driver-action-recognition-adas-0002 (composite)

Use Case and High-Level Description

This is an action recognition composite model for the driver monitoring use case, consisting of encoder and decoder parts. The encoder model uses Video Transformer approach with MobileNetV2 encoder. It is able to recognize actions such as drinking, doing hair or making up, operating the radio, reaching behind, safe driving, talking on the phone, texting. The full list of recognized actions is located here.

Example

_images/action-recognition-kelly.png

Composite model specification

Metric

Value

Source framework

PyTorch*

Encoder model specification

The driver-action-recognition-adas-0002-encoder model accepts video frame and produces embedding. Video frames should be sampled to cover ~1 second fragment (i.e. skip every second frame in 30 fps video).

Metric

Value

GFlops

0.676

MParams

2.863

Inputs

Image, name: 0, shape: 1, 3, 224, 224 in the format B, C, H, W, where:

  • B - batch size

  • C - number of channels

  • H - image height

  • W - image width

Expected color order is BGR.

Outputs

The model outputs a tensor with the shape 1, 512, 1, 1, representing embedding of processed frame.

Decoder model specification

The driver-action-recognition-adas-0002-decoder model accepts stack of frame embeddings, computed by driver-action-recognition-adas-0002-encoder, and produces prediction on input video.

Metric

Value

GFlops

0.147

MParams

4.205

Inputs

An embedding image, name: 0, shape: 1, 16, 512 in the format B, T, C, where:

  • B - batch size

  • T - duration of input clip

  • C - dimension of embedding

Outputs

The model outputs a tensor with the shape 1, 9, each row is a logits vector of performed actions.

Use Case and High-Level Description

This is an action recognition composite model for the driver monitoring use case, consisting of encoder and decoder parts. The encoder model uses Video Transformer approach with MobileNetV2 encoder. It is able to recognize actions such as drinking, doing hair or making up, operating the radio, reaching behind, safe driving, talking on the phone, texting. The full list of recognized actions is located here.

Example

_images/action-recognition-kelly.png

Composite model specification

Metric

Value

Source framework

PyTorch*

Encoder model specification

The driver-action-recognition-adas-0002-encoder model accepts video frame and produces embedding. Video frames should be sampled to cover ~1 second fragment (i.e. skip every second frame in 30 fps video).

Metric

Value

GFlops

0.676

MParams

2.863

Inputs

Image, name: 0, shape: 1, 3, 224, 224 in the format B, C, H, W, where:

  • B - batch size

  • C - number of channels

  • H - image height

  • W - image width

Expected color order is BGR.

Outputs

The model outputs a tensor with the shape 1, 512, 1, 1, representing embedding of processed frame.

Decoder model specification

The driver-action-recognition-adas-0002-decoder model accepts stack of frame embeddings, computed by driver-action-recognition-adas-0002-encoder, and produces prediction on input video.

Metric

Value

GFlops

0.147

MParams

4.205

Inputs

An embedding image, name: 0, shape: 1, 16, 512 in the format B, T, C, where:

  • B - batch size

  • T - duration of input clip

  • C - dimension of embedding

Outputs

The model outputs a tensor with the shape 1, 9, each row is a logits vector of performed actions.

Legal Information

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