计算机技术与发展
計算機技術與髮展
계산궤기술여발전
COMPUTER TECHNOLOGY AND DEVELOPMENT
2013年
2期
32-36
,共5页
作战效能%评估模型%自学习%海洋环境%武器装备
作戰效能%評估模型%自學習%海洋環境%武器裝備
작전효능%평고모형%자학습%해양배경%무기장비
operational effectiveness%evaluation model%self-learning%marine environment%weapon equipment
针对海洋环境影响下武器装备作战效能的评估问题,提出了具有自学习能力的评估模型.将作战效能分级,基于神经网络建立海洋环境要素与作战效能级别之间的非线性映射,通过估计武器装备的作战效能级别获得其作战效能.为提高模型的评估可信度,评估模型增加了自学习能力,可对其本身进行自学习修正.随着样本增加,为提高评估结果的数值精度,对作战效能级别作进一步细分,使得模型中神经网络的结构得以改进.在此基础上,通过对模型的自学习训练即可实现模型的自学习修正.最后针对某作战平台作战效能的评估实例,实验结果表明模型自学习更新后其可信度得到提高,从而验证了所提出的评估模型的可行性.与传统方法相比该评估模型无需依赖专家经验,具有较高的客观性.
針對海洋環境影響下武器裝備作戰效能的評估問題,提齣瞭具有自學習能力的評估模型.將作戰效能分級,基于神經網絡建立海洋環境要素與作戰效能級彆之間的非線性映射,通過估計武器裝備的作戰效能級彆穫得其作戰效能.為提高模型的評估可信度,評估模型增加瞭自學習能力,可對其本身進行自學習脩正.隨著樣本增加,為提高評估結果的數值精度,對作戰效能級彆作進一步細分,使得模型中神經網絡的結構得以改進.在此基礎上,通過對模型的自學習訓練即可實現模型的自學習脩正.最後針對某作戰平檯作戰效能的評估實例,實驗結果錶明模型自學習更新後其可信度得到提高,從而驗證瞭所提齣的評估模型的可行性.與傳統方法相比該評估模型無需依賴專傢經驗,具有較高的客觀性.
침대해양배경영향하무기장비작전효능적평고문제,제출료구유자학습능력적평고모형.장작전효능분급,기우신경망락건립해양배경요소여작전효능급별지간적비선성영사,통과고계무기장비적작전효능급별획득기작전효능.위제고모형적평고가신도,평고모형증가료자학습능력,가대기본신진행자학습수정.수착양본증가,위제고평고결과적수치정도,대작전효능급별작진일보세분,사득모형중신경망락적결구득이개진.재차기출상,통과대모형적자학습훈련즉가실현모형적자학습수정.최후침대모작전평태작전효능적평고실례,실험결과표명모형자학습경신후기가신도득도제고,종이험증료소제출적평고모형적가행성.여전통방법상비해평고모형무수의뢰전가경험,구유교고적객관성.
A self-learning evaluation model is proposed to evaluate the operational effectiveness of weapon equipment under the influence of marine environment. By dividing operational effectiveness into different levels,nonlinear mapping between marine environmental ele-ments and the levels of operational effectiveness is established based on neural network. Then the operational effectiveness can be obtained by evaluating the operational effectiveness level of the weapon equipment. To improve the reliability of the evaluation,the model is re-vised by adding the ability of self-learning. With the increase of samples,operational effectiveness can be further divided into more levels to improve the numerical precision of the evaluation result,which results in improvement of the structure of neural network in evaluation model. On the basis of that,the model can be updated through self-training of the model. Finally,aiming at the operational effectiveness evaluation instance of an operation platform,the experimental results show that the reliability of the evaluation model is raised through self-learning,which proves the feasibility of the proposed model. Compared with the traditional methods,the model proposed needs no ex-pertise,which makes the evaluation results more objective.