MONITORING OF HAZARDOUS GEOLOGICAL PROCESSES IN THE CONSTRUCTION AND OPERATION OF PIPELINE TRANSPORT FACILITIES BY REMOTE SENSING DATA

Abstract

The article analyzes the natural processes in the corridor of pipeline routes that can cause defects or accidents after the completion of construction or during the operation of the pipeline system. In the transition to a digital form of management of the processes of design, construction and operation of pipeline transport facilities, one of the most important tasks is to identify and control the dynamics of natural hazards processes (NHP). Because the system has significant impact on the flow of natural processes in corridor of the highway, they can become more active and cause accidents. The sources of negative impact on the main oil pipelines are exogenous and endogenous geological processes, as well as atmospheric processes, in the zone of influence of which the oil pipeline is located. It is advisable to use laser scanning to identify and monitor of hazards geological processes (HGP). Filling the NHP database is performed in stages: first, collection and synthesis of all available materials about geology, geomorphology, tectonics, engineering geology, hydrogeology, climate and vegetation of the researcher area is performed; then a digital terrain model (DEM) is created based on air laser scanning (VLS) and aerial photography (AP) by direct decoding features with the allocation of contours of territories subject to natural processes with the classification of their types; and, finally, lists, schemes, maps compiled by result of analysis qualitative and quantitative characteristics of geological processes that have received status of NHP or HGP for designed or operated structure. Decoding of dangerous geological processes according by VLS data performed in two stages: identification of the process and determination of its type by a set of decoding features, then comparison with the standard model from the catalog by location of identification primitives on the DEM and the reference model.