火力与指挥控制
火力與指揮控製
화력여지휘공제
FIRE CONTROL & COMMAND CONTROL
2014年
5期
176-179
,共4页
军用车辆%眼睛定位%PERCLOS%疲劳驾驶
軍用車輛%眼睛定位%PERCLOS%疲勞駕駛
군용차량%안정정위%PERCLOS%피로가사
military vehicles%eye location%PERCLOS%driver fatigue
为提高军用车辆的驾驭能力,增强战斗力,侧重于军队机动车、装甲车驾驶员眼睛的疲劳状态,利用人脸的特征定位驾驶员的脸部区域,通过改进的Snake算法提取眼睛的轮廓,精确定位眼睛。从中提取与疲劳驾驶有关的信息:PERCLOS值,确定疲劳驾驶指标。实验分析得出,此算法满足实时性、可靠性以及非接触的要求,且不会对军用车辆驾驶员造成干扰。
為提高軍用車輛的駕馭能力,增彊戰鬥力,側重于軍隊機動車、裝甲車駕駛員眼睛的疲勞狀態,利用人臉的特徵定位駕駛員的臉部區域,通過改進的Snake算法提取眼睛的輪廓,精確定位眼睛。從中提取與疲勞駕駛有關的信息:PERCLOS值,確定疲勞駕駛指標。實驗分析得齣,此算法滿足實時性、可靠性以及非接觸的要求,且不會對軍用車輛駕駛員造成榦擾。
위제고군용차량적가어능력,증강전두력,측중우군대궤동차、장갑차가사원안정적피로상태,이용인검적특정정위가사원적검부구역,통과개진적Snake산법제취안정적륜곽,정학정위안정。종중제취여피로가사유관적신식:PERCLOS치,학정피로가사지표。실험분석득출,차산법만족실시성、가고성이급비접촉적요구,차불회대군용차량가사원조성간우。
To improve the ability to control of military vehicles,and enhance the combat effectiveness,this paper focuses on the driver’s eye fatigue state of the military motor vehicle and armored vehicle. The driver’s face region is determined using the face feature. The contour of the eye is extracted,using the improved Snake algorithm. Then the eyes is located accurately. The fatigue related information,PERCLOS value,and determine the fatigue driving index. The results indicate that this algorithm can meet the requirements of real-time,reliability and non contact,and does not influence the armored car driver.
