Traditional QoS routing algorithm takes network layer parameters as the characteristic parameter of routing calculation except the delay time and dithering,which could not mirror the quality of service.
Through analyzing the result, a conclusion that the handoff latency is lies on the transmission time of protocol packets and the time before getting router advertisement (agent advertisement) is reached.
Delay-dependent robust H∞ controller design for a class of nonlinear uncertainty time-delay systems with input delay
Dynamic Input Reconstruction for a Nonlinear Time-Delay System
Dynamic reconstruction of the unknown input (disturbance, control) in a nonlinear system described by a time-delay differential equation is studied.
Stability degree-optimal solutions are found for the problem of control of aperiodic objects, the behavior of which is approximated by dynamic models that represent the series connection of inertial links and also an inertial time-delay link.
Methods for reconstructing a delay differential equation from the time series of an observable quantity are proposed for various classes of time-delay systems.
A new latency-reducing and energy-efficient protocol for the wireless sensor network
They can both reduce latency and save energy in the wireless sensor network (WSN) while most others propose protocols that sacrifice latency for energy.
The simulation results show that RMAC spends half the latency of TLP, as well as consumes less energy than TLP.
The corresponding contact prediction algorithm makes use of both statistic and time sequence information of contacts and allows choosing the relay that has the earliest contact to the destination, which results in low average latency.
Results showed that as masker duration was increased, inhibition in neuronal firing was enhanced (P >amp;lt; 0.000 1, n = 41) and the latency of neurons was lengthened (P>amp;lt;0.01, n = 41).