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1,135 results on '"Dong, Mianxiong"'

1. Efficient Asynchronous Federated Learning with Sparsification and Quantization

Author

Jia, Juncheng, Liu, Ji, Zhou, Chendi, Tian, Hao, Dong, Mianxiong, and Dou, Dejing

Subjects
Computer Science - Distributed, Parallel, and Cluster Computing, Computer Science - Artificial Intelligence, Computer Science - Machine Learning
Abstract

While data is distributed in multiple edge devices, Federated Learning (FL) is attracting more and more attention to collaboratively train a machine learning model without transferring raw data. FL generally exploits a parameter server and a large number of edge devices during the whole process of the model training, while several devices are selected in each round. However, straggler devices may slow down the training process or even make the system crash during training. Meanwhile, other idle edge devices remain unused. As the bandwidth between the devices and the server is relatively low, the communication of intermediate data becomes a bottleneck. In this paper, we propose Time-Efficient Asynchronous federated learning with Sparsification and Quantization, i.e., TEASQ-Fed. TEASQ-Fed can fully exploit edge devices to asynchronously participate in the training process by actively applying for tasks. We utilize control parameters to choose an appropriate number of parallel edge devices, which simultaneously execute the training tasks. In addition, we introduce a caching mechanism and weighted averaging with respect to model staleness to further improve the accuracy. Furthermore, we propose a sparsification and quantitation approach to compress the intermediate data to accelerate the training. The experimental results reveal that TEASQ-Fed improves the accuracy (up to 16.67% higher) while accelerating the convergence of model training (up to twice faster)., Comment: To appear in Concurrency and Computation: Practice and Experience (CCPE), 21 pages

Published
2023

2. An Efficient Imbalance-Aware Federated Learning Approach for Wearable Healthcare with Autoregressive Ratio Observation

Author

Yan, Wenhao, Li, He, Ota, Kaoru, and Dong, Mianxiong

Subjects
Computer Science - Machine Learning, Computer Science - Artificial Intelligence
Abstract

Widely available healthcare services are now getting popular because of advancements in wearable sensing techniques and mobile edge computing. People's health information is collected by edge devices such as smartphones and wearable bands for further analysis on servers, then send back suggestions and alerts for abnormal conditions. The recent emergence of federated learning allows users to train private data on local devices while updating models collaboratively. However, the heterogeneous distribution of the health condition data may lead to significant risks to model performance due to class imbalance. Meanwhile, as FL training is powered by sharing gradients only with the server, training data is almost inaccessible. The conventional solutions to class imbalance do not work for federated learning. In this work, we propose a new federated learning framework FedImT, dedicated to addressing the challenges of class imbalance in federated learning scenarios. FedImT contains an online scheme that can estimate the data composition during each round of aggregation, then introduces a self-attenuating iterative equivalent to track variations of multiple estimations and promptly tweak the balance of the loss computing for minority classes. Experiments demonstrate the effectiveness of FedImT in solving the imbalance problem without extra energy consumption and avoiding privacy risks., Comment: submitted to IEEE OJCS in Oct. 2023, under review

Published
2023

3. Robust Computation Offloading and Trajectory Optimization for Multi-UAV-Assisted MEC: A Multi-Agent DRL Approach

Author

Li, Bin, Yang, Rongrong, Liu, Lei, Wang, Junyi, Zhang, Ning, and Dong, Mianxiong

Subjects
Electrical Engineering and Systems Science - Signal Processing
Abstract

For multiple Unmanned-Aerial-Vehicles (UAVs) assisted Mobile Edge Computing (MEC) networks, we study the problem of combined computation and communication for user equipments deployed with multi-type tasks. Specifically, we consider that the MEC network encompasses both communication and computation uncertainties, where the partial channel state information and the inaccurate estimation of task complexity are only available. We introduce a robust design accounting for these uncertainties and minimize the total weighted energy consumption by jointly optimizing UAV trajectory, task partition, as well as the computation and communication resource allocation in the multi-UAV scenario. The formulated problem is challenging to solve with the coupled optimization variables and the high uncertainties. To overcome this issue, we reformulate a multi-agent Markov decision process and propose a multi-agent proximal policy optimization with Beta distribution framework to achieve a flexible learning policy. Numerical results demonstrate the effectiveness and robustness of the proposed algorithm for the multi-UAV-assisted MEC network, which outperforms the representative benchmarks of the deep reinforcement learning and heuristic algorithms., Comment: 12 pages, 10 figures

Published
2023
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4. Wital: A COTS WiFi Devices Based Vital Signs Monitoring System Using NLOS Sensing Model

Author

Zhang, Xiang, Gu, Yu, Yan, Huan, Wang, Yantong, Dong, Mianxiong, Ota, Kaoru, Ren, Fuji, and Ji, Yusheng

Subjects
Computer Science - Human-Computer Interaction
Abstract

Vital sign (breathing and heartbeat) monitoring is essential for patient care and sleep disease prevention. Most current solutions are based on wearable sensors or cameras; however, the former could affect sleep quality, while the latter often present privacy concerns. To address these shortcomings, we propose Wital, a contactless vital sign monitoring system based on low-cost and widespread commercial off-the-shelf (COTS) Wi-Fi devices. There are two challenges that need to be overcome. First, the torso deformations caused by breathing/heartbeats are weak. How can such deformations be effectively captured? Second, movements such as turning over affect the accuracy of vital sign monitoring. How can such detrimental effects be avoided? For the former, we propose a non-line-of-sight (NLOS) sensing model for modeling the relationship between the energy ratio of line-of-sight (LOS) to NLOS signals and the vital sign monitoring capability using Ricean K theory and use this model to guide the system construction to better capture the deformations caused by breathing/heartbeats. For the latter, we propose a motion segmentation method based on motion regularity detection that accurately distinguishes respiration from other motions, and we remove periods that include movements such as turning over to eliminate detrimental effects. We have implemented and validated Wital on low-cost COTS devices. The experimental results demonstrate the effectiveness of Wital in monitoring vital signs., Comment: Accepted by IEEE THMS

Published
2023
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5. Resource Allocation for Cell-Free Massive MIMO-aided URLLC Systems Relying on Pilot Sharing

Author

Peng, Qihao, Ren, Hong, Dong, Mianxiong, Elkashlan, Maged, Wong, Kai-Kit, and Hanzo, Lajos

Subjects
Electrical Engineering and Systems Science - Signal Processing
Abstract

Resource allocation is conceived for cell-free (CF) massive multi-input multi-output (MIMO)-aided ultra-reliable and low latency communication (URLLC) systems. Specifically, to support multiple devices with limited pilot overhead, pilot reuse among the users is considered, where we formulate a joint pilot length and pilot allocation strategy for maximizing the number of devices admitted. Then, the pilot power and transmit power are jointly optimized while simultaneously satisfying the devices' decoding error probability, latency, and data rate requirements. Firstly, we derive the lower bounds (LBs) of ergodic data rate under finite channel blocklength (FCBL). Then, we propose a novel pilot assignment algorithm for maximizing the number of devices admitted. Based on the pilot allocation pattern advocated, the weighted sum rate (WSR) is maximized by jointly optimizing the pilot power and payload power. To tackle the resultant NP-hard problem, the original optimization problem is first simplified by sophisticated mathematical transformations, and then approximations are found for transforming the original problems into a series of subproblems in geometric programming (GP) forms that can be readily solved. Simulation results demonstrate that the proposed pilot allocation strategy is capable of significantly increasing the number of admitted devices and the proposed power allocation achieves substantial WSR performance gain., Comment: Accepted by IEEE JASC-xURLLC6G-23 special issue

Published
2023

6. Active RIS Aided ISAC Systems: Beamforming Design and Performance Analysis

Author

Yu, Zhiyuan, Ren, Hong, Pan, Cunhua, Zhou, Gui, Wang, Boshi, Dong, Mianxiong, and Wang, Jiangzhou

Subjects
Computer Science - Information Theory, Electrical Engineering and Systems Science - Signal Processing
Abstract

This paper considers an active reconfigurable intelligent surface (RIS)-aided integrated sensing and communication (ISAC) system. We aim to maximize radar signal-to-interference-plus-noise-ratio (SINR) by jointly optimizing the beamforming matrix at the dual-function radar-communication (DFRC) base station (BS) and the reflecting coefficients at the active RIS subject to the quality of service (QoS) constraints of communication users (UE) and the transmit power constraints of active RIS and DFRC BS. To tackle the optimization problem, the majorization-minimization (MM) algorithm is applied to address the nonconvex radar SINR objective function, and the resulting quartic problem is solved by developing an semidefinite relaxation (SDR)-based approach. Moreover, we derive the scaling order of the radar SINR with a large number of reflecting elements. Next, the transmit power allocation problem and the deployment strategy of the active RIS are studied with a moderate number of reflecting elements. Finally, we validate the potential of the active RIS in ISAC systems compared to passive RIS. Additionally, we deliberate on several open problems that remain for future research., Comment: 17 pages,11 figures, accepted by IEEE TCOM.The manuscript has been revised to correct several typographical errors

Published
2023

7. Channel Estimation for RIS-aided mmWave Massive MIMO System Using Few-bit ADCs

Author

Wang, Ruizhe, Ren, Hong, Pan, Cunhua, Fang, Jun, Dong, Mianxiong, and Dobre, Octavia A.

Subjects
Computer Science - Information Theory, Electrical Engineering and Systems Science - Signal Processing
Abstract

Millimeter wave (mmWave) massive multiple-input multiple-output (massive MIMO) is one of the most promising technologies for the fifth generation and beyond wireless communication system. However, a large number of antennas incur high power consumption and hardware costs, and high-frequency communications place a heavy burden on the analog-to-digital converters (ADCs) at the base station (BS). Furthermore, it is too costly to equipping each antenna with a high-precision ADC in a large antenna array system. It is promising to adopt low-resolution ADCs to address this problem. In this paper, we investigate the cascaded channel estimation for a mmWave massive MIMO system aided by a reconfigurable intelligent surface (RIS) with the BS equipped with few-bit ADCs. Due to the low-rank property of the cascaded channel, the estimation of the cascaded channel can be formulated as a low-rank matrix completion problem. We introduce a Bayesian optimal estimation framework for estimating the user-RIS-BS cascaded channel to tackle with the information loss caused by quantization. To implement the estimator and achieve the matrix completion, we use efficient bilinear generalized approximate message passing (BiG-AMP) algorithm. Extensive simulation results verify that our proposed method can accurately estimate the cascaded channel for the RIS-aided mmWave massive MIMO system with low-resolution ADCs.

Published
2023

8. Device-Bind Key-Storageless Hardware AI Model IP Protection: A PUF and Permute-Diffusion Encryption-Enabled Approach

Author

Pan, Qianqian, Dong, Mianxiong, Ota, Kaoru, and Wu, Jun

Subjects
Computer Science - Cryptography and Security, 68M25
Abstract

Machine learning as a service (MLaaS) framework provides intelligent services or well-trained artificial intelligence (AI) models for local devices. However, in the process of model transmission and deployment, there are security issues, i.e. AI model leakage due to the unreliable transmission environments and illegal abuse at local devices without permission. Although existing works study the intellectual property (IP) protection of AI models, they mainly focus on the watermark-based and encryption-based methods and have the following problems: (i) The watermark-based methods only provide passive verification afterward rather than active protection. (ii) Encryption-based methods are low efficiency in computation and low security in key storage. (iii) The existing methods are not device-bind without the ability to avoid illegal abuse of AI models. To deal with these problems, we propose a device-bind and key-storageless hardware AI model IP protection mechanism. First, a physical unclonable function (PUF) and permute-diffusion encryption-based AI model protection framework is proposed, including the PUF-based secret key generation and the geometric-value transformation-based weights encryption. Second, we design a PUF-based key generation protocol, where delay-based Anderson PUF is adopted to generate the derive-bind secret key. Besides, convolutional coding and convolutional interleaving technologies are combined to improve the stability of PUF-based key generation and reconstruction. Third, a permute and diffusion-based intelligent model weights encryption/decryption method is proposed to achieve effective IP protection, where chaos theory is utilized to convert the PUF-based secret key to encryption/decryption keys. Finally, experimental evaluation demonstrates the effectiveness of the proposed intelligent model IP protection mechanism., Comment: 12 pages, 9 figures, 4 tables

Published
2022

9. Distributed Task Offloading for IoAV Using DDP-DQN

Author

Peng, Xiting, Li, Wenjie, Zhang, Xiaoyu, Dong, Mianxiong, Ota, Kaoru, Song, Shun, 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, Tari, Zahir, editor, Li, Keqiu, editor, and Wu, Hongyi, editor

Published
2024
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10. UAV Base Station Trajectory Optimization Based on Reinforcement Learning in Post-disaster Search and Rescue Operations

Author

Zhao, Shiye, Ota, Kaoru, and Dong, Mianxiong

Subjects
Computer Science - Machine Learning
Abstract

Because of disaster, terrestrial base stations (TBS) would be partly crashed. Some user equipments (UE) would be unserved. Deploying unmanned aerial vehicles (UAV) as aerial base stations is a method to cover UEs quickly. But existing methods solely refer to the coverage of UAVs. In those scenarios, they focus on the deployment of UAVs in the post-disaster area where all TBSs do not work any longer. There is limited research about the combination of available TBSs and UAVs. We propose the method to deploy UAVs cooperating with available TBSs as aerial base stations. And improve the coverage by reinforcement learning. Besides, in the experiments, we cluster UEs with balanced iterative reducing and clustering using hierarchies (BIRCH) at first. Finally, achieve base stations' better coverage to UEs through Q-learning.

Published
2022

11. Deep Reinforcement Learning Based Multi-Access Edge Computing Schedule for Internet of Vehicle

Author

Dai, Xiaoyu, Ota, Kaoru, and Dong, Mianxiong

Subjects
Computer Science - Machine Learning, Computer Science - Artificial Intelligence
Abstract

As intelligent transportation systems been implemented broadly and unmanned arial vehicles (UAVs) can assist terrestrial base stations acting as multi-access edge computing (MEC) to provide a better wireless network communication for Internet of Vehicles (IoVs), we propose a UAVs-assisted approach to help provide a better wireless network service retaining the maximum Quality of Experience(QoE) of the IoVs on the lane. In the paper, we present a Multi-Agent Graph Convolutional Deep Reinforcement Learning (M-AGCDRL) algorithm which combines local observations of each agent with a low-resolution global map as input to learn a policy for each agent. The agents can share their information with others in graph attention networks, resulting in an effective joint policy. Simulation results show that the M-AGCDRL method enables a better QoE of IoTs and achieves good performance., Comment: 10 pages, 10 figures

Published
2022

14. An Online Orchestration Mechanism for General-Purpose Edge Computing

Author

Shao, Xun, Hasegawa, Go, Dong, Mianxiong, Liu, Zhi, Masui, Hiroshi, and Ji, Yusheng

Subjects
Computer Science - Networking and Internet Architecture
Abstract

In recent years, the fast development of mobile communications and cloud systems has substantially promoted edge computing. By pushing server resources to the edge, mobile service providers can deliver their content and services with enhanced performance, and mobile-network carriers can alleviate congestion in the core networks. Although edge computing has been attracting much interest, most current research is application-specific, and analysis is lacking from a business perspective of edge cloud providers (ECPs) that provide general-purpose edge cloud services to mobile service providers and users. In this article, we present a vision of general-purpose edge computing realized by multiple interconnected edge clouds, analyzing the business model from the viewpoint of ECPs and identifying the main issues to address to maximize benefits for ECPs. Specifically, we formalize the long-term revenue of ECPs as a function of server-resource allocation and public data-placement decisions subject to the amount of physical resources and inter-cloud data-transportation cost constraints. To optimize the long-term objective, we propose an online framework that integrates the drift-plus-penalty and primal-dual methods. With theoretical analysis and simulations, we show that the proposed method approximates the optimal solution in a challenging environment without having future knowledge of the system.

Published
2021

15. Clairvoyance: Intelligent Route Planning for Electric Buses Based on Urban Big Data

Author

Lu, Xiangyong, Ota, Kaoru, Dong, Mianxiong, Yu, Chen, and Jin, Hai

Subjects
Computer Science - Machine Learning
Abstract

Nowadays many cities around the world have introduced electric buses to optimize urban traffic and reduce local carbon emissions. In order to cut carbon emissions and maximize the utility of electric buses, it is important to choose suitable routes for them. Traditionally, route selection is on the basis of dedicated surveys, which are costly in time and labor. In this paper, we mainly focus attention on planning electric bus routes intelligently, depending on the unique needs of each region throughout the city. We propose Clairvoyance, a route planning system that leverages a deep neural network and a multilayer perceptron to predict the future people's trips and the future transportation carbon emission in the whole city, respectively. Given the future information of people's trips and transportation carbon emission, we utilize a greedy mechanism to recommend bus routes for electric buses that will depart in an ideal state. Furthermore, representative features of the two neural networks are extracted from the heterogeneous urban datasets. We evaluate our approach through extensive experiments on real-world data sources in Zhuhai, China. The results show that our designed neural network-based algorithms are consistently superior to the typical baselines. Additionally, the recommended routes for electric buses are helpful in reducing the peak value of carbon emissions and making full use of electric buses in the city., Comment: 13 pages,12 figures

Published
2021

18. A Deep Transfer Learning-based Edge Computing Method for Home Health Monitoring

Author

Sufian, Abu, You, Changsheng, and Dong, Mianxiong

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Human-Computer Interaction, Electrical Engineering and Systems Science - Signal Processing
Abstract

The health-care gets huge stress in a pandemic or epidemic situation. Some diseases such as COVID-19 that causes a pandemic is highly spreadable from an infected person to others. Therefore, providing health services at home for non-critical infected patients with isolation shall assist to mitigate this kind of stress. In addition, this practice is also very useful for monitoring the health-related activities of elders who live at home. The home health monitoring, a continuous monitoring of a patient or elder at home using visual sensors is one such non-intrusive sub-area of health services at home. In this article, we propose a transfer learning-based edge computing method for home health monitoring. Specifically, a pre-trained convolutional neural network-based model can leverage edge devices with a small amount of ground-labeled data and fine-tuning method to train the model. Therefore, on-site computing of visual data captured by RGB, depth, or thermal sensor could be possible in an affordable way. As a result, raw data captured by these types of sensors is not required to be sent outside from home. Therefore, privacy, security, and bandwidth scarcity shall not be issues. Moreover, real-time computing for the above-mentioned purposes shall be possible in an economical way., Comment: 6 pages, 4 figures. Pre-print copy

Published
2021
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29. Qualitative Action Recognition by Wireless Radio Signals in Human-Machine Systems

Author

Lv, Shaohe, Lu, Yong, Dong, Mianxiong, Wang, Xiaodong, Dou, Yong, and Zhuang, Weihua

Subjects
Computer Science - Human-Computer Interaction
Abstract

Human-machine systems required a deep understanding of human behaviors. Most existing research on action recognition has focused on discriminating between different actions, however, the quality of executing an action has received little attention thus far. In this paper, we study the quality assessment of driving behaviors and present WiQ, a system to assess the quality of actions based on radio signals. This system includes three key components, a deep neural network based learning engine to extract the quality information from the changes of signal strength, a gradient based method to detect the signal boundary for an individual action, and an activitybased fusion policy to improve the recognition performance in a noisy environment. By using the quality information, WiQ can differentiate a triple body status with an accuracy of 97%, while for identification among 15 drivers, the average accuracy is 88%. Our results show that, via dedicated analysis of radio signals, a fine-grained action characterization can be achieved, which can facilitate a large variety of applications, such as smart driving assistants., Comment: 12 pages, 18 figures

Published
2017

36. Optimizing Resource Allocation and Request Routing for AI-Generated Content (AIGC) Services in Mobile Edge Networks With Cell Coupling

Author

Deng, Tao, Chen, Dongyu, Jia, Juncheng, Dong, Mianxiong, Ota, Kaoru, Yu, Zhanwei, and Yuan, Di

Abstract

In this paper, we investigate the deployment and service of pre-trained foundation models (PFMs) in mobile edge networks with cell coupling. We formulate a joint resource allocation and request routing optimization problem (RARP) to achieve a trade-off between the accuracy loss and cost of artificial intelligence-generated content (AIGC). For problem solving, we propose an alternating optimization algorithm (AOA) that decomposes RARP into two sub-problems and iteratively optimizes them. Specifically, for the first sub-problem, we reformulate it as a linear programming problem and use the off-the-shelf optimization solver to solve it. For the other sub-problem, we propose a deep reinforcement learning based algorithm to optimize the deployment to PFMs. Performance evaluations validate the efficiency of AOA.

Published
2024
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37. Efficient Online Resource Management in MEC: A Chance-Constrained Approach for Handling Uncertain Demands

Author

Wang, Kailin, Shao, Xun, Zhang, Heli, Ota, Kaoru, Li, Xi, and Dong, Mianxiong

Abstract

With the proliferation of resource-hungry applications, a common paradigm to quickly respond to the ever-increasing demands of tasks is mobile edge computing (MEC), which deploys resources on the premise of grasping task information (including time and quantity of task release, etc). Actually, task generation is dynamic in many practical scenarios, and it is unrealistic for MEC servers to acquire a task's demand for computing resources beforehand until task execution is completed. It is also challenging to ensure all tasks can be processed before their deadlines. In this paper, we characterize task generation as a dynamic process, implying that MEC servers only obtain the task information in the current time slot. Also, we assume the task's demand for computing resources is uncertain with only knowledge of its mean and variance. To eliminate this uncertainty, we leverage the chance-constrained program (CCP) method, which also offers a probabilistic guarantee to the task deadline. Moreover, we formulate a long-term time-averaged task processing power minimization problem, which is transformed into a series of per-slot deterministic optimization problems utilizing the Lyapunov algorithm. Given that the transformed problem is a mixed-integer non-linear programming (MINLP) problem, a joint optimization algorithm considering UE access, power control, and resource allocation (JUPR) is proposed to decouple the MINLP problem into three sub-problems. Finally, simulation results demonstrate the JUPR algorithm can consume 22% less power per task than the average resource allocation algorithm and 12% less power per task than the random resource allocation algorithm.

Published
2024
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38. Multi-RIS Deployment Location Optimization for Coverage Enhancement in Outdoor Wireless Communication Networks

Author

Ma, Yuyin, Ota, Kaoru, and Dong, Mianxiong

Abstract

As one innovative paradigm, reconfigurable intelligent surface (RIS) has been applied to enhance coverage in wireless communication networks by providing a virtual connection between the transmitter and the receiver in scenarios where line-of-sight (LoS) is obstructed. In this work, the issue of optimizing multi-RIS deployment locations is considered to enhance coverage while reducing network costs. We first develop a method based on approximate cell decomposition to quantitatively calculate the coverage probability in RIS-assisted outdoor wireless communication networks. Then we propose a RIS location optimization strategy, Rule-based and Brand-and-Bound-based (B&B), called R&B algorithm to strike a balance between coverage probability and network cost. The Rule-based algorithm is applied to obtain feasible solutions, and the B&B algorithm is proposed to optimize the RISs deployment locations to enhance coverage probability while satisfying network cost constraints. Numerical results show that the proposed method outperforms the other baseline schemes to trade off coverage probability and network cost in a multi-obstacle wireless communication environment with sufficient RIS.

Published
2024
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39. MoEI: Mobility-Aware Edge Inference Based on Model Partition and Service Migration

Author

Liu, Zhicheng, Tian, Meng, Dong, Mianxiong, Wang, Xiaofei, Qiu, Chao, and Zhang, Cheng

Abstract

Deep neural networks are the cornerstone of many mobile intelligent systems, and their inference processes bring about computation-intensive tasks. Device-edge cooperative inference in mobile edge computing provides a fine-grained processing method to migrate the burden of inference computation. However, the geographical dispersion of resources and the mobility pattern of devices pose scheduling issues to be considered. In this paper, we propose a task scheduling framework for such device-edge systems to improve the pipeline time of model inference. First, we consider the resource provisioning strategy with a pre-fetching service migration setting in the environment of multiple mobile devices and edge nodes. Then, we leverage game theory to analyze the property of the decision-making process and propose an offline algorithm under complete information. Next, we propose an algorithm based on proximal policy optimization to enable mobile devices to make decisions in a distributed online manner. Further, we adopt a memory mechanism into the online algorithm to improve the decision-makers’ understanding of the system environment. Experiments demonstrate the effectiveness of the two algorithms. The average pipeline time of the proposed online algorithm is only 61.44% of that of local processing, which is 1.196 times that of the proposed offline algorithm.

Published
2024
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40. Joint Association, Trajectory, Offloading, and Resource Optimization in Air and Ground Cooperative MEC Systems

Author

Wang, Chen, Zhai, Daosen, Zhang, Ruonan, Cai, Lin, Liu, Lei, and Dong, Mianxiong

Abstract

The air and ground cooperative mobile edge computing (MEC) network provides a new paradigm for the development of the Internet of Things (IoT), which enhances the coverage of the terrestrial base station (TBS) and deploys computing resources near IoT devices. In this paper, we construct a UAV-assisted MEC system for IoT networks and design a data processing procedure. The UAV collects data from devices as a relay and makes decisions to offload some tasks to the central server connected with the TBS, while the onboard edge server in the UAV can perform local computing. Furthermore, we jointly optimize the device association, UAV's trajectories, task offloading, and resource allocation to reduce the energy consumption of the entire system. To solve this problem, we decompose it into three tractable sub-problems and use the block coordinate descent (BCD) method to iteratively optimize each set of control variables. Among them, device association is formulated as a linear programming problem, while UAV's trajectory optimization is transformed into a convex problem by introducing slack variables and using successive convex approximation (SCA). The offloading and resource assignment problem is proved to be convex via theoretical analysis and problem transformation. In addition, we derive the optimal relationship between computation duration and computing energy, which greatly reduces the complexity of problems. Simulation results show that the designed system and the algorithms can significantly reduce the total energy consumption, and the offloading strategies have a decisive impact on computation energy consumption.

Published
2024
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41. Privacy-Preserving for Blockchain-Enabled Cold-Chain Logistics System With IoV and Linkable Ring Signature

Author

Zhang, Yang, Tang, Yu, Li, Chaoyang, Dong, Mianxiong, Huang, Min, Zhang, Hua, and Ota, Kaoru

Abstract

As the demand for frozen and fresh products grows, the security and traceability of cold-chain logistics data have received a lot of attention in recent years. Cold-chain logistics (CCL) systems play an important role in data collecting and sharing, but the traditional centralized CCL systems are vulnerable to threats of data loss, tempering, and privacy disclosure. Aiming at these problems, this paper utilizes blockchain to establish a blockchain-based CCL (BCCL) system to achieve logistics data distributed management and sharing. It also applies the Internet of Vehicles (IoV) to construct an IoV-powered BCCL system to realize real-time collection and transmission of logistics data. By the distributed ledger, the cold-chain logistics data cannot be tampered with as the cost of tampering with the transaction is incalculable. Then, to protect privacy security, a linkable ring verification model has been introduced, and a linkable ring signature (LRS) scheme has been proposed to guarantee the verifiability and traceability of transactions in the IoV-powered BCCL system. This LRS can enable the traceability of all transaction records for the same cold-chain product. Moreover, the security proof shows that this LRS can capture the anonymity, unforgeability, and linkability. The comparisons of key size and time costs show that this LRS is also efficient. In addition, the transaction performance evaluations show that the linkable ring verification model can support secure and efficient data-sharing transactions through the IoV-powered BCCL system.

Published
2024
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44. Conditional selection with CNN augmented transformer for multimodal affective analysis.

Author

Wang, Jianwen, Wang, Shiping, Xiao, Shunxin, Lin, Renjie, Dong, Mianxiong, and Guo, Wenzhong

Subjects
TRANSFORMER models, AFFECT (Psychology), SIGNAL detection, MULTISENSOR data fusion
Abstract

Attention mechanism has been a successful method for multimodal affective analysis in recent years. Despite the advances, several significant challenges remain in fusing language and its nonverbal context information. One is to generate sparse attention coefficients associated with acoustic and visual modalities, which helps locate critical emotional semantics. The other is fusing complementary cross‐modal representation to construct optimal salient feature combinations of multiple modalities. A Conditional Transformer Fusion Network is proposed to handle these problems. Firstly, the authors equip the transformer module with CNN layers to enhance the detection of subtle signal patterns in nonverbal sequences. Secondly, sentiment words are utilised as context conditions to guide the computation of cross‐modal attention. As a result, the located nonverbal features are not only salient but also complementary to sentiment words directly. Experimental results show that the authors' method achieves state‐of‐the‐art performance on several multimodal affective analysis datasets. [ABSTRACT FROM AUTHOR]

Published
2024
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45. EPIDL: Towards efficient and privacy‐preserving inference in deep learning.

Author

Nie, Chenfei, Zhou, Zhipeng, Dong, Mianxiong, Ota, Kaoru, and Li, Qiang

Subjects
DEEP learning, MATRIX multiplications, DATA security failures
Abstract

Summary: Deep learning has shown its great potential in real‐world applications. However, users(clients) who want to use deep learning applications need to send their data to the deep learning service provider (server), which can make the client's data leak to the server, resulting in serious privacy concerns. To address this issue, we propose a protocol named EPIDL to perform efficient and secure inference tasks on neural networks. This protocol enables the client and server to complete inference tasks by performing secure multi‐party computation (MPC) and the client's private data is kept secret from the server. The work in EPIDL can be summarized as follows: First, we optimized the convolution operation and matrix multiplication, such that the total communication can be reduced; Second, we proposed a new method for truncation following secure multiplication based on oblivious transfer and garbled circuits, which will not fail and can be executed together with the ReLU activation function; Finally, we replace complex activation function with MPC‐friendly approximation function. We implement our work in C++ and accelerate the local matrix computation with CUDA support. We evaluate the efficiency of EPIDL in privacy‐preserving deep learning inference tasks, such as the time to execute a secure inference on the MNIST dataset in the LeNet model is about 0.14 s. Compared with the state‐ofthe‐art work, our work is 1.8×$$ \times $$–98×$$ \times $$ faster over LAN and WAN, respectively. The experimental results show that our EPIDL is efficient and privacy‐preserving. [ABSTRACT FROM AUTHOR]

Published
2024
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46. Edge Computing Based Traffic Analysis System Using Broad Learning

Author

Peng, Xiting, Ota, Kaoru, Dong, Mianxiong, Akan, Ozgur, Editorial Board Member, Bellavista, Paolo, Editorial Board Member, Cao, Jiannong, Editorial Board Member, Coulson, Geoffrey, Editorial Board Member, Dressler, Falko, Editorial Board Member, Ferrari, Domenico, Editorial Board Member, Gerla, Mario, Editorial Board Member, Kobayashi, Hisashi, Editorial Board Member, Palazzo, Sergio, Editorial Board Member, Sahni, Sartaj, Editorial Board Member, Shen, Xuemin (Sherman), Editorial Board Member, Stan, Mircea, Editorial Board Member, Xiaohua, Jia, Editorial Board Member, Zomaya, Albert Y., Editorial Board Member, Han, Shuai, editor, Ye, Liang, editor, and Meng, Weixiao, editor

Published
2019
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