ZSL-KG is a general-purpose zero-shot learning framework with a novel transformer graph convolutional network (TrGCN) to learn class representation from common sense knowledge graphs.
Reference paper: Zero-shot Learning with Common Sense Knowledge graphs.
Performance ZSL-KG compared to other existing graph-based zero-shot learning frameworks.
Method | Ontonotes (Strict) | BBN (Strict) | SNIPS-NLU (Acc.) | AWA2 (H) | aPY (H) | ImageNet (All T-1) | Avg. |
---|---|---|---|---|---|---|---|
GCNZ | 41.5 | 21.5 | 82.5 | 73.3 | 58.1 | 1.0 | 46.3 |
SGCN | 42.6 | 24.9 | 50.3 | 73.7 | 56.8 | 1.5 | 41.6 |
DGP | 41.1 | 24.0 | 64.4 | 75.1 | 55.7 | 1.4 | 43.6 |
ZSL-KG | 45.2 | 26.7 | 89.0 | 74.6 | 61.6 | 1.7 | 49.8 |
ZSL-KG outperforms existing graph-based frameworks on five out of six benchmark datasets.
For more details on the experiments, refer to nayak-arxiv20-code.
The package requires python >= 3.7
. To install the package, type the following command:
pip install .
In our framework, we use AutoGNN
to easily create graph neural networks for zero-shot learning.
from zsl_kg.class_encoder.auto_gnn import AutoGNN
from zsl_kg.common.graph import NeighSampler
trgcn = {
"input_dim": 300,
"output_dim": 2049,
"type": "trgcn",
"gnn": [
{
"input_dim": 300,
"output_dim": 2048,
"activation": nn.LeakyReLU(0.2),
"normalize": True,
"sampler": NeighSampler(100, mode="topk"),
"fh": 100,
},
{
"input_dim": 2048,
"output_dim": 2049,
"activation": None,
"normalize": True,
"sampler": NeighSampler(50, mode="topk"),
},
],
}
class_encoder = AutoGNN(trgcn)
Our framework supports the following graph neural networks: gcn, gat, rgcn, lstm, trgcn
.
You can change the type
to any of the available to graph neural networks to instantly create a new graph neural network.
For more examples, refer to nayak-arxiv20-code.
To run the tests, please type the following command:
pytest
Please cite the following paper if you are using our framework.
@article{nayak:arxiv20,
Author = {Nayak, Nihal V. and Bach, Stephen H.},
Title = {Zero-Shot Learning with Common Sense Knowledge Graphs},
Volume = {arXiv:2006.10713 [cs.LG]},
Year = {2020}}