We investigate basic algorithmic and structural properties of a formal model of layered telecommunication networks.
Buffers in network devices are expensive and undesired because of latency reasons.
The signal-to-noise ratio at the receiver output of a linear communication system is shown to be equal to that of a linear communication system which uses the receive and the transmit filters of th
Two inner bounds on the capacity region of the two-receiver discrete memoryless broadcast channel are shown to be equivalent.
The resonant frequencies, field patterns, and losses of the modes of spherical mirror optical resonators can lie obtained to good accuracy as the solutions of the integral equations of Fresnel diff
Over the past several years, many researchers 1-15 have searched for the means to realize monolithic analog recursive filters, particularly for voice frequency applications.
HE art of equivalent network representation has grown very considerably since its inception by Dr. G. A. Campbell.
Equivalent modulator circuits are developed in the form of linear resistance networks.
H E N the equivalent network of a vacuum tube is mentioned, it brings to the m i n d of practically every radio engineer a certain combination of resistances and capacitances together with an inter
Mathematical modeling of stochastic systems frequently gives rise to models in a class referred to as Markovian queueing networks-- specifically, queueing networks whose time evolution can be descr
