity offered by SDMcan be used not only to increase system
IEEE We consider a single-cell downlink time division duplex (TDD) based massive MIMO communication in the presence of an adversary capable of jamming and eavesdropping simultaneously.
Fiber-optic transmission systems provide large capacities over enormous distance but are vulnerable to simple eavesdropping attacks at the physical layer.
To meet quality of service requirements on the uplink of future cellular networks we need to exploit inter-cell interference between cell-edge users which are likely to be paired.
Optical communication networks in the era of large datacenters are required to provide large capacity, often orders of magnitude larger than the capacity of a single mode fiber.
T HE subject of this talk is "Physical Limitations in Electron Ballistics".
Light transmission systems can be built in various ways.
In this paper, we explore the physical limits of successful information transfer in a point-to-point communication system.
Impact of finite coherence in frequency and time on directional beam in a canonical 28 GHz small cell link is assessed.