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Video-Text Retrieval Embdding with MDMMT

author: Chen Zhang


Description

This operator extracts features for video or text with MDMMT: Multidomain Multimodal Transformer for Video Retrieval, which can generate embeddings for text and video by jointly training a video encoder and text encoder to maximize the cosine similarity.


Code Example

Read the text to generate a text embedding.

from towhee import pipe, ops, DataCollection

p = (
    pipe.input('text') \
        .map('text', 'vec', ops.video_text_embedding.mdmmt(modality='text', device='cuda:0')) \
        .output('text', 'vec')
)

DataCollection(p('Hello world.')).show()

Load a video embeddings extracted from different upstream expert networks, such as video, RGB, audio.

import torch
from towhee import pipe, ops, DataCollection


torch.manual_seed(42)

# features are embeddings extracted from the upstream models.
features = {
    "VIDEO": torch.rand(30, 2048),
    "CLIP": torch.rand(30, 512),
    "tf_vggish": torch.rand(30, 128),
}

# features_t is the time series of the features, usually uniformly sampled. 
features_t = {
    "VIDEO": torch.linspace(1, 30, steps=30),
    "CLIP": torch.linspace(1, 30, steps=30),
    "tf_vggish": torch.linspace(1, 30, steps=30),
}

# features_ind is the mask of the features.
features_ind = {
    "VIDEO": torch.as_tensor([1] * 25 + [0] * 5),
    "CLIP": torch.as_tensor([1] * 25 + [0] * 5),
    "tf_vggish": torch.as_tensor([1] * 25 + [0] * 5),
}

video_input_dict = {"features": features, "features_t": features_t, "features_ind": features_ind}

p = (
    pipe.input('video_input_dict') \
        .map('video_input_dict', 'vec', ops.video_text_embedding.mdmmt(modality='video', device='cuda:0')) \
        .output('video_input_dict', 'vec')
)

DataCollection(p(video_input_dict)).show()


Factory Constructor

Create the operator via the following factory method

mdmmt(modality: str)

Parameters:

modality: str

​ Which modality(video or text) is used to generate the embedding.

weight_path: Optional[str]

​ pretrained model weights path.

device: Optional[str]

​ cpu or cuda.

mmtvid_params: Optional[dict]

​ mmtvid model params for custom model.

mmttxt_params: Optional[dict]

​ mmttxt model params for custom model.


Interface

When video modality, load a video embeddings extracted from different upstream expert networks, such as video, RGB, audio.
When text modality, read the text to generate a text embedding.

Parameters:

data: dict or str

​ The embedding dict extracted from different upstream expert networks or text, based on specified modality).

Returns: numpy.ndarray

​ The data embedding extracted by model.

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mdmmt/README.md

2.9 KiB
Raw Blame History

Video-Text Retrieval Embdding with MDMMT

author: Chen Zhang


Description

This operator extracts features for video or text with MDMMT: Multidomain Multimodal Transformer for Video Retrieval, which can generate embeddings for text and video by jointly training a video encoder and text encoder to maximize the cosine similarity.


Code Example

Read the text to generate a text embedding.

from towhee import pipe, ops, DataCollection

p = (
    pipe.input('text') \
        .map('text', 'vec', ops.video_text_embedding.mdmmt(modality='text', device='cuda:0')) \
        .output('text', 'vec')
)

DataCollection(p('Hello world.')).show()

Load a video embeddings extracted from different upstream expert networks, such as video, RGB, audio.

import torch
from towhee import pipe, ops, DataCollection


torch.manual_seed(42)

# features are embeddings extracted from the upstream models.
features = {
    "VIDEO": torch.rand(30, 2048),
    "CLIP": torch.rand(30, 512),
    "tf_vggish": torch.rand(30, 128),
}

# features_t is the time series of the features, usually uniformly sampled. 
features_t = {
    "VIDEO": torch.linspace(1, 30, steps=30),
    "CLIP": torch.linspace(1, 30, steps=30),
    "tf_vggish": torch.linspace(1, 30, steps=30),
}

# features_ind is the mask of the features.
features_ind = {
    "VIDEO": torch.as_tensor([1] * 25 + [0] * 5),
    "CLIP": torch.as_tensor([1] * 25 + [0] * 5),
    "tf_vggish": torch.as_tensor([1] * 25 + [0] * 5),
}

video_input_dict = {"features": features, "features_t": features_t, "features_ind": features_ind}

p = (
    pipe.input('video_input_dict') \
        .map('video_input_dict', 'vec', ops.video_text_embedding.mdmmt(modality='video', device='cuda:0')) \
        .output('video_input_dict', 'vec')
)

DataCollection(p(video_input_dict)).show()


Factory Constructor

Create the operator via the following factory method

mdmmt(modality: str)

Parameters:

modality: str

​ Which modality(video or text) is used to generate the embedding.

weight_path: Optional[str]

​ pretrained model weights path.

device: Optional[str]

​ cpu or cuda.

mmtvid_params: Optional[dict]

​ mmtvid model params for custom model.

mmttxt_params: Optional[dict]

​ mmttxt model params for custom model.


Interface

When video modality, load a video embeddings extracted from different upstream expert networks, such as video, RGB, audio.
When text modality, read the text to generate a text embedding.

Parameters:

data: dict or str

​ The embedding dict extracted from different upstream expert networks or text, based on specified modality).

Returns: numpy.ndarray

​ The data embedding extracted by model.