物探化探计算技术
物探化探計算技術
물탐화탐계산기술
COMPUTING TECHNIQUES FOR GEOPHYSICAL AND GEOCHEMICAL EXPLORATION
2015年
2期
182-186
,共5页
胡明科%江玉乐%李超%黎莎
鬍明科%江玉樂%李超%黎莎
호명과%강옥악%리초%려사
地形改正%面积分%数值积分%高精度重力地改
地形改正%麵積分%數值積分%高精度重力地改
지형개정%면적분%수치적분%고정도중력지개
terrain correction%surface integral%numerical integral%high-precision terrain correction of gravity
在重力勘探中,地形改正对重力总精度影响较大,尤其在地形条件相当复杂的山区和丘陵地区,地形对重力观测异常的影响特别大。这里研究并分析了传统方域积分(体积积分)的不足:①方域对实际地形拟合(方柱拟合)不好;②传统方法采用的梯形数值积分的地改精度低且不能满足目前高精度重力测量的要求。模拟研究了基于对地形表面的面积分,然后用精度比较高的高斯数值积分代替原来的梯形积分。结果表明,高斯数值积分不但实现了对任意地形的最佳拟合,而且使得地改精度有了明显地提高,实际应用证明了基于面积积分的地改方法优于传统的方域地改方法。
在重力勘探中,地形改正對重力總精度影響較大,尤其在地形條件相噹複雜的山區和丘陵地區,地形對重力觀測異常的影響特彆大。這裏研究併分析瞭傳統方域積分(體積積分)的不足:①方域對實際地形擬閤(方柱擬閤)不好;②傳統方法採用的梯形數值積分的地改精度低且不能滿足目前高精度重力測量的要求。模擬研究瞭基于對地形錶麵的麵積分,然後用精度比較高的高斯數值積分代替原來的梯形積分。結果錶明,高斯數值積分不但實現瞭對任意地形的最佳擬閤,而且使得地改精度有瞭明顯地提高,實際應用證明瞭基于麵積積分的地改方法優于傳統的方域地改方法。
재중력감탐중,지형개정대중력총정도영향교대,우기재지형조건상당복잡적산구화구릉지구,지형대중력관측이상적영향특별대。저리연구병분석료전통방역적분(체적적분)적불족:①방역대실제지형의합(방주의합)불호;②전통방법채용적제형수치적분적지개정도저차불능만족목전고정도중력측량적요구。모의연구료기우대지형표면적면적분,연후용정도비교고적고사수치적분대체원래적제형적분。결과표명,고사수치적분불단실현료대임의지형적최가의합,이차사득지개정도유료명현지제고,실제응용증명료기우면적적분적지개방법우우전통적방역지개방법。
In gravity prospecting,terrain correction has a great impact on the overall accuracy of gravity survey.The ter-rain correction has an awfully great influence on the observed anomaly of gravity especially in areas of fairly complex terrain condition as mountainous and hilly regions.Different methods of terrain correction have different precision.The disadvantages of traditional square-domain integral (volume integral)are studied and analyzed in this study as follow:on the one hand,the square-domain cannot fit the actual terrain well because of its square columns fitting;on the other hand,the terrain correction precision of the numerical integral employed in traditional methods is too low to meet the demand of high- precision gravity survey.In this article the surface integral based on the ground surface is simulated,and then replace the original trapezoidal in-tegral with Gauss numerical integral of relatively high precision.The result shows that the Gauss numerical integral not only realizes the best fitting to arbitrary terrain but also obviously enhances the precision of terrain correction,which is verified by the practical application.The results,finally,prove that the terrain correction methods on surface integral are better than tra-ditional ones based on square domain.