Official implementation for DOVER-Lap: A method for combining overlap-aware diarization outputs.
pip install dover-lap
After installation, run
dover-lap [OPTIONS] OUTPUT_RTTM [INPUT_RTTMS]...
Example:
dover-lap egs/ami/rttm_dl_test egs/ami/rttm_test_*
Usage: dover-lap [OPTIONS] OUTPUT_RTTM [INPUT_RTTMS]...
Apply the DOVER-Lap algorithm on the input RTTM files.
Options:
--gaussian-filter-std FLOAT Standard deviation for Gaussian filter
applied before voting. This can help reduce
the effect of outliers in the input RTTMs.
For quick turn-taking, set this to a small
value (e.g. 0.1). 0.5 is a good value for
most cases. Set this to a very small value,
e.g. 0.01, to remove filtering. [default:
0.5]
--custom-weight TEXT Weights for input RTTMs
--dover-weight FLOAT DOVER weighting factor [default: 0.1]
--weight-type [rank|custom|norm]
Specify whether to use rank weighting or
provide custom weights [default: rank]
--voting-method [average] Choose voting method to use: average: use
weighted average to combine input RTTMs
[default: average]
--second-maximal If this flag is set, run a second iteration
of the maximal matching for greedy label
mapping [default: False]
--label-mapping [hungarian|greedy]
Choose label mapping algorithm to use
[default: greedy]
--random-seed INTEGER
-c, --channel INTEGER Use this value for output channel IDs
[default: 1]
-u, --uem-file PATH UEM file path
--help Show this message and exit.
Note:
- If
--weight-type custom
is used, then--custom-weight
must be provided. For example:
dover-lap egs/ami/rttm_dl_test egs/ami/rttm_test_* --weight-type custom --custom-weight '[0.4,0.3,0.3]'
label-mapping
can be set togreedy
(default) orhungarian
, which is a modified version of the mapping technique originally proposed in DOVER.
We provide a sample result on the AMI mix-headset test set. The results can be
obtained using spyder
, which is automatically
installed with dover-lap
:
dover-lap egs/ami/rttm_dl_test egs/ami/rttm_test_*
spyder egs/ami/ref_rttm_test egs/ami/rttm_dl_test
and similarly for the input hypothesis. The DER results are shown below.
MS | FA | Conf. | DER | |
---|---|---|---|---|
Overlap-aware VB resegmentation | 9.84 | 2.06 | 9.60 | 21.50 |
Overlap-aware spectral clustering | 11.48 | 2.27 | 9.81 | 23.56 |
Region Proposal Network | 9.49 | 7.68 | 8.25 | 25.43 |
DOVER-Lap (Hungarian mapping) | 9.98 | 2.13 | 8.25 | 20.35 |
DOVER-Lap (Greedy mapping)* | 9.96 | 2.16 | 7.75 | 19.86 |
* The Greedy label mapping is exponential in number of inputs (see this paper).
The algorithm is implemented in pure Python with NumPy for tensor computations.
The time complexity is expected to increase exponentially with the number of
inputs, but it should be reasonable for combining up to 10 input hypotheses. For
combining more than 10 inputs, we recommend setting --label-mapping hungarian
.
For smaller number of inputs (up to 5), the algorithm should take only a few seconds to run on a laptop.
DOVER-Lap is meant to be used to combine more than 2 systems, since black-box voting between 2 systems does not make much sense. Still, if 2 systems are provided as input, we fall back on the Hungarian algorithm for label mapping, since it is provably optimal for this case. Both the systems are assigned equal weights, and in case of voting conflicts, the region is assigned to both labels. This is not the intended use case and will almost certainly lead to performance degradation.
@article{Raj2021Doverlap,
title={{DOVER-Lap}: A Method for Combining Overlap-aware Diarization Outputs},
author={D.Raj and P.Garcia and Z.Huang and S.Watanabe and D.Povey and A.Stolcke and S.Khudanpur},
journal={2021 IEEE Spoken Language Technology Workshop (SLT)},
year={2021}
}
@article{Raj2021ReformulatingDL,
title={Reformulating {DOVER-Lap} Label Mapping as a Graph Partitioning Problem},
author={Desh Raj and S. Khudanpur},
journal={INTERSPEECH},
year={2021},
}
For issues/bug reports, please raise an Issue in this repository, or reach out to me at [email protected]
.