Your search keyword '"Cloud-edge Computing"' showing total 5 results

1. Staining-Independent Malaria Parasite Detection and Life Stage Classification in Blood Smear Images.

Author

Xu, Tong, Theera-Umpon, Nipon, and Auephanwiriyakul, Sansanee

Subjects

CONVOLUTIONAL neural networks, PLASMODIUM, PLASMODIUM vivax, DEEP learning, MALARIA, ACQUISITION of data

Abstract

Malaria is a leading cause of morbidity and mortality in tropical and sub-tropical regions. This research proposed a malaria diagnosis system based on the you only look once algorithm for malaria parasite detection and the convolutional neural network algorithm for malaria parasite life stage classification. Two public datasets are utilized: MBB and MP-IDB. The MBB dataset includes human blood smears infected with Plasmodium vivax (P. vivax). While the MP-IDB dataset comprises 4 species of malaria parasites: P. vivax, P. ovale, P. malariae, and P. falciparum. Four distinct stages of life exist in every species, including ring, trophozoite, schizont, and gametocyte. For the MBB dataset, detection and classification accuracies of 0.92 and 0.93, respectively, were achieved. For the MP-IDB dataset, the proposed algorithms yielded the accuracies for detection and classification as follows: 0.84 and 0.94 for P. vivax; 0.82 and 0.93 for P. ovale; 0.79 and 0.93 for P. malariae; and 0.92 and 0.96 for P. falciparum. The detection results showed the models trained by P. vivax alone provide good detection capabilities also for other species of malaria parasites. The classification performance showed the proposed algorithms yielded good malaria parasite life stage classification performance. The future directions include collecting more data and exploring more sophisticated algorithms. [ABSTRACT FROM AUTHOR]

Published

2024

2. Construction of an Online Cloud Platform for Zhuang Speech Recognition and Translation with Edge-Computing-Based Deep Learning Algorithm.

Author

Fan, Zeping, Huang, Min, Zhang, Xuejun, Liu, Rongqi, Lyu, Xinyi, Duan, Taisen, Bu, Zhaohui, and Liang, Jianghua

Subjects

MACHINE learning, SPEECH perception, MACHINE translating, NATURAL language processing, DEEP learning, DATABASES, AUTOMATIC speech recognition

Abstract

The Zhuang ethnic minority in China possesses its own ethnic language and no ethnic script. Cultural exchange and transmission encounter hurdles as the Zhuang rely exclusively on oral communication. An online cloud-based platform was required to enhance linguistic communication. First, a database of 200 h of annotated Zhuang speech was created by collecting standard Zhuang speeches and improving database quality by removing transcription inconsistencies and text normalization. Second, SAformerNet, a more efficient and accurate transformer-based automatic speech recognition (ASR) network, is achieved by inserting additional downsampling modules. Subsequently, a Neural Machine Translation (NMT) model for translating Zhuang into other languages is constructed by fine-tuning the BART model and corpus filtering strategy. Finally, for the network's responsiveness to real-world needs, edge-computing techniques are applied to relieve network bandwidth pressure. An edge-computing private cloud system based on FPGA acceleration is proposed to improve model operation efficiency. Experiments show that the most critical metric of the system, model accuracy, is above 93%, and inference time is reduced by 29%. The computational delay for multi-head self-attention (MHSA) and feed-forward network (FFN) modules has been reduced by 7.1 and 1.9 times, respectively, and terminal response time is accelerated by 20% on average. Generally, the scheme provides a prototype tool for small-scale Zhuang remote natural language tasks in mountainous areas. [ABSTRACT FROM AUTHOR]

Published

2023

3. Deep Learning-Based Log Parsing for Monitoring Industrial ICT Systems.

Author

Yang, Yuqian, Wang, Bo, and Zhao, Cong

Subjects

INDUSTRIALISM, DEEP learning, PARSING (Computer grammar), MAINTENANCE costs

Abstract

For rapidly developing smart manufacturing, Industrial ICT Systems (IICTSs) have become critical to safe and reliable production, and effective monitoring of complex IICTSs in practice is necessary but challenging. Since such monitoring data are organized generally as semi-structural logs, log parsing, the fundamental premise of advanced log analysis, has to be comprehensively addressed. Because of unrealistic assumptions, high maintenance costs, and the incapability of distinguishing homologous logs, existing log parsing methods cannot simultaneously fulfill the requirements of complex IICTSs simultaneously. Focusing on these issues, we present LogParser, a deep learning-based framework for both online and offline parsing of IICTS logs. For performance evaluation, we conduct extensive experiments based on monitoring log sets from 18 different real-world systems. The results demonstrate that LogParser achieves at least a 14.5% higher parsing accuracy than the state-of-the-art methods. [ABSTRACT FROM AUTHOR]

Published

2023

4. Multi-Microgrid Energy Management Strategy Based on Multi-Agent Deep Reinforcement Learning with Prioritized Experience Replay.

Author

Guo, Guodong and Gong, Yanfeng

Subjects

REINFORCEMENT learning, DEEP learning, MACHINE learning, ENERGY management, MARKOV processes, CARBON emissions, DECISION making

Abstract

The multi-microgrid (MMG) system has attracted more and more attention due to its low carbon emissions and flexibility. This paper proposes a multi-agent reinforcement learning algorithm for real-time energy management of an MMG. In this problem, the MMG is connected to a distribution network (DN). The distribution network operator (DSO) and each microgrid (MG) are modeled as autonomous agents. Each agent makes decisions to suit its interests based on local information. The decision-making problem of multiple agents is modeled as a Markov game and solved by the prioritized multi-agent deep deterministic policy gradient (PMADDPG), where only local observation is required for each agent to make decisions, the centralized training mechanism is applied to learn coordination strategy, and a prioritized experience replay (PER) strategy is adopted to improve learning efficiency. The proposed method can deal with the non-stationary problems in the process of a multi-agent game with partial observable information. In the execution stage, all trained agents are deployed in a distributed manner and make decisions in real time. Simulation results show that according to the proposed method, the training process of a multi-agent game is accelerated, and multiple agents can make optimal decisions only by local information. [ABSTRACT FROM AUTHOR]

Published

2023

5. Accelerated Inference of Face Detection under Edge-Cloud Collaboration.

Author

Zhang, Weiwei, Zhou, Hongbo, Mo, Jian, Zhen, Chenghui, and Ji, Ming

Subjects

DEEP learning

Abstract

Model compression makes it possible to deploy face detection models on devices with limited computing resources. Edge–cloud collaborative inference, as a new paradigm of neural network inference, can significantly reduce neural network inference latency. Inspired by these two techniques, this paper adopts a two-step acceleration strategy for the CenterNet model. Firstly, the model pruning method is used to prune the convolutional layer and the deconvolutional layer to obtain a preliminary acceleration effect. Secondly, the neural network is segmented by the optimizer to make full use of the computing resources on the edge and the cloud to further accelerate the inference of the neural network. In the first strategy, we achieve a 62.12% reduction in inference latency compared to the state-of-the-art object detection model Blazeface. Additionally, with a two-step speedup strategy, our method is only 26.5% of the baseline when the bandwidth is 500 kbps. [ABSTRACT FROM AUTHOR]

Published

2022