Search Results for author: Yuan Yang

Found 27 papers, 10 papers with code

Deliberate Reasoning for LLMs as Structure-aware Planning with Accurate World Model

no code implementations4 Oct 2024 Siheng Xiong, Ali Payani, Yuan Yang, Faramarz Fekri

Humans excel at these tasks by leveraging deliberate planning with an internal world model to simulate the potential outcomes of various actions.

Diversity Logical Reasoning +1

The Compressor-Retriever Architecture for Language Model OS

1 code implementation2 Sep 2024 Yuan Yang, Siheng Xiong, Ehsan Shareghi, Faramarz Fekri

Recent advancements in large language models (LLMs) have significantly enhanced their capacity to aggregate and process information across multiple modalities, enabling them to perform a wide range of tasks such as multimodal data querying, tool usage, web interactions, and handling long documents.

In-Context Learning Language Modelling

Can LLMs Reason in the Wild with Programs?

1 code implementation19 Jun 2024 Yuan Yang, Siheng Xiong, Ali Payani, Ehsan Shareghi, Faramarz Fekri

To investigate this, we introduce the task of reasoning in the wild, where an LLM is tasked to solve a reasoning problem of unknown type by identifying the subproblems and their corresponding formalisms, and writing a program to solve each subproblem, guided by a tactic.

GSM8K Math

TILP: Differentiable Learning of Temporal Logical Rules on Knowledge Graphs

1 code implementation19 Feb 2024 Siheng Xiong, Yuan Yang, Faramarz Fekri, James Clayton Kerce

Compared with static knowledge graphs, temporal knowledge graphs (tKG), which can capture the evolution and change of information over time, are more realistic and general.

Knowledge Graphs

TEILP: Time Prediction over Knowledge Graphs via Logical Reasoning

1 code implementation25 Dec 2023 Siheng Xiong, Yuan Yang, Ali Payani, James C Kerce, Faramarz Fekri

We first convert TKGs into a temporal event knowledge graph (TEKG) which has a more explicit representation of time in term of nodes of the graph.

Knowledge Graphs Logical Reasoning

A Cognitively-Inspired Neural Architecture for Visual Abstract Reasoning Using Contrastive Perceptual and Conceptual Processing

1 code implementation19 Sep 2023 Yuan Yang, Deepayan Sanyal, James Ainooson, Joel Michelson, Effat Farhana, Maithilee Kunda

We introduce a new neural architecture for solving visual abstract reasoning tasks inspired by human cognition, specifically by observations that human abstract reasoning often interleaves perceptual and conceptual processing as part of a flexible, iterative, and dynamic cognitive process.

Inductive Bias

FERN: Leveraging Graph Attention Networks for Failure Evaluation and Robust Network Design

no code implementations30 May 2023 Chenyi Liu, Vaneet Aggarwal, Tian Lan, Nan Geng, Yuan Yang, Mingwei Xu, Qing Li

By providing a neural network function approximation of this common kernel using graph attention networks, we develop a unified learning-based framework, FERN, for scalable Failure Evaluation and Robust Network design.

Graph Attention

A Computational Account Of Self-Supervised Visual Learning From Egocentric Object Play

no code implementations30 May 2023 Deepayan Sanyal, Joel Michelson, Yuan Yang, James Ainooson, Maithilee Kunda

Research in child development has shown that embodied experience handling physical objects contributes to many cognitive abilities, including visual learning.

Contrastive Learning Image Classification +1

Harnessing the Power of Large Language Models for Natural Language to First-Order Logic Translation

1 code implementation24 May 2023 Yuan Yang, Siheng Xiong, Ali Payani, Ehsan Shareghi, Faramarz Fekri

Translating natural language sentences to first-order logic (NL-FOL translation) is a longstanding challenge in the NLP and formal logic literature.

Formal Logic Sentence +1

A Neurodiversity-Inspired Solver for the Abstraction \& Reasoning Corpus (ARC) Using Visual Imagery and Program Synthesis

no code implementations18 Feb 2023 James Ainooson, Deepayan Sanyal, Joel P. Michelson, Yuan Yang, Maithilee Kunda

Core knowledge about physical objects -- e. g., their permanency, spatial transformations, and interactions -- is one of the most fundamental building blocks of biological intelligence across humans and non-human animals.

ARC Program Synthesis

Computational Models of Solving Raven's Progressive Matrices: A Comprehensive Introduction

no code implementations8 Feb 2023 Yuan Yang, Mathilee Kunda

As being widely used to measure human intelligence, Raven's Progressive Matrices (RPM) tests also pose a great challenge for AI systems.

Philosophy

Visual-Imagery-Based Analogical Construction in Geometric Matrix Reasoning Task

no code implementations29 Aug 2022 Yuan Yang, Keith McGreggor, Maithilee Kunda

Raven's Progressive Matrices is a family of classical intelligence tests that have been widely used in both research and clinical settings.

Temporal Inductive Logic Reasoning over Hypergraphs

1 code implementation9 Jun 2022 Yuan Yang, Siheng Xiong, Ali Payani, James C Kerce, Faramarz Fekri

Inductive logic reasoning is a fundamental task in graph analysis, which aims to generalize patterns from data.

Inductive logic programming Knowledge Graphs

Neural MoCon: Neural Motion Control for Physically Plausible Human Motion Capture

no code implementations CVPR 2022 Buzhen Huang, Liang Pan, Yuan Yang, Jingyi Ju, Yangang Wang

Our key-idea is to use real physical supervisions to train a target pose distribution prior for sampling-based motion control to capture physically plausible human motion.

Decoder

Automatic Item Generation of Figural Analogy Problems: A Review and Outlook

no code implementations20 Jan 2022 Yuan Yang, Deepayan Sanyal, Joel Michelson, James Ainooson, Maithilee Kunda

Figural analogy problems have long been a widely used format in human intelligence tests.

Learning Time Series from Scale Information

no code implementations18 Mar 2021 Yuan Yang, Jie Ding

Based on that, we focus on a specific but important type of scale information, the resolution/sampling rate of time series data.

Time Series Time Series Analysis

Multi-Phase Locking Value: A Generalized Method for Determining Instantaneous Multi-frequency Phase Coupling

no code implementations20 Feb 2021 Bhavya Vasudeva, Runfeng Tian, Dee H. Wu, Shirley A. James, Hazem H. Refai, Fei He, Yuan Yang

Methods such as $n:m$ phase locking value and bi-phase locking value have previously been proposed to quantify phase coupling between two resonant frequencies (e. g. $f$, $2f/3$) and across three frequencies (e. g. $f_1$, $f_2$, $f_1+f_2$), respectively.

From calibration to parameter learning: Harnessing the scaling effects of big data in geoscientific modeling

no code implementations30 Jul 2020 Wen-Ping Tsai, Dapeng Feng, Ming Pan, Hylke Beck, Kathryn Lawson, Yuan Yang, Jiangtao Liu, Chaopeng Shen

The behaviors and skills of models in many geosciences (e. g., hydrology and ecosystem sciences) strongly depend on spatially-varying parameters that need calibration.

Efficient Probabilistic Logic Reasoning with Graph Neural Networks

1 code implementation ICLR 2020 Yuyu Zhang, Xinshi Chen, Yuan Yang, Arun Ramamurthy, Bo Li, Yuan Qi, Le Song

In this paper, we explore the combination of MLNs and GNNs, and use graph neural networks for variational inference in MLN.

Variational Inference

Learn to Explain Efficiently via Neural Logic Inductive Learning

1 code implementation ICLR 2020 Yuan Yang, Le Song

The capability of making interpretable and self-explanatory decisions is essential for developing responsible machine learning systems.

Inductive logic programming

Can Graph Neural Networks Help Logic Reasoning?

no code implementations5 Jun 2019 Yuyu Zhang, Xinshi Chen, Yuan Yang, Arun Ramamurthy, Bo Li, Yuan Qi, Le Song

Effectively combining logic reasoning and probabilistic inference has been a long-standing goal of machine learning: the former has the ability to generalize with small training data, while the latter provides a principled framework for dealing with noisy data.

Learning a Meta-Solver for Syntax-Guided Program Synthesis

no code implementations ICLR 2019 Xujie Si, Yuan Yang, Hanjun Dai, Mayur Naik, Le Song

Our framework consists of three components: 1) an encoder, which embeds both the logical specification and grammar at the same time using a graph neural network; 2) a grammar adaptive policy network which enables learning a transferable policy; and 3) a reinforcement learning algorithm that jointly trains the specification and grammar embedding and adaptive policy.

Graph Neural Network Meta-Learning +2

One Model for the Learning of Language

no code implementations16 Nov 2017 Yuan Yang

Here, we describe a learning system that is maximally unconstrained, operating over the space of all computations, and is able to acquire several of the key structures present natural language from positive evidence alone.

Program induction

CMU LiveMedQA at TREC 2017 LiveQA: A Consumer Health Question Answering System

no code implementations15 Nov 2017 Yuan Yang, Jingcheng Yu, Ye Hu, Xiaoyao Xu, Eric Nyberg

In this paper, we present LiveMedQA, a question answering system that is optimized for consumer health question.

Answer Generation General Classification +4

Predicting Discharge Medications at Admission Time Based on Deep Learning

no code implementations4 Nov 2017 Yuan Yang, Pengtao Xie, Xin Gao, Carol Cheng, Christy Li, Hongbao Zhang, Eric Xing

Predicting discharge medications right after a patient being admitted is an important clinical decision, which provides physicians with guidance on what type of medication regimen to plan for and what possible changes on initial medication may occur during an inpatient stay.

Positive Definite Estimation of Large Covariance Matrix Using Generalized Nonconvex Penalties

1 code implementation15 Apr 2016 Fei Wen, Yuan Yang, Peilin Liu, Robert C. Qiu

Further, the statistical properties of the new estimators have been analyzed for generalized nonconvex penalties.

Clustering

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