Emotion Sensing

Recent advances in machine vision have made emotion detection in software feasible after decades of research. Accurate understanding how end-users are feeling helps healthcare, marketing, product testing, retail, security and safety. With over 100 expressions in our datasets, prediction has never been easier.

Landmarks Dataset
Maximum expressions and camera angles
Inclusivity Dataset
Handle different shades and ages
Programmatic API
Fully customizable data for model tuning
Crafted with facial landmarks in 3D across the spectrum of facial expressions, you’ll have the data your application needs.
View Dataset
The inclusivity dataset showcases traditionally under-represented groups to ensure that your application is as unbiased as possible.
View Dataset
Our Face API lets you specify exactly the parameters you need, generating millions of images with unique people, environments, and camera settings.
More about our API
100x Cheaper.
1000x Faster Turnaround.

The average amount spent on single image for full-segmentation is $6.40* – any additional labels cost more above and beyond that. Our synthetic data provides full-segmentation, landmarks, surface normals, and more – for as little as $0.03 per image.

Of course, that’s only the labeling cost. Procuring the images to label is incredibly time-consuming as well. It can take weeks or months to legally collect diverse images of individuals’ faces for most companies. Our datasets are available immediately, and our programmatic API returns generated images and labels in minutes to hours.

*Based on scale.ai pricing, January 2021.

Better. Stronger.
Not only do our datasets provide training data affordably and nearly instantaneously, they do so much more than human-collected & labeled data. So you can build more advanced, more ethical computer vision models.
Pixel-Perfect Accuracy
100% accurate ground truth–every time. Eliminate your QA step on every label.
Privacy-First
Get peace of mind: with non-real humans, privacy concerns are history.
Less Bias
Even sampling across skin tones, ethnicities, and ages, for more ethical machine vision.
New Label Types
Use cutting edge models with depth, normals, dense 3D landmarks, & subsegmentation.
Broader Distributions
Combine identities, hair styles, facial hair, makeup, hats, glasses, face masks, lighting conditions, and camera angles for trillions of possibilities – all at the speed of writing JSON with our API.
Get Going Fast
Check out our snippets to jump-start the training process.
FaceApiDataset
from face_api_dataset import FaceApiDataset, Modality
dataset = FaceApiDataset("test_dataset")
item = dataset[0]

plt.figure(figsize=(20,20))
plt.imshow(item[Modality.RGB])

plt.figure(figsize=(20,20))
landmark_show(item[Modality.RGB], item[Modality.LANDMARKS])
View in colab View in GitHub
Domain Adapt
As with all synthetic data, there’s a shift from our domain to the one captured by real cameras. Although there’s no universal domain adaptation approach for every use-case, we stand on the shoulders of giants to get great results.
Adaptive Batch Normalization
Adaptive Batch Normalization is a simple technique, can be easily applied to any network with batch normalization layers, and combined with all other techniques for surprisingly good results.
Revisiting Batch Normalization For Practical Domain Adaptation. Domain-Specific Batch Normalization for Unsupervised Domain Adaptation. Official Implementation of “Domain Specific Batch Normalization for Unsupervised Domain Adaptation (CVPR2019)”.
Adversarial Domain Adaptation
Adversarial domain adaptation and its modifications for particular tasks usually result in strong improvement. The downside is that it typically requires heavy pipeline modifications.
Domain-Adversarial Training of Neural Networks. Alleviating Semantic-level Shift: A Semi-supervised Domain Adaptation Method for Semantic Segmentation. A collection of implementations of adversarial domain adaptation algorithms.
Refinement
Image-2-image translation methods coupled with self-regularization loss allows dataset-level refinement. While these methods require additional pipeline to train, it is completely independent and does not require modifications of the main training pipeline.
Contrastive Learning for Unpaired Image-to-Image Translation. Unpaired Image-to-Image Translation using Cycle-Consistent Adversarial Networks. Learning from Simulated and Unsupervised Images through Adversarial Training. Contrastive unpaired image-to-image translation, faster and lighter training than cyclegan (ECCV 2020, in PyTorch).
Combined methods
For the best results all the methods above typically should be combined together.
CyCADA: Cycle-Consistent Adversarial Domain Adaptation. Code to accompany ICML 2018 paper.
Ready to Grow With You
We’re here to help you create your solution with the help of our programmatic data platform.
Scales out of the box

Our technology seamlessly scales in the cloud with our customers’ demands, from R&D phases with small amounts of data to production requirements of terabytes of data.

With everything available via an API, we integrate seamlessly with your workflows from day 1.

Learn More about our API

Learn More about our API

Machine Learning Development Support

If your team needs a little more machine learning muscle, our experts are ready to jump in. We’ll help reduce your time to market, so don’t hesitate to reach out.

Contact Us

Contact Us