Learnings from the Gawler Craton airborne survey quality control

M. Hutchens
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Abstract

Summary The Geological Survey of South Australia (GSSA) designed the Gawler Craton Airborne Survey (GCAS) to provide high resolution magnetic, gamma-ray and elevation data covering the northern portion of the Gawler Craton. In total, 1.66 million line km were planned over an area of 295,000 km2, covering approximately 30% of the state of South Australia. The survey design of 200 m spaced lines at a ground clearance of 60 m can be compared with the design of existing regional surveys which generally employed 400 m line spacing and a ground clearance of 80 m. The new survey design results in ~2 x the data coverage and ~25% closer to the ground when compared to previous standards for regional surveys in South Australia. Due to the enormous scale of the survey, the data were acquired using four contractors who employed ten systems to fly the sixteen blocks. To standardise the data from the multitude of systems, Geoscience Australia (GA) employed a comprehensive set of technical specifications. As part of these specifications the contractors were required to fly each of the ten systems over a series of test lines termed the “Whyalla Test Lines” (Whyalla). The final GCAS data provide truly impressive high resolution regional scale products. These will allow more detailed geological interpretation of the prospective Gawler Craton. A laser altimeter was added to the list of required survey equipment. Deficiencies in the technical specifications relating to laser altimeters were identified. Standards and procedures specific to laser characteristics will need to be considered on future surveys. Analyses show that weaknesses in current standards and procedures are still evident. The weaknesses identified allow room for improvements to be made for future surveys. Gamma-ray processing results raised the most serious concerns, with repeatability not achieved. Changes to standard procedures may need to be considered.
高勒克拉通航空测量质量控制的启示
南澳大利亚地质调查局(GSSA)设计了高勒克拉通航空测量(GCAS),以提供覆盖高勒克拉通北部的高分辨率磁、伽马射线和高程数据。总共规划了166万公里的线路,覆盖了29.5万平方公里的面积,约占南澳大利亚州面积的30%。200 m线间距、60 m地间隙的测量设计,可与现有区域测量设计进行比较,一般采用400 m线间距、80 m地间隙。与南澳大利亚州以前的区域调查标准相比,新的调查设计使数据覆盖范围扩大了2倍,距离地面近了25%。由于调查的规模巨大,数据是由四个承包商获得的,他们使用了十个系统来飞行16个区块。为了使来自众多系统的数据标准化,澳大利亚地球科学(GA)采用了一套全面的技术规范。作为这些规范的一部分,承包商被要求在一系列被称为“Whyalla测试线”(Whyalla)的测试线上飞行10个系统中的每一个。最终的GCAS数据提供了真正令人印象深刻的高分辨率区域尺度产品。这将有助于对未来的高勒克拉通进行更详细的地质解释。在必需的测量设备清单上增加了一台激光测高仪。确定了与激光高度计有关的技术规范中的缺陷。在今后的调查中需要考虑激光特性的具体标准和程序。分析表明,现行标准和程序的弱点仍然很明显。已查明的弱点为今后的调查提供了改进的余地。伽马射线处理结果引起了最严重的关注,无法实现可重复性。可能需要考虑改变标准程序。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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