3,677 research outputs found
Semantically Invariant Text-to-Image Generation
Image captioning has demonstrated models that are capable of generating
plausible text given input images or videos. Further, recent work in image
generation has shown significant improvements in image quality when text is
used as a prior. Our work ties these concepts together by creating an
architecture that can enable bidirectional generation of images and text. We
call this network Multi-Modal Vector Representation (MMVR). Along with MMVR, we
propose two improvements to the text conditioned image generation. Firstly, a
n-gram metric based cost function is introduced that generalizes the caption
with respect to the image. Secondly, multiple semantically similar sentences
are shown to help in generating better images. Qualitative and quantitative
evaluations demonstrate that MMVR improves upon existing text conditioned image
generation results by over 20%, while integrating visual and text modalities.Comment: 5 papers, 5 figures, Published in 2018 25th IEEE International
Conference on Image Processing (ICIP
Reinforced Video Captioning with Entailment Rewards
Sequence-to-sequence models have shown promising improvements on the temporal
task of video captioning, but they optimize word-level cross-entropy loss
during training. First, using policy gradient and mixed-loss methods for
reinforcement learning, we directly optimize sentence-level task-based metrics
(as rewards), achieving significant improvements over the baseline, based on
both automatic metrics and human evaluation on multiple datasets. Next, we
propose a novel entailment-enhanced reward (CIDEnt) that corrects
phrase-matching based metrics (such as CIDEr) to only allow for
logically-implied partial matches and avoid contradictions, achieving further
significant improvements over the CIDEr-reward model. Overall, our
CIDEnt-reward model achieves the new state-of-the-art on the MSR-VTT dataset.Comment: EMNLP 2017 (9 pages
Clue: Cross-modal Coherence Modeling for Caption Generation
We use coherence relations inspired by computational models of discourse to
study the information needs and goals of image captioning. Using an annotation
protocol specifically devised for capturing image--caption coherence relations,
we annotate 10,000 instances from publicly-available image--caption pairs. We
introduce a new task for learning inferences in imagery and text, coherence
relation prediction, and show that these coherence annotations can be exploited
to learn relation classifiers as an intermediary step, and also train
coherence-aware, controllable image captioning models. The results show a
dramatic improvement in the consistency and quality of the generated captions
with respect to information needs specified via coherence relations.Comment: Accepted as a long paper to ACL 202
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