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Model Details: dpt-Hybrid

Dense Prediction Transformer (DPT) model trained on 1.4 million images for monocular Depth Estimation.
It was introduced in the paper vision Transformers for Dense Prediction by Ranftl et al. (2021) and first released in this repository.
DPT uses the Vision Transformer (ViT) as backbone and adds a neck + head on top for monocular depth estimation.
model image

This repository hosts the “hybrid” version of the model as stated in the paper. DPT-Hybrid diverges from DPT by using ViT-hybrid as a backbone and taking some activations from the backbone.

The model card has been written in combination by the Hugging Face team and Intel.

Model Detail Description
Model Authors – Company Intel
Date December 22, 2022
Version 1
Type Computer Vision – Monocular Depth Estimation
Paper or Other Resources Vision Transformers for Dense Prediction and GitHub Repo
License Apache 2.0
Questions or Comments Community Tab and Intel Developers Discord
Intended Use Description
Primary intended uses You can use the raw model for zero-shot monocular depth estimation. See the model hub to look for fine-tuned versions on a task that interests you.
Primary intended users Anyone doing monocular depth estimation
Out-of-scope uses This model in most cases will need to be fine-tuned for your particular task. The model should not be used to intentionally create hostile or alienating environments for people.


How to use

Here is how to use this model for zero-shot depth estimation on an image:

from PIL import Image
import numpy as np
import requests
import torch
from transformers import DPTForDepthEstimation, DPTFeatureExtractor
model = DPTForDepthEstimation.from_pretrained("Intel/dpt-hybrid-midas", low_cpu_mem_usage=True)
feature_extractor = DPTFeatureExtractor.from_pretrained("Intel/dpt-hybrid-midas")
url = "http://images.cocodataset.org/val2017/000000039769.jpg"
image = Image.open(requests.get(url, stream=True).raw)
# prepare image for the model
inputs = feature_extractor(images=image, return_tensors="pt")
with torch.no_grad():
    outputs = model(**inputs)
    predicted_depth = outputs.predicted_depth
# interpolate to original size
prediction = torch.nn.functional.interpolate(
    predicted_depth.unsqueeze(1),
    size=image.size[::-1],
    mode="bicubic",
    align_corners=False,
)
# visualize the prediction
output = prediction.squeeze().cpu().numpy()
formatted = (output * 255 / np.max(output)).astype("uint8")
depth = Image.fromarray(formatted)
depth.show()

For more code examples, we refer to the documentation.

Factors Description
Groups Multiple datasets compiled together
Instrumentation
Environment Inference completed on Intel Xeon Platinum 8280 CPU @ 2.70GHz with 8 physical cores and an NVIDIA RTX 2080 GPU.
Card Prompts Model deployment on alternate hardware and software will change model performance
Metrics Description
Model performance measures Zero-shot Transfer
Decision thresholds
Approaches to uncertainty and variability
Training and Evaluation Data Description
Datasets The dataset is called MIX 6, and contains around 1.4M images. The model was initialized with ImageNet-pretrained weights.
Motivation To build a robust monocular depth prediction network
Preprocessing “We resize the image such that the longer side is 384 pixels and train on random square crops of size 384. … We perform random horizontal flips for data augmentation.” See Ranftl et al. (2021) for more details.


Quantitative Analyses

Model Training set DIW WHDR ETH3D AbsRel Sintel AbsRel KITTI δ>1.25 NYU δ>1.25 TUM δ>1.25
DPT – Large MIX 6 10.82 (-13.2%) 0.089 (-31.2%) 0.270 (-17.5%) 8.46 (-64.6%) 8.32 (-12.9%) 9.97 (-30.3%)
DPT – Hybrid MIX 6 11.06 (-11.2%) 0.093 (-27.6%) 0.274 (-16.2%) 11.56 (-51.6%) 8.69 (-9.0%) 10.89 (-23.2%)
MiDaS MIX 6 12.95 (+3.9%) 0.116 (-10.5%) 0.329 (+0.5%) 16.08 (-32.7%) 8.71 (-8.8%) 12.51 (-12.5%)
MiDaS [30] MIX 5 12.46 0.129 0.327 23.90 9.55 14.29
Li [22] MD [22] 23.15 0.181 0.385 36.29 27.52 29.54
Li [21] MC [21] 26.52 0.183 0.405 47.94 18.57 17.71
Wang [40] WS [40] 19.09 0.205 0.390 31.92 29.57 20.18
Xian [45] RW [45] 14.59 0.186 0.422 34.08 27.00 25.02
Casser [5] CS [8] 32.80 0.235 0.422 21.15 39.58 37.18

Table 1. Comparison to the state of the art on monocular depth estimation. We evaluate zero-shot cross-dataset transfer according to the
protocol defined in [30]. Relative performance is computed with respect to the original MiDaS model [30]. Lower is better for all metrics. (Ranftl et al., 2021)

Ethical Considerations Description
Data The training data come from multiple image datasets compiled together.
Human life The model is not intended to inform decisions central to human life or flourishing. It is an aggregated set of monocular depth image datasets.
Mitigations No additional risk mitigation strategies were considered during model development.
Risks and harms The extent of the risks involved by using the model remain unknown.
Use cases
Caveats and Recommendations
Users (both direct and downstream) should be made aware of the risks, biases and limitations of the model. There are no additional caveats or recommendations for this model.


BibTeX entry and citation info

@article{DBLP:journals/corr/abs-2103-13413,
  author    = {Ren{\'{e}} Ranftl and
               Alexey Bochkovskiy and
               Vladlen Koltun},
  title     = {Vision Transformers for Dense Prediction},
  journal   = {CoRR},
  volume    = {abs/2103.13413},
  year      = {2021},
  url       = {https://arxiv.org/abs/2103.13413},
  eprinttype = {arXiv},
  eprint    = {2103.13413},
  timestamp = {Wed, 07 Apr 2021 15:31:46 +0200},
  biburl    = {https://dblp.org/rec/journals/corr/abs-2103-13413.bib},
  bibsource = {dblp computer science bibliography, https://dblp.org}
}

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