000003085 001__ 3085
000003085 005__ 20240819141340.0
000003085 022__ $$a0163-6804
000003085 0247_ $$2DOI$$a10.1109/MCOM.2018.1800294
000003085 037__ $$aARTICLE
000003085 039_9 $$a2024-08-19 14:13:40$$b1$$c2023-09-05 15:19:34$$d1$$c2023-06-06 10:05:55$$d1001252$$c2021-12-17 15:23:19$$d0$$c2021-11-17 11:18:09$$d1001252$$c2020-10-27 22:57:50$$d0$$c2020-10-26 23:02:37$$d0$$c2019-01-29 20:48:32$$dNone$$c2019-01-29 13:54:48$$dNone$$c2019-01-22 09:43:27$$dNone$$c2019-01-22 09:30:44$$dNone$$y2019-01-22 09:30:33$$zNone
000003085 041__ $$aeng
000003085 245__ $$aReproducing measured MANET radio performances using the EMANE framework
000003085 269__ $$a2018-10
000003085 300__ $$a6 p.
000003085 506__ $$avisible
000003085 520__ $$9eng$$aSimulation or emulation of mobile ad hoc networks (MANET) is used to predict or analyze the performance of MANETs under various scenarios. One challenge is to emulate realistically the MANET's radio performance. Running the Extendable Mobile Ad Hoc Network Emulator (EMANE) framework, we show how to reproduce measured characteristics, namely throughput and round-trip time, of real tactical radios using wideband or narrowband TDMA-based waveforms. Additionally, a solution to simulate rate adaptation is proposed. An introduction to EMANE and the EMANE radio model plugins is also provided.
000003085 540__ $$acorrect
000003085 592__ $$aHEIA-FR
000003085 592__ $$biSIS - Institut des systèmes intelligents et sécurisés
000003085 592__ $$cIngénierie et Architecture
000003085 65017 $$aIngénierie
000003085 6531_ $$9eng$$atime division multiple access
000003085 6531_ $$9eng$$aschedules
000003085 6531_ $$9eng$$amobile ad hoc networks
000003085 6531_ $$9eng$$ananoelectromechanical systems
000003085 6531_ $$9eng$$athroughput
000003085 6531_ $$9eng$$amilitary communication
000003085 655__ $$ascientifique
000003085 700__ $$aNidokemski, Alexandre$$uSchool of Engineering and Architecture (HEIA-FR), HES-SO University of Applied Sciences Western Switzerland
000003085 700__ $$aWagen, Jean-Frédéric$$uSchool of Engineering and Architecture (HEIA-FR), HES-SO University of Applied Sciences Western Switzerland
000003085 700__ $$aBuntschu, François$$uSchool of Engineering and Architecture (HEIA-FR), HES-SO University of Applied Sciences Western Switzerland
000003085 700__ $$aGisler, Christophe$$uSchool of Engineering and Architecture (HEIA-FR), HES-SO University of Applied Sciences Western Switzerland
000003085 700__ $$aBovet, Jérôme$$uSwiss Department of Defence, Armasuisse Science+Technology)
000003085 773__ $$j2018, vol. 56, no. 10, pp. 151-155$$tIEEE Communications Magazine
000003085 8564_ $$s1016994$$uhttps://arodes.hes-so.ch/record/3085/files/Nikodemski_2018_commag.pdf$$90e21abdc-fd17-4125-92dc-26d830cb6ee9
000003085 906__ $$aGREEN
000003085 909CO $$ooai:hesso.tind.io:3085$$pGLOBAL_SET
000003085 950__ $$aI2
000003085 980__ $$ascientifique
000003085 981__ $$ascientifique