scholarly journals Predicting Short-Term Electricity Demand by Combining the Advantages of ARMA and XGBoost in Fog Computing Environment

2018 ◽  
Vol 2018 ◽  
pp. 1-18 ◽  
Author(s):  
Chuanbin Li ◽  
Xiaosen Zheng ◽  
Zikun Yang ◽  
Li Kuang
Keyword(s):  
Clustering Algorithm ◽  
Rapid Development ◽  
Fog Computing ◽  
Electricity Consumption ◽  
Electricity Demand ◽  
Historical Records ◽  
Computing Environment ◽  
Classical Models ◽  
Cloud Framework ◽  
Computing Framework

With the rapid development of IoT, the disadvantages of Cloud framework have been exposed, such as high latency, network congestion, and low reliability. Therefore, the Fog Computing framework has emerged, with an extended Fog Layer between the Cloud and terminals. In order to address the real-time prediction on electricity demand, we propose an approach based on XGBoost and ARMA in Fog Computing environment. By taking the advantages of Fog Computing framework, we first propose a prototype-based clustering algorithm to divide enterprise users into several categories based on their total electricity consumption; we then propose a model selection approach by analyzing users’ historical records of electricity consumption and identifying the most important features. Generally speaking, if the historical records pass the test of stationarity and white noise, ARMA is used to model the user’s electricity consumption in time sequence; otherwise, if the historical records do not pass the test, and some discrete features are the most important, such as weather and whether it is weekend, XGBoost will be used. The experiment results show that our proposed approach by combining the advantage of ARMA and XGBoost is more accurate than the classical models.

A scheduling-based dynamic fog computing framework for augmenting resource utilization

2021 ◽  
Vol 111 ◽  
pp. 102336
Author(s):  
Md Razon Hossain ◽  
Md Whaiduzzaman ◽  
Alistair Barros ◽  
Shelia Rahman Tuly ◽  
Md. Julkar Nayeen Mahi ◽  
...  
Keyword(s):  
Resource Utilization ◽  
Fog Computing ◽  
Computing Framework

scholarly journals Cloud-based intelligent self-diagnosis and department recommendation service using Chinese medical BERT

2021 ◽  
Vol 10 (1) ◽  
Author(s):  
Junshu Wang ◽  
Guoming Zhang ◽  
Wei Wang ◽  
Ka Zhang ◽  
Yehua Sheng
Keyword(s):  
Cloud Computing ◽  
Large Scale ◽  
Medical Service ◽  
Rapid Development ◽  
Medical Knowledge ◽  
Language Models ◽  
Computing Environment ◽  
Computing Power ◽  
Cloud Computing Environment ◽  
Proposed Model

AbstractWith the rapid development of hospital informatization and Internet medical service in recent years, most hospitals have launched online hospital appointment registration systems to remove patient queues and improve the efficiency of medical services. However, most of the patients lack professional medical knowledge and have no idea of how to choose department when registering. To instruct the patients to seek medical care and register effectively, we proposed CIDRS, an intelligent self-diagnosis and department recommendation framework based on Chinese medical Bidirectional Encoder Representations from Transformers (BERT) in the cloud computing environment. We also established a Chinese BERT model (CHMBERT) trained on a large-scale Chinese medical text corpus. This model was used to optimize self-diagnosis and department recommendation tasks. To solve the limited computing power of terminals, we deployed the proposed framework in a cloud computing environment based on container and micro-service technologies. Real-world medical datasets from hospitals were used in the experiments, and results showed that the proposed model was superior to the traditional deep learning models and other pre-trained language models in terms of performance.

Security challenges in fog-computing environment: a systematic appraisal of current developments

2019 ◽  
Vol 5 (4) ◽  
pp. 209-233 ◽  
Author(s):  
Jimoh Yakubu ◽  
Shafi’i Muhammad Abdulhamid ◽  
Haruna Atabo Christopher ◽  
Haruna Chiroma ◽  
Mohammed Abdullahi
Keyword(s):  
Fog Computing ◽  
Computing Environment ◽  
Security Challenges ◽  
Systematic Appraisal

INTELLIGENT DISTRIBUTED DYNAMIC FOG COMPUTING FRAMEWORK

2021 ◽  
Author(s):  
А.Н. ВОЛКОВ
Keyword(s):  
Fog Computing ◽  
Computing System ◽  
Limited Resources ◽  
Swarm Optimization ◽  
Communications Networks ◽  
Software Migration ◽  
Distributed Structures ◽  
Computing Framework ◽  
Distributed Computing Infrastructure ◽  
New Framework

Одним из направлений развития сетей связи 5G и сетей связи 2030 является интегрирование в сеть распределенных вычислительных структур, таких как системы пограничных и туманных вычислений (Fog), которые призваны выполнить децентрализацию вычислительной части сетей. В связи с этим необходимо исследовать и определить принципы предоставления услуг на основе распределенной вычислительной инфраструктуры, в том числе в условиях ограниченности ресурсов отдельно взятых составных частей (Fog-устройства). Предлагается новый фреймворк распределенной динамической вычислительной системы туманных вычислений на основе микросервисного архитектурного подхода к реализации, развертыванию и миграции программного обеспечения предоставляемых услуг. Исследуется типовая архитектура микросервисного подхода и ее имплементация в туманные вычисления, а также рассматриваются два алгоритма: алгоритм K-средних для нахождения центра пользовательской нагрузки и алгоритм роевой оптимизации для определения устройства тумана с необходимыми характеристиками для последующей миграции микросервиса. One of the directions of 5G and 2030 communications networks development is the network-integrated distributed structures, such as edge computing (MEC) and Fog computing, which are designed to decentralize the computing part of networks. In this regard, it is necessary to investigate and determine the principles of providing services based on a distributed computing infrastructure, including in conditions of limited resources of individual components (Fog devices). This article proposes a new framework for a distributed dynamic computing system of fog computing based on a microservice architectural approach to the implementation, deployment, and software migration of the services. The article examines the typical architecture of the microservice approach and its implementation in fog computing, and also investigates two algorithms: K-means for finding the center of user load, swarm optimization (PSO) to determine the fog device with the necessary characteristics for the subsequent migration of the microservice.

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