西北工业大学学报
西北工業大學學報
서북공업대학학보
JOURNAL OF NORTHWESTERN POLYTECHNICAL UNIVERSITY
2015年
3期
426-431
,共6页
小尺寸扩展式基阵%模拟退火算法%多波束比幅法%实验验证
小呎吋擴展式基陣%模擬退火算法%多波束比幅法%實驗驗證
소척촌확전식기진%모의퇴화산법%다파속비폭법%실험험증
水下小型声探测系统因具有体积小、重量轻的特点易装载于航空反潜机动平台上。新型水下小尺寸扩展式基阵声探测系统不仅具有航空用探测设备的特点又兼具扩展后可以形成更大的孔径尺寸,有效地提高系统灵敏度、阵处理增益和定向精度等优势,必将发展为现代反潜战中较为有效的探潜手段之一。结合研制的新型水下小尺寸扩展式基阵声探测系统,开展了工程用系统定向性能水池实验研究。系统设计前端基于模拟退火波束优化算法,中心频率下实测全景波束较优,逼近-30 dB期望旁瓣级的设计要求。后端通过合理的多波束比幅测向算法得到了较好的定向性能,能够满足<3°标准差的指标。实测的定向结果验证了该型水下小尺寸扩展式基阵声探测系统的工程实用性,也为进一步开展工程有效性和稳定性的研究提供了前期的实验参考。
水下小型聲探測繫統因具有體積小、重量輕的特點易裝載于航空反潛機動平檯上。新型水下小呎吋擴展式基陣聲探測繫統不僅具有航空用探測設備的特點又兼具擴展後可以形成更大的孔徑呎吋,有效地提高繫統靈敏度、陣處理增益和定嚮精度等優勢,必將髮展為現代反潛戰中較為有效的探潛手段之一。結閤研製的新型水下小呎吋擴展式基陣聲探測繫統,開展瞭工程用繫統定嚮性能水池實驗研究。繫統設計前耑基于模擬退火波束優化算法,中心頻率下實測全景波束較優,逼近-30 dB期望徬瓣級的設計要求。後耑通過閤理的多波束比幅測嚮算法得到瞭較好的定嚮性能,能夠滿足<3°標準差的指標。實測的定嚮結果驗證瞭該型水下小呎吋擴展式基陣聲探測繫統的工程實用性,也為進一步開展工程有效性和穩定性的研究提供瞭前期的實驗參攷。
수하소형성탐측계통인구유체적소、중량경적특점역장재우항공반잠궤동평태상。신형수하소척촌확전식기진성탐측계통불부구유항공용탐측설비적특점우겸구확전후가이형성경대적공경척촌,유효지제고계통령민도、진처리증익화정향정도등우세,필장발전위현대반잠전중교위유효적탐잠수단지일。결합연제적신형수하소척촌확전식기진성탐측계통,개전료공정용계통정향성능수지실험연구。계통설계전단기우모의퇴화파속우화산법,중심빈솔하실측전경파속교우,핍근-30 dB기망방판급적설계요구。후단통과합리적다파속비폭측향산법득도료교호적정향성능,능구만족<3°표준차적지표。실측적정향결과험증료해형수하소척촌확전식기진성탐측계통적공정실용성,야위진일보개전공정유효성화은정성적연구제공료전기적실험삼고。
Small?size underwater acoustic detection system is easily loaded on aviation antisubmarine mobile plat?forms as it is small in volume and light in weight. New small?size underwater extended?array acoustic detection sys?tem not only has the characteristics of detection equipment needed by antisubmarine aircraft but also was extended to form a larger aperture to effectively improve the system sensitivity, array processing gain and the advantages of directional accuracy. This paper carried out the pool experiment on developing a new small?size underwater extend?ed?array acoustic detection system in the research and development on its directional performance. We design the system's front?end based on simulated annealing optimization algorithm;the measured panoramic beam under center frequency is better in optimality;we almost satisfy the design requirements of -30 dB expect sidelobe level. Using reasonable multibeam amplitude comparison algorithm, we obtained good directional performance of system's back?end, able to satisfy the<3 °index of standard. Measured directional results verified the engineering practicability of new small?size underwater extended?array acoustic detection system;they also provide, we believe, preliminary ex?perimental data useful to further research on effectiveness and stability.