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    PaLI-X: On Scaling up a Multilingual Vision and Language Model
    Xi Chen
    Josip Djolonga
    Piotr Padlewski
    Basil Mustafa
    Beer Changpinyo
    Jialin Wu
    Carlos Riquelme
    Sebastian Goodman
    Xiao Wang
    Yi Tay
    Siamak Shakeri
    Mostafa Dehghani
    Daniel Salz
    Mario Lučić
    Michael Tschannen
    Arsha Nagrani
    Hexiang (Frank) Hu
    Mandar Joshi
    Bo Pang
    Ceslee Montgomery
    Paulina Pietrzyk
    Marvin Ritter
    AJ Piergiovanni
    Matthias Minderer
    Filip Pavetić
    Austin Waters
    Gang Li
    Ibrahim Alabdulmohsin
    Lucas Beyer
    Julien Amelot
    Kenton Lee
    Andreas Steiner
    Yang Li
    Daniel Keysers
    Anurag Arnab
    Yuanzhong Xu
    Keran Rong
    Alexander Kolesnikov
    Mojtaba Seyedhosseini
    Anelia Angelova
    Xiaohua Zhai
    Neil Houlsby
    Radu Soricut
    Computer Vision and Pattern Recognition Conference (CVPR) (2024)
    Preview abstract We explore the boundaries of scaling up a multilingual vision and language model, both in terms of size of the components and the breadth of its training task mixture. Our model achieves new levels of performance on a wide-range of varied and complex tasks, including multiple image-based captioning and question-answering tasks, image-based document understanding and few-shot (in-context) learning, as well as object detection, video question answering, and video captioning. Our model advances the state-of-the-art on most vision-and-language benchmarks considered (20+ of them). Finally, we observe emerging capabilities, such as complex counting and multilingual object detection, tasks that are not explicitly in the training mix. View details
    Omni-SMoLA: Boosting Generalist Multimodal Models with Soft Mixture of Low-rank Experts
    Jialin Wu
    Xia Hu
    Yaqing Wang
    Bo Pang
    Radu Soricut
    Computer Vision and Pattern Recognition (2024)
    Preview abstract Specialized Large multi-modal models (LMMs) have exhibited remarkable performance across numerous tasks, however, generalist LMMs suffer from performance degradation when training with a large collection of tasks. Recent research suggests Mixture of Experts (MoE) Models help instruction tuning, however, for LMMs of parameter size around O(50-100B), the prohibitive cost of replicating and storing the expert models severely limits the number of experts we can use. We propose Omni-SMoLA that softly mixes many multimodal low rank experts to large models without introducing significant new parameter count compared to conventional MoE models. The core idea is that the large model provides a foundational backbone and different lightweight experts learn specialized knowledge residually. Extensive experiments demonstrate that the SMoLA approach helps improve the generalist performance across a broad range of visual question answering and captioning tasks, achieving a new state-of-the-art generalist performance that matches or outperforms single specialized LMM baselines. View details
    Decoupled Box Proposal and Featurization with Ultrafine-Grained Semantic Labels Improve Image Captioning and Visual Question Answering
    Beer Changpinyo
    Bo Pang
    Piyush Sharma
    Radu Soricut
    EMNLP-IJCNLP (2019)
    Preview abstract Object detection plays an important role in current solutions to vision and language tasks like image captioning and visual question answering. However, popular models like Faster R-CNN rely on a costly process of annotating ground-truths for both the bounding boxes and their corresponding semantic labels, making it less amenable as a primitive task for transfer learning. In this paper, we examine the effect of decoupling box proposal and featurization for down-stream tasks. The key insight is that this allows us to leverage a large amount of labeled annotations that were previously unavailable for standard object detection benchmarks. Empirically, we demonstrate that this leads to effective transfer learning and improved image captioning and visual question answering models, as measured on publicly-available benchmarks. View details
    Points, Paths, and Playscapes: Large-scale Spatial Language Understanding Tasks Set in the Real World
    Jason Baldridge
    Tania Bedrax-Weiss
    Daphne Luong
    Srini Narayanan
    Bo Pang
    Fernando Pereira
    Radu Soricut
    Michael Tseng
    Yuan Zhang
    Proceedings of the First International Workshop on Spatial Language Understanding, Association for Computational Linguistics, New Orleans, Louisiana, USA (2018), pp. 46-52
    Preview abstract Spatial language understanding is important for practical applications and as a building block for better abstract language understanding. Much progress has been made through work on understanding spatial relations and values in images and texts as well as on giving and following navigation instructions in restricted domains. We argue that the next big advances in spatial language understanding can be best supported by creating large-scale datasets that focus on points and paths based in the real world, and then extending these to create online, persistent playscapes that mix human and bot players. The bot players can begin play having undergone a prior training regime, but then must learn, evolve, and survive according to their depth of understanding of scenes, navigation, and interactions. View details
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