Multiple-input multiple output (MIMO) communication architecture has recently emerged as a new paradigm for wireless communications in rich multipath environment, which has spectral efficiencies farâ€¦ (More)

The channel capacity of the Bell Labs layered space-time (BLA communication architecture is substantially larger than that traditional systems in certain applications. However, the correla betweenâ€¦ (More)

The quadrature modeling technique is nowadays widely used for the nonlinear ( simulation of RFrmicrowave communication circuits and systems at the behavioral sys) tem level. It allows one to simulateâ€¦ (More)

The ground impedance matrix elements of a multiconductor overhead transmission line do not have analytical inverse Fourier transforms in the time domain. Thus, in general, the ground transientâ€¦ (More)

A constraint on the calculation of the ground transient resistance of overhead lines for small values of time is pointed out. The method for overcoming this constraint is proposed. The source of theâ€¦ (More)

The use of Cannâ€™s model for modeling nonlinear circuits and systems is discussed in this paper. It is shown that this model has a nonphysical behavior for the small-signal regime in most cases (itâ€¦ (More)

A nonlinear detector simulation technique that can be used together with the discrete technique for a rapid radio receiver electromagnetic compatibility and electromagnetic interference (EMC/EMI)â€¦ (More)

Simple approximate formulas for the ground resistance and the potential distribution that have quite good accuracy are presented. The use of these formulas can simplify and make faster theâ€¦ (More)

The Bell Labs Layered Space-Time (BLAST) architecture has been recently proposed as an extremely efficient tool for wireless communications in rich multipath environment [1-4]. Using multi-elementâ€¦ (More)

The instantaneous quadrature technique is an efficient tool for nonlinear behavioral-level simulation of RF r microwave circuits or systems over wide frequency and dynamic ranges. In order to obtainâ€¦ (More)