Monitoring based time-prediction of rock falls: Three case-histories

Physics and Chemistry of the Earth, Part B: Hydrology, Oceans and Atmosphere Pub Date : 2001-01-01 DOI:10.1016/S1464-1909(00)00234-3

J Zvelebill , M Moser

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引用次数: 46

Abstract

Three case-histories are aimed to show possibilities how to use results of dilatometric measurements of relative displacements on rock cracks to assess actual rock slope instability and to make time-predictions of a rock fall. The prediction of a collapse of a sandstone rock wall above an international road in the Northern Bohemia was made 2 months beforehand, and the critical 7-days time-window was met with 1-day precision. For an unstable sandstone cliff in the same geographic area, the beginning for the the final phase of a rock fall preparation was foreseen 1 year before. The prognosis of the month entailing immediate rock fall danger was made 5 months beforehand, and then proved using a monitoring method. The time series of a 2 years lasting monitoring enabled the long-time prognosis of rock falling activity from a limestone cliff in Austrian Alps, in 1990. At present time, the prognosis seems to become fulfilled in the next 2 years. These years are making the upper limit of its most probable time window. The needs to improve methods of the medium- and the longtime ranging prognostication to meet the majority of practical demands are briefly discussed.

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基于时间预测的岩崩监测:三个历史案例

三个历史案例旨在展示如何使用岩石裂缝上相对位移的膨胀测量结果来评估实际岩石边坡的不稳定性并对岩石坠落进行时间预测的可能性。我们提前2个月预测了北波希米亚一条国际公路上的砂岩岩壁坍塌，并以1天的精度满足了7天的临界时间窗口。对于同一地理区域的不稳定砂岩悬崖，岩崩准备的最后阶段的开始是在1年前预见到的。提前5个月对发生立发岩崩危险的月份进行预测，并采用监测方法进行验证。1990年，对奥地利阿尔卑斯石灰岩悬崖的岩石坠落活动进行了为期2年的时间序列监测。目前，预后似乎在未来2年内实现。这些年份是它最可能的时间窗口的上限。简要讨论了改进中长期预测方法以满足大多数实际需求的必要性。

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Physics and Chemistry of the Earth, Part B: Hydrology, Oceans and Atmosphere

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