Paper ID: 2410.11610
Depth Estimation From Monocular Images With Enhanced Encoder-Decoder Architecture
Dabbrata Das, Argho Deb Das, Farhan Sadaf
Estimating depth from a single 2D image is a challenging task because of the need for stereo or multi-view data, which normally provides depth information. This paper deals with this challenge by introducing a novel deep learning-based approach using an encoder-decoder architecture, where the Inception-ResNet-v2 model is utilized as the encoder. According to the available literature, this is the first instance of using Inception-ResNet-v2 as an encoder for monocular depth estimation, illustrating better performance than previous models. The use of Inception-ResNet-v2 enables our model to capture complex objects and fine-grained details effectively that are generally difficult to predict. Besides, our model incorporates multi-scale feature extraction to enhance depth prediction accuracy across different kinds of object sizes and distances. We propose a composite loss function consisting of depth loss, gradient edge loss, and SSIM loss, where the weights are fine-tuned to optimize the weighted sum, ensuring better balance across different aspects of depth estimation. Experimental results on the NYU Depth V2 dataset show that our model achieves state-of-the-art performance, with an ARE of 0.064, RMSE of 0.228, and accuracy ($\delta$ $<1.25$) of 89.3%. These metrics demonstrate that our model effectively predicts depth, even in challenging circumstances, providing a scalable solution for real-world applications in robotics, 3D reconstruction, and augmented reality.
Submitted: Oct 15, 2024