Augmented Reality In Forestry: Transforming Forest Operations With Hololens 2

The integration of Augmented Reality (AR) in forest operations marks a significant leap forward in how forestry management tasks are planned and executed, with the Microsoft HoloLens 2 being at the forefront of this technological advancement of optical AR. This paper aims to explore the application of HoloLens 2 in enhancing the planning and realization of forest operations, bridging the gap between virtual planning and physical execution. The study investigates the device's capability to overlay digital information onto the real world, allowing forest managers and operators to visualize forest landscapes, tree positions, and potential hazards in real-time, thereby enabling more informed decision-making processes.

We conducted a series of field experiments to evaluate the effectiveness of the HoloLens 2 in various forestry operations, including timber harvesting, site preparation, and reforestation. The results indicate that AR technology significantly improves the accuracy and efficiency of these operations. The use of HoloLens 2 facilitates a better understanding of the terrain, assists in identifying the optimal routes for machinery, and supports the precision placement of seedlings. Moreover, the technology promotes safety by highlighting areas of concern directly within the operator's field of view, reducing the risk of accidents.

This presentation also discusses the technical challenges encountered during the implementation of AR in forest operations, such as the limitations in field of view, battery life, the need for robust GNSS integration and data quality for precise location tracking in dense forest environments. We propose potential solutions and future directions for research to overcome these challenges, emphasizing the importance of continuous improvement in AR technology tailored to forestry applications.

The study embeds the AR results in the overall concept of the Extended Reality Lab at the University of Freiburg and presents the development of high-precision standardised single-tree-based digital twins of forests.

In conclusion, the application of HoloLens 2 in forest operations presents a promising avenue for enhancing the efficiency, accuracy, and safety of forestry practices. By leveraging AR technology, forestry professionals can achieve a seamless integration of digital information with the physical environment, leading to more sustainable and effective forest management strategies.