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2020 international conference on Computer science and software engineering, CSASE 2020

ISBN: (纸本)9781728152493

The proceedings contain 56 papers. The topics discussed include: speed limit camera monitoring/tracking system using SaaS cloud computing module and GPS;optimal and near optimal solutions for multi objective function on a single machine;a genetic algorithm for solving an optimization problem: decision making in project management;pectoral muscles removal in mammogram image by hybrid bounding box and region growing algorithm;implementing a super decisions software (SDS) in a transport sector;tracking ball in soccer game video using extended kalman filter;fuzzy logic controller based shunt active power filter for current harmonic compensation;and optic disc segmentation in retinal fundus images using morphological techniques and intensity thresholding.

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Energy-Efficient Stochastic computing Architectures for Neural Network Performance in FPGA systems 6

Energy-Efficient Stochastic Computing Architectures for Neur...

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6th international conference on Mobile computing and Sustainable Informatics, ICMCSI 2025

作者： Dinesh Babu, A. Gomathy, C. Department of Electronics and Communication Engineering Faculty of Engineering and Technology SRM Institute of Science and Technology Vadapalani Campus Chennai India

ISBN: (纸本)9798331522667

This paper presents an energy-efficient stochastic computing (SC) architecture tailored for neural network applications on FPGA platforms. The proposed architecture integrates a Bayesian neural network (BNN) computation unit with a novel hybrid stochastic number generator (SNG) that combines Linear Feedback Shift Registers (LFSRs) and Halton sequences. This hybrid approach enhances the quality of generated bit-streams, significantly reducing correlation and improving the accuracy of SC-based computations. Stochastic computing allows complex arithmetic operations to be performed using simple logical gates, reducing hardware complexity and power consumption. Bayesian neural networks, due to their probabilistic framework, align well with the random nature of SC, allowing for resilient and efficient computations in resource-constrained environments. Experimental evaluations were conducted on an FPGA, measuring power consumption, computational accuracy, and resource utilization across varying bit-stream lengths. Results indicate that the proposed architecture achieves approximately 25% lower power consumption compared to conventional SC-based neural network implementations, with an improvement in mean squared error (MSE) accuracy. This energy efficiency and accuracy make the architecture particularly suitable for embedded systems, IoT devices, and other applications requiring low-power, high-performance neural network solutions. The proposed design offers a scalable solution for future neural network implementations in energy-constrained environments, contributing to advancements in sustainable hardware design. © 2025 IEEE.

关键词： Mean square error

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Shape Estimation of Travel Path Using Reservoir computing for Water-Driven Soft Robot 11

Shape Estimation of Travel Path Using Reservoir Computing fo...

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11th international conference on Mechatronics and Robotics engineering, ICMRE 2025

作者： Mieno, Junya Sumioka, Hidenobu Takuma, Takashi Osaka Institute of Technology Department of Electrical and Electric Systems Engineering Osaka Japan Atr Kyoto Japan

ISBN: (纸本)9798331509293

A soft robot has a significant advantage regarding its locomotion that it can change its shape passively based on its path shape variations. In this study, we adopt reservoir computing (RC), a kind of recurrent neural network, to classify five types of path shapes based on the inner pressure in the flexible chambers of the developed robot. By using small sets of the time-varying pressure waveform, we found that RC with an appropriate number of neurons could accurately classify the path shapes. © 2025 IEEE.

关键词： Industrial robots

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computing Power Detection Based on Smart Contract 3

Computing Power Detection Based on Smart Contract

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3rd international conference on Electrical, Electronics, and Information engineering, EEIE 2024

作者： Liu, Shaowei Liu, Xue Long, Chengnian School of Electronic Information and Electrical Engineering Shanghai Jiao Tong University Shanghai China Jiangsu Automation Research Institute Lianyungang China

ISBN: (纸本)9781510688179

As blockchain technology is widely applied across various fields, the performance requirements of blockchain systems, such as throughput and transaction latency, are increasing. In this context, blockchain systems have gradually evolved to adopt a two-phase consensus protocol that involves election and block generation. By electing a small number of nodes from a large-scale network to form a committee, a more efficient internal consensus protocol can be executed, thereby improving the overall performance of the blockchain system. This paper proposes a node performance detection method based on smart contracts, which sets performance thresholds for committee nodes without compromising the decentralization of public chains. This ensures high performance, low latency, and enhances the reliability of the consensus protocol. © The Authors.

关键词： Blockchain Consensus Election Performance Detection Smart Contract

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Analysis and design of pervasive computing intelligent surveillance system integrating optical sensors and behavioral analysis for industrial internet 2

Analysis and design of pervasive computing intelligent surve...

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2nd international conference on Big Data, Computational Intelligence, and Applications, BDCIA 2024

作者： Yao, Di Luo, Chenyao Cheng, Weiwei Song, Huaju Beijing100083 China Portland Institute Nanjing University of Posts and Telecommunications Nanjing210003 China School of Electronic and Optical Engineering Nanjing University of Science and Technology Nanjing210094 China School of Environmental Science NanJing XiaoZhuang University Nanjing210017 China

ISBN: (纸本)9781510689053

Nowadays, the surveillance system performing as an indispensable part for modern industrial Internet has attracted much attention. With the continuous progress of microprocessor technology, sensor technology, particularly optical sensors, and network technology, it has entered the era of pervasive computing, which leads to the breakthrough of the surveillance system and the emergence of intelligent environment safety monitoring systems. However, the intelligence of surveillance systems is still a significant challenge. In this paper, we propose a surveillance system for detecting and recognizing people based on their behaviors from images or video sequences using computer vision techniques and optical sensor data, which is implemented by designing the system architecture through a hierarchical structure, applying key techniques such as background subtraction, modeling, and optical sensing analysis, and experimentally processing and testing a variety of behavioral samples. The alarm information generated by the proposed surveillance system aided by pervasive computing system can be delivered to remote terminals. Experimental results reveal that the environmental monitoring and alarm information can be processed in real time with devices, such as cell phones, telephones, and PCs. Therefore, the proposed approach can improve the performance of the surveillance systems. © 2025 SPIE.

关键词： Alarm systems

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Assessing Energy Consumption for Hashing Techniques 4th

Assessing Energy Consumption for Hashing Techniques

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4th international conference on Electronic engineering and Renewable Energy systems, ICEERE 2024

作者： EL Outmani, Ayyoub Jaara, El Miloud Azizi, Mostafa Research Center High Studies of Engineering School EHEI Oujda Morocco LaRI Laboratory FSO University Mohammed First Oujda Morocco MATSI Lab. ESTO University Mohammed First Oujda Morocco

ISBN: (纸本)9789819606436

This study delves into the crucial issue of reducing energy consumption within green computing by examining the energy usage of well-known applications and comparing them based on their complexity. Utilizing PowerAPI, an advanced system-level library, we measure the energy consumption of these applications, with a particular focus on cryptographic hashing functions, notably the KECCAK function from SHA-3. Our preliminary findings clearly demonstrate how different algorithm implementations impact energy consumption. We introduce an innovative framework for energy monitoring, assessing popular applications and their energy usage while considering factors like CPU utilization. The aim is to identify energy inefficiencies in software. Our study not only investigates the energy aspects of hashing functions but also aims to promote the development of energy-efficient software for the future, aligning with the goals of green computing. © The Author(s), under exclusive license to Springer Nature Singapore Pte Ltd. 2025.

关键词： CPU utilization Cryptographic hashing functions Energy efficiency Energy monitoring Green computing KECCAK PowerAPI SHA-3

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A comprehensive survey on 6G-security: physical connection and service layers

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Discover Internet of Things 2025年第1期5卷 1-30页

作者： Saeed, Mamoon M. Saeed, Rashid A. Hasan, Mohammad Kamrul Ali, Elmustafa Sayed Mazha, Tehseen Shahzad, Tariq Khan, Sunawar Hamam, Habib Sana00967 Yemen Department of Computer Engineering College of Computers and Information Technology Taif University P.O. Box 11099 Taif21944 Saudi Arabia Department of Electronics Engineering College of Electronics Engineering Sudan University of Science and Technology Omdurman Sudan Bangi43600 Malaysia Department of Electrical and Electronic Engineering Faculty of Engineering Red Sea University Port Sudan33312 Sudan School of Computer Science National College of Business Administration and Economics Lahore54000 Pakistan Faculty of Engineering Uni de Moncton MonctonNBE1A3E9 Canada Department of Computer Engineering COMSATS University Islamabad Sahiwal Campus Sahiwal57000 Pakistan Department of Computer Science and Software Engineering International Islamic University Islamabad44000 Pakistan School of Electrical Engineering University of Johannesburg Johannesburg2006 South Africa BP 1989 Av. Grandes Ecoles Libreville Gabon Bridges for Academic Excellence-Spectrum Tunis Tunisia Department of Computer Science School Education Department Government of Punjab Layyah31200 Pakistan Chitkara University Institute of Engineering and Technology Chitkara University Punjab Rajpura140401 India

After adopting 5G technology, businesses and academia have started working on sixth-generation wireless networking (6G) technologies. Mobile communications options are expected to expand in areas where previous generations could not do so. 6G networks are anticipated to be constructed using various diverse technologies. These encompass diverse cutting-edge advancements, such as distributed ledger systems like blockchain, visible light communications (VLC), post-quantum cryptography, edge computing, molecular communication, THz, and other advances. These advances necessitate a reassessment of previous security strategies from a security perspective. In the future, networks must adhere to stricter criteria for authentication, encryption, access control, connectivity, and detection of harmful activities. Ensuring privacy and dependability necessitates the implementation of supplementary security protocols. The essay explores the primary concerns and challenges related to the security of the 6G network. This paper describes the improvements in security in communications from 1G through 6G. This paper divides security in the sixth generation into three layers: physical, connection, and service. Each layer-by-layer discusses the standard technologies and security issues for each technology proposed in each sixth-generation security layer. All proposed solutions for each of the three layers are discussed in Sixth Generation Security. It also reviews all proposed solutions for each layer, indicating the proposed solution and its limitations. © The Author(s) 2025.

关键词： 5G mobile communication systems

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Leadership Teaching in Agile software engineering: A Systematic Mapping 17

Leadership Teaching in Agile Software Engineering: A Systema...

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17th international conference on Computer Supported Education, CSEDU 2025

作者： Nascimento, Nicolas Sales, Afonso Chanin, Rafael PUCRS School of Technology RS Porto Alegre Brazil

ISBN: (纸本)9789897587467

The software industry is characterized by an environment of uncertainty, high volatility, and constant change. This context has shaped the industry, its components, and actors, generating methodologies capable of meeting both market expectations and software development requirements. Among these methodologies, agile has been the most widely adopted - it provides teams with an overarching set of practices to manage software development project requirements while maintaining flexibility to incorporate changes that the business environment presents. However, professionals equipped with the necessary skills to work in these Agile teams, often referred to as "soft skills", pose a challenge for universities to teach. From this set of skills, leadership, in particular, has recently garnered attention from the software engineering education community but remains an open research opportunity. In this context, this work aims at creating a body of knowledge regarding leadership teaching in agile software engineering. To achieve this goal, we conducted a systematic mapping. From a selection of 27 studies, our results provide indications that: (i) leadership in software engineering education is typically defined as part of teamwork, shared among team members, associated with Scrum, and applied to provide students with experience in group representation;and (ii) it is usually taught through Scrum, involving active learning methodologies (such as problem-based learning) and employing real projects either sourced from external partners or designed to solve real-world problems. Copyright © 2025 by SCITEPRESS - science and Technology Publications, Lda.

关键词： software design

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Comparative Study and Analysis of Prompting Techniques Using Gemini API Model and Reasoning Frameworks

Comparative Study and Analysis of Prompting Techniques Using...

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2025 international conference on computing for Sustainability and Intelligent Future, COMP-SIF 2025

作者： Rekha, V. Prakash, G.L. Prathap, Boppuru Rudra Reddy, Vandana SoET Christ University Department of Cse India Bmsit&m Vtu Department of Information Science and Engineering India

ISBN: (纸本)9798331538538

Natural Language Processing (NLP) systems rely heavily on prompt engineering to enhance performance. This study evaluates various prompt techniques across different sizes of the Gemini API models ('small', 'medium', and 'large') using reasoning paradigms such as zero-shot, few-shot, Chain of Thought (CoT), and Tree of Thought (ToT). Metrics including accuracy, coherence, and latency were analyzed for prompts emphasizing specificity, brevity, example-driven accuracy, and creativity. Results indicate that the selection of reasoning paradigms and model sizes significantly impacts the performance, highlighting trade-offs between computational efficiency and quality. Recommendations for optimal configurations tailored to specific tasks are provided. © 2025 IEEE.

关键词： Natural language processing systems

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Circuit Scheduling Policies on Current QPUs: QCRAFT Scheduler 22nd

Circuit Scheduling Policies on Current QPUs: QCRAFT Schedule...

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22nd international conference on Service Oriented computing

作者： Alvarado-Valiente, Jaime Romero-Alvarez, Javier Casco-Seco, Jorge Moguel, Enrique Garcia-Alonso, Jose Murillo, Juan M. Univ Extremadura Quercus Software Engn Croup Caceres Spain

ISBN: (纸本)9789819608072;9789819608089

In the contemporary context of quantum computing, the availability of quantum computing platforms through cloud services is increasing, which has democratized access to this technology. This is generating interest in the industry and the scientific community. However, the increasing demand for access to quantum computers is facing limited resource availability, leading to prolonged waiting times for users and high execution costs. Leveraging the under-utilization, it has already been shown that it is possible to optimize the use of current QPUs by scheduling quantum tasks, and the generated noise does not significantly affect the results. This can be achieved concretely by combining circuits. To this end, the main objective of this work is to define and validate three circuit scheduling policies for the QCRAFT Scheduler, improving the efficiency of QPU utilization and reducing both waiting times and associated task execution costs. A validation of each of the policies has been performed, achieving an average cost reduction of 83.67% and an average task reduction of 84.20% concerning the single execution of the same circuits.

关键词： Quantum computing Quantum Service computing Quantum software engineering Circuit Scheduling Policies

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