New Approach for forest inventory estimation and timber harvesting planning in mountain areas: the SLOPE project

Forests represent an important economic resource for mountainous areas being for a few region and mountain communities the main form of income. However, wood chain management in these contexts differs from the traditional schemes due to the limits imposed by terrain morphology, both for the operatio...

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Bibliographic Details
Published in:International archives of the photogrammetry, remote sensing and spatial information sciences. remote sensing and spatial information sciences., 2016-06, Vol.XLI-B3, p.775-782
Main Authors: Prandi, F., Magliocchetti, D., Poveda, A., De Amicis, R., Andreolli, M., Devigili, F.
Format: Article
Language:English
Subjects:
Aerial surveying
Aerial surveys
Control systems
Data acquisition
Ecosystems
Forest ecosystems
Forest harvesting
Forest management
Forests
Harvesting
Interactive systems
Lasers
Mountainous areas
Mountains
Remote sensing
Satellites
Stocks
Strategic management
Surveys
Sustainability
Sustainable forestry
Timber inventory
Unmanned aerial vehicles
Virtual reality
Wood
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Summary:Forests represent an important economic resource for mountainous areas being for a few region and mountain communities the main form of income. However, wood chain management in these contexts differs from the traditional schemes due to the limits imposed by terrain morphology, both for the operation planning aspects and the hardware requirements. In fact, forest organizational and technical problems require a wider strategic and detailed level of planning to reach the level of productivity of forest operation techniques applied on flatlands. In particular, a perfect knowledge of forest inventories improves long-term management sustainability and efficiency allowing a better understanding of forest ecosystems. However, this knowledge is usually based on historical parcel information with only few cases of remote sensing information from satellite imageries. This is not enough to fully exploit the benefit of the mountain areas forest stocks where the economic and ecological value of each single parcel depends on singletree characteristics. The work presented in this paper, based on the results of the SLOPE (Integrated proceSsing and controL systems fOr sustainable forest Production in mountain arEas) project, investigates the capability to generate, manage and visualize detailed virtual forest models using geospatial information, combining data acquired from traditional on-the-field laser scanning surveys technologies with new aerial survey through UAV systems. These models are then combined with interactive 3D virtual globes for continuous assessment of resource characteristics, harvesting planning and real-time monitoring of the whole production.
ISSN:2194-9034
1682-1750
2194-9034
DOI:10.5194/isprs-archives-XLI-B3-775-2016