Bayshore Park_NE
Project Overview:
This project focused on the systematic aerial capture and 3D modeling of the northeast corner of the park using a precision-planned drone flight. The mission was executed with an automated flight path to ensure consistency, efficiency, and optimal image overlap for high-resolution data capture. The drone maintained a constant nadir orientation at an altitude of 160 feet throughout the flight to maximize vertical accuracy and uniformity of perspective.
A total of 36 high-resolution images were captured in RAW format to preserve maximum detail and dynamic range. These images were then processed using Adobe Creative Suite, where adjustments were made to enhance color fidelity and surface texture—critical elements for accurate and visually rich 3D reconstruction.
The enhanced images were exported and imported into Agisoft Metashape for photogrammetric modeling. The software was used to align the imagery and generate a detailed 3D model and immersive visualization of the terrain.
This methodical approach—combining automated drone flight, professional image editing, and advanced photogrammetry—ensures the delivery of high-quality visual data and a functional 3D asset for further application and exploration.
Lobit Baseball
Project Overview:
This project involved the comprehensive aerial documentation and 3D modeling of a local park baseball field using advanced drone imaging techniques. A pre-planned, evenly spaced flight path was employed to ensure consistent coverage and significant image overlap, which is essential for generating high-detail and spatially accurate models. The drone maintained a nadir (downward-facing) orientation at a steady altitude of 220 feet throughout the mission to preserve vertical perspective and ensure even ground coverage.
A total of 204 high-resolution RAW images were captured during the flight. These files were processed in Adobe Creative Suite, where targeted adjustments were made to enhance color accuracy, contrast, and surface texture—ensuring optimal quality for 3D reconstruction and visualization.
Once edited, the enhanced images were exported and processed in Agisoft Metashape to generate a high-fidelity 3D model of the baseball field. This model enables visual presentation, and potential integration into interactive platforms or planning tools.
By combining automated aerial capture, professional post-processing, and state-of-the-art photogrammetry, this project delivered a highly detailed and visually accurate 3D representation of the site, suitable for a wide range of professional applications.