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817 results on '"Wu, Guowei"'

1. Why Perturbing Symbolic Music is Necessary: Fitting the Distribution of Never-used Notes through a Joint Probabilistic Diffusion Model

Author

Liu, Shipei, Fan, Xiaoya, and Wu, Guowei

Subjects
Computer Science - Sound, Computer Science - Computation and Language, Electrical Engineering and Systems Science - Audio and Speech Processing
Abstract

Existing music generation models are mostly language-based, neglecting the frequency continuity property of notes, resulting in inadequate fitting of rare or never-used notes and thus reducing the diversity of generated samples. We argue that the distribution of notes can be modeled by translational invariance and periodicity, especially using diffusion models to generalize notes by injecting frequency-domain Gaussian noise. However, due to the low-density nature of music symbols, estimating the distribution of notes latent in the high-density solution space poses significant challenges. To address this problem, we introduce the Music-Diff architecture, which fits a joint distribution of notes and accompanying semantic information to generate symbolic music conditionally. We first enhance the fragmentation module for extracting semantics by using event-based notations and the structural similarity index, thereby preventing boundary blurring. As a prerequisite for multivariate perturbation, we introduce a joint pre-training method to construct the progressions between notes and musical semantics while avoiding direct modeling of low-density notes. Finally, we recover the perturbed notes by a multi-branch denoiser that fits multiple noise objectives via Pareto optimization. Our experiments suggest that in contrast to language models, joint probability diffusion models perturbing at both note and semantic levels can provide more sample diversity and compositional regularity. The case study highlights the rhythmic advantages of our model over language- and DDPMs-based models by analyzing the hierarchical structure expressed in the self-similarity metrics.

Published
2024

2. M3GIA: A Cognition Inspired Multilingual and Multimodal General Intelligence Ability Benchmark

Author

Song, Wei, Li, Yadong, Xu, Jianhua, Wu, Guowei, Ming, Lingfeng, Yi, Kexin, Luo, Weihua, Li, Houyi, Du, Yi, Guo, Fangda, and Yu, Kaicheng

Subjects
Computer Science - Artificial Intelligence, Computer Science - Computation and Language
Abstract

As recent multi-modality large language models (MLLMs) have shown formidable proficiency on various complex tasks, there has been increasing attention on debating whether these models could eventually mirror human intelligence. However, existing benchmarks mainly focus on evaluating solely on task performance, such as the accuracy of identifying the attribute of an object. Combining well-developed cognitive science to understand the intelligence of MLLMs beyond superficial achievements remains largely unexplored. To this end, we introduce the first cognitive-driven multi-lingual and multi-modal benchmark to evaluate the general intelligence ability of MLLMs, dubbed M3GIA. Specifically, we identify five key cognitive factors based on the well-recognized Cattell-Horn-Carrol (CHC) model of intelligence and propose a novel evaluation metric. In addition, since most MLLMs are trained to perform in different languages, a natural question arises: is language a key factor influencing the cognitive ability of MLLMs? As such, we go beyond English to encompass other languages based on their popularity, including Chinese, French, Spanish, Portuguese and Korean, to construct our M3GIA. We make sure all the data relevant to the cultural backgrounds are collected from their native context to avoid English-centric bias. We collected a significant corpus of data from human participants, revealing that the most advanced MLLM reaches the lower boundary of human intelligence in English. Yet, there remains a pronounced disparity in the other five languages assessed. We also reveals an interesting winner takes all phenomenon that are aligned with the discovery in cognitive studies. Our benchmark will be open-sourced, with the aspiration of facilitating the enhancement of cognitive capabilities in MLLMs.

Published
2024

4. GNN4FR: A Lossless GNN-based Federated Recommendation Framework

Author

Wu, Guowei, Pan, Weike, and Ming, Zhong

Subjects
Computer Science - Information Retrieval, Computer Science - Cryptography and Security, Computer Science - Machine Learning
Abstract

Graph neural networks (GNNs) have gained wide popularity in recommender systems due to their capability to capture higher-order structure information among the nodes of users and items. However, these methods need to collect personal interaction data between a user and the corresponding items and then model them in a central server, which would break the privacy laws such as GDPR. So far, no existing work can construct a global graph without leaking each user's private interaction data (i.e., his or her subgraph). In this paper, we are the first to design a novel lossless federated recommendation framework based on GNN, which achieves full-graph training with complete high-order structure information, enabling the training process to be equivalent to the corresponding un-federated counterpart. In addition, we use LightGCN to instantiate an example of our framework and show its equivalence.

Published
2023

5. More Perspectives Mean Better: Underwater Target Recognition and Localization with Multimodal Data via Symbiotic Transformer and Multiview Regression

Author

Liu, Shipei, Fan, Xiaoya, and Wu, Guowei

Subjects
Computer Science - Sound, Computer Science - Multimedia, Electrical Engineering and Systems Science - Audio and Speech Processing
Abstract

Underwater acoustic target recognition (UATR) and localization (UATL) play important roles in marine exploration. The highly noisy acoustic signal and time-frequency interference among various sources pose big challenges to this task. To tackle these issues, we propose a multimodal approach to extract and fuse audio-visual-textual information to recognize and localize underwater targets through the designed Symbiotic Transformer (Symb-Trans) and Multi-View Regression (MVR) method. The multimodal data were first preprocessed by a custom-designed HetNorm module to normalize the multi-source data in a common feature space. The Symb-Trans module embeds audiovisual features by co-training the preprocessed multimodal features through parallel branches and a content encoder with cross-attention. The audiovisual features are then used for underwater target recognition. Meanwhile, the text embedding combined with the audiovisual features is fed to an MVR module to predict the localization of the underwater targets through multi-view clustering and multiple regression. Since no off-the-shell multimodal dataset is available for UATR and UATL, we combined multiple public datasets, consisting of acoustic, and/or visual, and/or textural data, to obtain audio-visual-textual triplets for model training and validation. Experiments show that our model outperforms comparative methods in 91.7% (11 out of 12 metrics) and 100% (4 metrics) of the quantitative metrics for the recognition and localization tasks, respectively. In a case study, we demonstrate the advantages of multi-view models in establishing sample discriminability through visualization methods. For UATL, the proposed MVR method produces the relation graphs, which allow predictions based on records of underwater targets with similar conditions.

Published
2023

7. The Power of Fragmentation: A Hierarchical Transformer Model for Structural Segmentation in Symbolic Music Generation

Author

Wu, Guowei, Liu, Shipei, and Fan, Xiaoya

Subjects
Computer Science - Sound, Computer Science - Machine Learning, Electrical Engineering and Systems Science - Audio and Speech Processing
Abstract

Symbolic Music Generation relies on the contextual representation capabilities of the generative model, where the most prevalent approach is the Transformer-based model. The learning of musical context is also related to the structural elements in music, i.e. intro, verse, and chorus, which are currently overlooked by the research community. In this paper, we propose a hierarchical Transformer model to learn multi-scale contexts in music. In the encoding phase, we first designed a Fragment Scope Localization layer to syncopate the music into chords and sections. Then, we use a multi-scale attention mechanism to learn note-, chord-, and section-level contexts. In the decoding phase, we proposed a hierarchical Transformer model that uses fine-decoders to generate sections in parallel and a coarse-decoder to decode the combined music. We also designed a Music Style Normalization layer to achieve a consistent music style between the generated sections. Our model is evaluated on two open MIDI datasets, and experiments show that our model outperforms the best contemporary music generative models. More excitingly, the visual evaluation shows that our model is superior in melody reuse, resulting in more realistic music.

Published
2022

23. Human Mobility in Opportunistic Networks: Characteristics, Models and Prediction Methods

Author

Pirozmand, Poria, Wu, Guowei, Jedari, Behrouz, and Xia, Feng

Subjects
Computer Science - Social and Information Networks, Computer Science - Networking and Internet Architecture
Abstract

Opportunistic networks (OppNets) are modern types of intermittently connected networks in which mobile users communicate with each other via their short-range devices to share data among interested observers. In this setting, humans are the main carriers of mobile devices. As such, this mobility can be exploited by retrieving inherent user habits, interests, and social features for the simulation and evaluation of various scenarios. Several research challenges concerning human mobility in OppNets have been explored in the literature recently. In this paper, we present a thorough survey of human mobility issues in three main groups (1) mobility characteristics, (2) mobility models and traces, and (3) mobility prediction techniques. Firstly, spatial, temporal, and connectivity properties of human motion are explored. Secondly, real mobility traces which have been captured using Bluetooth/Wi-Fi technologies or location-based social networks are summarized. Furthermore, simulation-based mobility models are categorized and state-of-the art articles in each category are highlighted. Thirdly, new human mobility prediction techniques which aim to forecast the three aspects of human mobility, i.e., users' next walks, stay duration and contact opportunities are studied comparatively. To conclude, some major open issues are outlined., Comment: 18 pages, 1 figure

Published
2020
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26. Cloth Simulation Filtering Algorithm with Topography Cognition

Author

MENG Huaru, WU Guowei

Subjects
terrain-cognitive model, point cloud, cloth simulation filtering, digital elevation model, terrain normalization, Computer software, QA76.75-76.765, Technology (General), T1-995
Abstract

Digital elevation model(DEM) can reflect the topographic characteristics of an area and has a wide range of scientific research applications.Filtering LIDAR point cloud data,extracting the ground points and interpolating are common steps in constructing DEM.The filtering algorithm used in the process of point cloud filtering directly affects the accuracy of the final DEM.As a point cloud filtering algorithm,cloth simulation filtering(CSF) algorithm has the advantages of simple model and high filtering efficiency.It has high filtering accuracy for flat areas.However,when dealing with complex terrain areas,the accuracy of filtering results will be poor due to the internal elasticity and gravity inertia of the cloth model.In view of this,in order to improve the filtering accuracy and terrain adaptability of CSF algorithm in dealing with complex terrain areas,so as to improve the accuracy of constructing DEM,the cloth simulation filtering algorithm with terrain cognition(CSFTC) is proposed.The algorithm proposes a terrain-cognitive model.Based on the local distribution characteristics of point cloud data points,the terrain-cognitive model is constructed and extended to rough digital elevation model(R-DEM),which realizes the separation of macro terrain trend and micro terrain details through point cloud terrain normalization.Finally,the original CSF algorithm combined with R-DEM is used to realize point cloud filtering.Comparison experiment between CSFTC algorithm and the original CSF algorithm is designed.The average total error rate decreases from 9.30% to 5.10%,and the average type-II error rate decreases from 30.02% to 8.46%.Experimental results show that compared with the original CSF algorithm,the accuracy of CSFTC algorithm increases slightly in flat region and increases significantly in complex region,which improves the terrain adaptability of the algorithm.The significant decrease of type-II error is helpful to improve the accuracy of constructed DEM.

Published
2023
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28. A Distributed Simulator of Mobile Ad Hoc Networks

Author

Shu, Xiaowei, Wang, Hao, Xu, Zhou, Ning, Kaiwen, Wu, Guowei, Goos, Gerhard, Founding Editor, Hartmanis, Juris, Founding Editor, Bertino, Elisa, Editorial Board Member, Gao, Wen, Editorial Board Member, Steffen, Bernhard, Editorial Board Member, Yung, Moti, Editorial Board Member, Wang, Lei, editor, Segal, Michael, editor, Chen, Jenhui, editor, and Qiu, Tie, editor

Published
2022
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32. Mode manipulation in a ring–core fiber for OAM monitoring and conversion

Author

Wu Guowei, Gao Shecheng, Tu Jiajing, Shen Lei, Feng Yuanhua, Sui Qi, Liu Weiping, and Li Zhaohui

Subjects
long-period fiber grating, mode filter, mode manipulation, ring-core fiber, Physics, QC1-999
Abstract

The monitoring and conversion of photonic orbital angular momentum (OAM) play fundamental and important roles for both classic and quantum technologies, especially in low-loss transmission media such as ring-core fibers (RCFs), which make many OAM applications practical or vastly more flexible. However, in a RCF, the modes associated with different OAM states are highly overlapping due to the circular refractive index distribution structure, which makes it difficult to distinguish and monitor the OAM modes and in turn limits its inline conversion. Here, we report the first experimental realization of mode monitoring in a RCF using mode filters (MFs), which takes advantage of the difference in the mode adiabatic evolution and the higher-order mode cutoff conditions in tapered RCFs. Different-order OAM can be filtered using MFs with different geometric parameters, as demonstrated by the linearly polarized mode intensity. Combined the mode manipulations in RCF and single-mode fiber, the fundamental mode coupling efficiency can reach 90%, the RCF mode conversion monitoring through inline transmission spectrum evolution can be realized, and the inline fabrication of RCF grating, which couples one mode to a desired mode, can be demonstrated by the fabricating process of three long-period fiber gratings. The mode conversion efficiency between 0-order and 1, 2- or 3-order OAM modes exceeds 96%. Our work provides an efficient approach to monitor and convert OAM modes in higher-order mode supporting RCFs and even other special fibers and further promotes the improvement of the capacity of OAM transmission in RCFs.

Published
2022
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39. Dynamic and efficient resource allocation for 5G end‐to‐end network slicing: A multi‐agent deep reinforcement learning approach.

Author

Asim Ejaz, Muhammad, Wu, Guowei, and Iqbal, Tahir

Subjects
*DEEP reinforcement learning, *REINFORCEMENT learning, *SERVICE level agreements, *MOBILE computing, *5G networks
Abstract

Summary: The rapid evolution of user equipment (UE) and 5G networks drives significant transformations, bringing technology closer to end‐users. Managing resources in densely crowded areas such as airports, train stations, and bus terminals poses challenges due to diverse user demands. Integrating mobile edge computing (MEC) and network function virtualization (NFV) becomes vital when the service provider's (SP) primary goal is maximizing profitability while maintaining service level agreement (SLA). Considering these challenges, our study addresses an online resource allocation problem in an MEC network where computing resources are limited, and the SP aims to boost profit by securely admitting more UE requests at each time slot. Each UE request arrival rate is unknown, and the requirement is specific resources with minimum cost and delay. The optimization problem objective is achieved by allocating resources to requests at the MEC network in appropriate cloudlets, utilizing abandoned instances, reutilizing idle and soft slice instances to shorten delay and reduce costs, and immediately scaling inappropriate instances, thus minimizing the instantiation of new instances. This paper proposes a deep reinforcement learning (DRL) method for request prediction and resource allocation to mitigate unnecessary resource waste. Simulation results demonstrate that the proposed approach effectively accepts network slice requests to maximize profit by leveraging resource availability, reutilizing instantiated resources, and upholding goodwill and SLA. Through extensive simulations, we show that our proposed DRL‐based approach outperforms other state‐of‐the‐art techniques, namely, MaxSR, DQN, and DDPG, by 76%, 33%, and 23%, respectively. [ABSTRACT FROM AUTHOR]

Published
2024
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40. Utility-Driven End-to-End Network Slicing for Diverse IoT Users in MEC: A Multi-Agent Deep Reinforcement Learning Approach.

Author

Ejaz, Muhammad Asim, Wu, Guowei, Ahmed, Adeel, Iftikhar, Saman, and Bawazeer, Shaikhan

Subjects
*DEEP reinforcement learning, *REINFORCEMENT learning, *MOBILE computing, *MARKOV processes, *VIRTUAL networks
Abstract

Mobile Edge Computing (MEC) is crucial for reducing latency by bringing computational resources closer to the network edge, thereby enhancing the quality of services (QoS). However, the broad deployment of cloudlets poses challenges in efficient network slicing, particularly when traffic distribution is uneven. Therefore, these challenges include managing diverse resource requirements across widely distributed cloudlets, minimizing resource conflicts and delays, and maintaining service quality amid fluctuating request rates. Addressing this requires intelligent strategies to predict request types (common or urgent), assess resource needs, and allocate resources efficiently. Emerging technologies like edge computing and 5G with network slicing can handle delay-sensitive IoT requests rapidly, but a robust mechanism for real-time resource and utility optimization remains necessary. To address these challenges, we designed an end-to-end network slicing approach that predicts common and urgent user requests through T distribution. We formulated our problem as a multi-agent Markov decision process (MDP) and introduced a multi-agent soft actor–critic (MAgSAC) algorithm. This algorithm prevents the wastage of scarce resources by intelligently activating and deactivating virtual network function (VNF) instances, thereby balancing the allocation process. Our approach aims to optimize overall utility, balancing trade-offs between revenue, energy consumption costs, and latency. We evaluated our method, MAgSAC, through simulations, comparing it with the following six benchmark schemes: MAA3C, SACT, DDPG, S2Vec, Random, and Greedy. The results demonstrate that our approach, MAgSAC, optimizes utility by 30%, minimizes energy consumption costs by 12.4%, and reduces execution time by 21.7% compared to the closest related multi-agent approach named MAA3C. [ABSTRACT FROM AUTHOR]

Published
2024
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47. A Handwriting Recognition System With WiFi

Author

Lin, Chi, primary, Ahmad, Asfandeyar, additional, Qu, Rongsheng, additional, Wang, Yi, additional, Wang, Lei, additional, Wu, Guowei, additional, Lin, Qiang, additional, and Zhang, Qiang, additional

Published
2024
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49. The Brain’s Topographical Organization Shapes Dynamic Interaction Patterns That Support Flexible Behavior Based on Rules and Long-Term Knowledge

Author

Wang, Xiuyi, primary, Krieger-Redwood, Katya, additional, Lyu, Baihan, additional, Lowndes, Rebecca, additional, Wu, Guowei, additional, Souter, Nicholas E., additional, Wang, Xiaokang, additional, Kong, Ru, additional, Shafiei, Golia, additional, Bernhardt, Boris C., additional, Cui, Zaixu, additional, Smallwood, Jonathan, additional, Du, Yi, additional, and Jefferies, Elizabeth, additional

Published
2024
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