国防科技大学学报
國防科技大學學報
국방과기대학학보
Journal of National University of Defense Technology
2015年
5期
54-60
,共7页
王自然%张亚南%刘学军%王美珍
王自然%張亞南%劉學軍%王美珍
왕자연%장아남%류학군%왕미진
相机覆盖%覆盖分析%二值化网格%格网细化
相機覆蓋%覆蓋分析%二值化網格%格網細化
상궤복개%복개분석%이치화망격%격망세화
camera coverage%coverage analysis%bi-valued grid%grid-fractionizing
视频传感器覆盖范围计算是视频传感器网络初始配置、优化部署等的核心基础,其精度严重影响覆盖分析的结果,然而现有很多方法并未考虑计算方法执行效率与精度的影响,而方法的精度与效率在大范围监控视频覆盖分析应用中显得尤为重要。因此,提出一种兼顾速度与精度的视频传感器覆盖范围计算方法,将地理空间进行格网化;计算每个格网角点被视频传感器覆盖的状况,用0或1表示;接着,以格网四个角点的覆盖情况描述格网的覆盖情况,将格网分为16种覆盖状态;逐步细化整个格网覆盖状态非(0000)和(1111)的格网,直至达到预设精度;获得视频传感器的覆盖范围。实验结果表明,该方法能够更为精确地获得部署在地理场景中视频传感器的覆盖范围,同时兼顾了计算方法的速度和精度。
視頻傳感器覆蓋範圍計算是視頻傳感器網絡初始配置、優化部署等的覈心基礎,其精度嚴重影響覆蓋分析的結果,然而現有很多方法併未攷慮計算方法執行效率與精度的影響,而方法的精度與效率在大範圍鑑控視頻覆蓋分析應用中顯得尤為重要。因此,提齣一種兼顧速度與精度的視頻傳感器覆蓋範圍計算方法,將地理空間進行格網化;計算每箇格網角點被視頻傳感器覆蓋的狀況,用0或1錶示;接著,以格網四箇角點的覆蓋情況描述格網的覆蓋情況,將格網分為16種覆蓋狀態;逐步細化整箇格網覆蓋狀態非(0000)和(1111)的格網,直至達到預設精度;穫得視頻傳感器的覆蓋範圍。實驗結果錶明,該方法能夠更為精確地穫得部署在地理場景中視頻傳感器的覆蓋範圍,同時兼顧瞭計算方法的速度和精度。
시빈전감기복개범위계산시시빈전감기망락초시배치、우화부서등적핵심기출,기정도엄중영향복개분석적결과,연이현유흔다방법병미고필계산방법집행효솔여정도적영향,이방법적정도여효솔재대범위감공시빈복개분석응용중현득우위중요。인차,제출일충겸고속도여정도적시빈전감기복개범위계산방법,장지리공간진행격망화;계산매개격망각점피시빈전감기복개적상황,용0혹1표시;접착,이격망사개각점적복개정황묘술격망적복개정황,장격망분위16충복개상태;축보세화정개격망복개상태비(0000)화(1111)적격망,직지체도예설정도;획득시빈전감기적복개범위。실험결과표명,해방법능구경위정학지획득부서재지리장경중시빈전감기적복개범위,동시겸고료계산방법적속도화정도。
Camera coverage is an important basis of camera network initial configuration,optimal deployment and so on.Its precision and efficiency are the critical influences on the results of coverage analysis,which are very important to the application of large area camera coverage analysis,but many methods do not consider them.A new method to efficiently estimate camera coverage was proposed.Firstly,the geographic space was dispersed into grids.Secondly,the statuses of the four corners of each grid were computed.If the corner was covered by the camera,the status was denoted by using 1 or 0.So the status of the gird can be presented by the code which is either 0 or 1.Consequently there are 16 statuses to represent the status of a grid.Finally,if the code of the grid was not (0000)or (1111),the gird would be divided into four isometrical sub-girds until the sub-girds were small enough or their codes were (0000)or (1111 ).According to the levels and statues of all grids,the whole camera coverage was estimated.Experimental results show that the proposed method can obtain more precise camera and can give consideration to both efficiency and accuracy.