Author ORCID Identifier
Document Type
Conference Paper
Disciplines
Computer Sciences, Robotics and automatic control
Abstract
For the implementation of Autonomously navigating Unmanned Air Vehicles (UAV) in the real world, it must be shown that safe navigation is possible in all real world scenarios. In the case of UAVs powered by Deep Learning algorithms, this is a difficult task to achieve, as the weak point of any trained network is the reduction in predictive capacity when presented with unfamiliar input data. It is possible to train for more use cases, however more data is required for this, requiring time and manpower to acquire. In this work, a potential solution to the manpower issues of exponentially scaling dataset size and complexity is presented, through the generation of artificial image datasets that are based off of a 3D scanned recreation of a physical space and populated with 3D scanned objects of a specific class. This simulation is then used to generate image samples that iterates temporally resulting in a slice-able dataset that contains time varied components of the same class.
DOI
https://doi.org/10.56541/POYA9239
Recommended Citation
Lee, Thomas; Mckeever, Susan; and Courtney, Jane, "Reality Analagous Synthetic Dataset Generation with Daylight Variance for Deep Learning Classification" (2022). Conference papers. 378.
https://arrow.tudublin.ie/engscheleart/378
Funder
Scientific Foundation Ireland
Creative Commons License
This work is licensed under a Creative Commons Attribution-NonCommercial-Share Alike 4.0 International License.
Publication Details
Published and presented as poster in the 24th Irish Machine Vision and Image Processing Conference hosted in Belfast, August 31st, 2022.
Full proceedings:
https://iprcs.github.io/pdf/IMVIP2022_Proceedings.pdf
https://doi.org/10.56541/POYA9239