000 | a | ||
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999 |
_c30486 _d30486 |
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008 | 211026b xxu||||| |||| 00| 0 eng d | ||
020 | _a9781484268483 | ||
082 |
_a621.382 _bCEB |
||
100 | _aCeballos, Henry Zarate | ||
245 | _aWireless network simulation : a guide using ad hoc networks and the ns-3 simulator | ||
260 |
_bApress, _c2021 _aNew York : |
||
300 |
_axvi, 256 p. ; _bill. (some col.), _c24 cm |
||
365 |
_b29.99 _cEUR _d90.50 |
||
504 | _aIncludes bibliographical references and index. | ||
520 | _aearn to run your own simulation by working with model analysis, mathematical background, simulation output data, and most importantly, a network simulator for wireless technology. This book introduces the best practices of simulator use, the techniques for analyzing simulations with artificial agents and the integration with other technologies such as Power Line Communications (PLC). Network simulation is a key technique used to test the future behavior of a network. Its a vital development component for the development of 5G, IoT, wireless sensor networks, and many more. This book explains the scope and evolution of the technology that has led to the development of dynamic systems such as Internet of Things and fog computing. You'll focus on the ad hoc networks with stochastic behavior and dynamic nature, and the ns-3 simulator. These are useful open tools for academics, researchers, students and engineers to deploy telecommunications experiments, proofs and new scenarios with a high degree of similarity with reality. You'll also benefit from a detailed explanation of the examples and the theoretical components needed to deploy wireless simulations or wired, if necessary. You will: Review best practices of simulator uses Understand techniques for analyzing simulations with artificial agents Apply simulation techniques and experiment design Program on ns-3 simulator Analyze simulation results Create new modules or protocols for wired and wireless networks. | ||
650 | _aCommunications Engineering | ||
650 | _aWireless and Mobile Communication | ||
650 | _aCyber-physical systems | ||
650 | _aInternet of things (IoT) | ||
650 | _aAd hoc network | ||
650 | _aRunning process | ||
650 | _aCluster | ||
650 | _a Distributed Coordination Function | ||
650 | _aEdge Computing(EC) | ||
650 | _aFactorial designs | ||
650 | _aLink-state routing algorithm | ||
650 | _aChannel configuration | ||
650 | _aAnimating process | ||
650 | _a NetAnim | ||
650 | _a Power line Communication(PLC) | ||
650 | _a Fog computing | ||
650 | _aWireless mesh networks(WMNs) | ||
710 | _aParra Amaris, Jorge Ernesto | ||
710 | _aJimenez Jimenez, Hernan | ||
710 | _aRomero Rincon, Diego Alexis | ||
710 | _aAgudelo Rojas, Oscar | ||
710 | _aOrtiz Trivino, Jorge Eduardo | ||
942 |
_2ddc _cBK |