Because of its abilities of interception resistance and anti-jamming, Frequency H opping Communication, a t echnology of Spre ad Spe ctrum Communications, is widely used in military communications and also is an i mportant a spect i n e lectronic c ountermeasure. In re cent ye ar, t he theory a nd re search i n FH C (Fre quency H opping C ommunication) become more mature, also gain a significant progress.As the dem and of hi gh quality of c ommunication, the research of soft-hard ware design has been moving forward. The embedded system becomes t he fi rst opt ion for its c haracteristics of hi gh pe rformance and low pow er c onsumption. E specially i n re cent year, a long w ith the technology development of d ual-core and m ulti-core, alot of CPUs for different apps are made to improve the embedded system capacity. It’s no doubt t hat usi ng t hese c hips i n t he FH C w ill pus h f orward t he development of communication technology.This t hesis mainly focuses on t he e ngineering re alization, aim t o build a embedded dual-core system platform, and make it a ccessible to the FH C. T he author a lso gi ves a br iefi ntroduction o f FH C, t he characteristics of OMAP-L137, a heterogeneous dual-core processor, and the way of building application platform around this processor. At last, the thesis represents the process of re alization this platform using FHC application and gives a workflow about the whole system. |