To reduce the computing delay of the terminals and improve the poor wireless channel environment, in this paper, a computing resource allocation algorithm for IRS-assisted edge computing is proposed. By introducing th...
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Loss sensitivity in electricity systems refers to the responsiveness of power losses in electrical transmission and distribution networks to various influencing factors. This concept is critical for optimizing the eff...
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ISBN:
(纸本)9798350377477;9798350377460
Loss sensitivity in electricity systems refers to the responsiveness of power losses in electrical transmission and distribution networks to various influencing factors. This concept is critical for optimizing the efficiency and reliability of power delivery from generation sources to end consumers. Especially in the electricity market trading process, network losses, although only a small part of the total cost, have a significant impact on each specific transaction and grid user. Therefore, in-depth understanding and analysis of the impact of generation transactions on the grid network loss can provide a basis for the power purchase plan for the grid to provide reference for the grid network loss management, which is of great significance. The current mainstream calculation and analysis method for network loss sensitivity is the marginal loss coefficient method, which determines the network loss share of each bus by analyzing the impact of bus injected power on the total network loss changes, but the nature of its serial calculation cannot properly solve the balance between real-time analysis of network loss optimization and accuracy, and with the increase in system size, this problem has gradually become a major obstacle to the realization of real-time analysis. This paper presents a novel parallel computing method based on graph computing for determining the sensitivity of system network loss and node-injected power. Graph computing is a parallel computing method that stores, computes, and analyzes the information in a system by constructing a topological graph model and based on it. The method alleviates the computational burden associated with calculating network loss sensitivity as the scale of the power system expands by leveraging the parallel computing capabilities of graph databases. Furthermore, it facilitates the graphical calculation and analysis of network loss sensitivity through the utilization of graph storage.
In recent years, the development of technology has led to an explosion of multi-platform heterogeneous data, and multi-dimensional time series prediction can bring rich benefits to enterprises. Traditional time series...
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Artificial Intelligence-Generated Content (AIGC) is a rapidly evolving field that utilizes advanced AI algorithms to generate content. Through integration with mobile edge networks, mobile AIGC networks have gained si...
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ISBN:
(纸本)9798350361261;9798350361278
Artificial Intelligence-Generated Content (AIGC) is a rapidly evolving field that utilizes advanced AI algorithms to generate content. Through integration with mobile edge networks, mobile AIGC networks have gained significant attention, which can provide real-time customized and personalized AIGC services and products. Since blockchains can facilitate decentralized and transparent data management, AIGC products can be securely managed by blockchain to avoid tampering and plagiarization. However, the evolution of blockchain-empowered mobile AIGC is still in its nascent phase, grappling with challenges such as improving information propagation efficiency to enable blockchain-empowered mobile AIGC. In this paper, we design a Graph Attention Network (GAT)-based information propagation optimization framework for blockchain-empowered mobile AIGC. We first innovatively apply age of information as a data-freshness metric to measure information propagation efficiency in public blockchains. Considering that GATs possess the excellent ability to process graph-structured data, we utilize the GAT to obtain the optimal information propagation trajectory. Numerical results demonstrate that the proposed scheme exhibits the most outstanding information propagation efficiency compared with traditional routing mechanisms.
This paper surveys recent research on federated learning-based resource allocation for next-generation networks in order to identify research gaps and potential future directions. We start by outlining the main challe...
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Combining solar photovoltaic panels with preexisting buildings may be a workable way to reduce carbon emissions and address the present energy issue. The purpose of this project is to create an energy-harvesting syste...
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ISBN:
(纸本)9798350381566;9798350381559
Combining solar photovoltaic panels with preexisting buildings may be a workable way to reduce carbon emissions and address the present energy issue. The purpose of this project is to create an energy-harvesting system that can assist nations like Bangladesh in meeting their energy needs while lowering their carbon footprint and forgoing the need for extra resources. This will be accomplished by utilizing three software tools (PVSOL, PVsyst, and SAM) that are tailored for various installations. One of Bangladesh's longest bridges, the Bangabandhu Bridge, underwent computer-aided design, modeling, and simulation of a mono-facial solar panel-based energy model in a sustainable manner. To obtain a more comprehensive understanding of the system's effectiveness, a thorough energy analysis was conducted. Based on our findings, we conclude that there is a great deal of promise for this endeavor. The average energy yield, according to the statistics, is 2948512kWh year. In the event of an energy crisis, this dependable energy can be used to power the entire bridge and the national grid.
In today's world, connectivity and performance-driven technology are rapidly advancing each year, and new platforms and mechanisms are being utilized to enhance the security and performance of databases and cloud ...
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Medical data is highly sensitive, often leading to 'data silos' in sharing processes. To address this issue, this paper combines blockchain and federated metric learning technologies, and innovatively integrat...
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The world is becoming more and more dangerous, and information security is becoming more and more important. In order to protect information, we need to use various methods, such as encryption, authentication, authori...
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The Programmable Data Plane (PDP) is a paradigm of providing in-network computing for computing Power Networks (CPN). With PDP, multiple computing services (e.g., DNS) can be offloaded on edge-network-devices. These i...
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