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International Conference on Cyber Protection, Network Security, and Image Processing (IC-CPNSIP)

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Articles

Introducing a Cost-Effective Mechanism for Energy Generation from Footsteps

Syed Azfar Imam Zaidi, Shahid Iqbal, Fahad Hussain, Muhammad Hammad Ikram, Waqas Javid and Muhammad Mateen

Year: 2020 | Conference Paper | Publisher: Scitech Conference Xplorer

Abstract:

This paper presents a novel and cost-effective mechanism for generating energy from footsteps. Harnessing kinetic energy from human movement has garnered significant interest as a sustainable power source, particularly in urban environments with high foot traffic. Our proposed mechanism offers an innovative solution that is both efficient and affordable, making it accessible for widespread adoption. We describe the design and implementation of the mechanism, highlighting its simplicity and effectiveness in converting mechanical energy from footsteps into usable electrical power. Through experimental validation and performance analysis, we demonstrate the feasibility and potential applications of this energy generation system. This research contributes to the development of sustainable energy solutions and addresses the growing demand for renewable sources of power in various settings.

Exploring Mechanical and Material Properties of 3D-Printed Temporary Materials for Implant Reconstructions: A Pilot Study

Adam Nowicki, Karolina Osypko, Adam Kurzawa, Maciej Roszak, Karina Krawiec and Dariusz Pyka

Year: 2020 | Conference Paper | Publisher: Scitech Conference Xplorer

Abstract:

This pilot study investigates the mechanical and material properties of 3D-printed temporary materials used for implant reconstructions. Temporary materials play a crucial role in dental and medical applications, providing support during the healing process before permanent implants are placed. We examine the mechanical strength, durability, and material characteristics of 3D-printed temporary materials through a series of experimental analyses. The study aims to assess the suitability of these materials for implant reconstructions, considering factors such as biocompatibility and ease of fabrication. By elucidating the properties of 3D-printed temporary materials, this research contributes to the development of improved solutions for temporary implant restorations, ultimately enhancing patient outcomes in dental and medical practice

Unveiling the Varied Biomedical Applications of Carbon Nanomaterials: Fullerenes, Quantum Dots, Nanotubes, Nanofibers, and Graphene in Medicine and Healthcare

Manish Gaur, Charu Misra, Awadh Bihari Yadav, Shiv Swaroop, Fionn Ó. Maolmhuaidh , Mikhael Bechelany and Ahmed Barhoum

Year: 2020 | Conference Paper | Publisher: Scitech Conference Xplorer

Abstract:

This comprehensive review explores the diverse biomedical applications of carbon nanomaterials, including fullerenes, quantum dots, nanotubes, nanofibers, and graphene. Carbon nanomaterials possess unique physicochemical properties that make them promising candidates for various biomedical applications, ranging from imaging and sensing to drug delivery and tissue engineering. We discuss recent advances in the synthesis, functionalization, and characterization of carbon nanomaterials, as well as their interactions with biological systems. Furthermore, we highlight specific biomedical applications where each type of carbon nanomaterial excels, along with their advantages and challenges. By providing an overview of the current state-of-the-art in the field, this review aims to inspire further research and development towards the translation of carbon nanomaterials into clinically relevant biomedical technologies.

Strategies for Combating Microbial Biofilm-Associated Drug Resistance: Emphasizing Micro- and Nanotechnologies

Harinash Rao, Sulin Choo, Sri Raja Rajeswari Mahalingam, Diajeng Sekar Adisuri, Priya Madhavan, Abdah Md. Akim and Pei Pei Chong

Year: 2020 | Conference Paper | Publisher: Scitech Conference Xplorer

Abstract:

This paper examines various strategies aimed at addressing microbial biofilm-related drug resistance, with a particular emphasis on micro- and nanotechnologies. Microbial biofilms pose a significant challenge in various fields, including medicine and industry, due to their inherent resistance to conventional antimicrobial agents. We explore innovative approaches that leverage micro- and nanotechnologies to combat biofilm-associated drug resistance. These approaches encompass a wide range of techniques, including surface modification, targeted drug delivery, and biofilm disruption using micro- and nano-sized materials and devices. Through a comprehensive review of recent advancements, we highlight the potential of micro- and nanotechnologies in enhancing the efficacy of antimicrobial treatments against biofilm-forming pathogens. This review aims to provide insights into the development of novel therapeutic strategies and materials for combating biofilm-related drug resistance, thereby addressing a critical need in infectious disease management and industrial settings.

Exploring Functional Treatments for Enhanced Properties of Modified Wood

Morwenna J. Spear, Simon F. Curling, Athanasios Dimitriou and Graham A. Ormondroyd

Year: 2020 | Conference Paper | Publisher: Scitech Conference Xplorer

Abstract:

This review paper explores various functional treatments aimed at improving the properties of modified wood. Modified wood, a material processed to enhance its durability, stability, and other characteristics, has gained increasing attention for its potential applications in construction, furniture, and other industries. We delve into different treatment methods, including chemical modifications, thermal treatments, and surface coatings, focusing on their effects on wood properties such as moisture resistance, dimensional stability, and decay resistance. Furthermore, we discuss the advantages and limitations of each treatment approach and highlight recent advancements in the field. By providing a comprehensive overview of functional treatments for modified wood, this review aims to guide researchers, engineers, and practitioners in selecting appropriate methods to optimize the performance of modified wood for various applications.

Advantages of Smart Nanoparticles for Dental Applications

Silvia Vasiliu, Stefania Racovita, Ionela Aurica Gugoasa, Maria-Andreea Lungan, Marcel Popa and Jacques Desbrieres

Year: 2020 | Conference Paper | Publisher: Scitech Conference Xplorer

Abstract:

This paper investigates the advantages of utilizing smart nanoparticles in dental applications. Smart nanoparticles offer unique properties such as stimuli-responsive behavior, targeted drug delivery, and enhanced imaging capabilities, which can significantly improve various aspects of dental treatment and diagnostics. We review recent developments in the design, synthesis, and characterization of smart nanoparticles specifically tailored for dental applications, including restorative materials, periodontal therapy, and diagnostic imaging. Furthermore, we discuss the potential benefits of smart nanoparticles in improving treatment outcomes, reducing side effects, and enhancing patient comfort and satisfaction. By highlighting the advantages of incorporating smart nanoparticles into dental practice, this review aims to promote further research and development in this promising field, ultimately advancing dental care and oral health outcomes.

PyroMEMS: Future Technological Foundations for Advanced Microenergetic Systems

Jean-Laurent Pouchairet and Carole Rossi

Year: 2020 | Conference Paper | Publisher: Scitech Conference Xplorer

Abstract:

This paper explores the potential of PyroMEMS as foundational elements for advancing microenergetic systems. PyroMEMS, a fusion of pyrotechnics and microelectromechanical systems (MEMS), holds promise for revolutionizing various fields, including propulsion, energy harvesting, and sensing. We delve into the unique capabilities and advantages offered by PyroMEMS, such as miniaturization, scalability, and precise control over energetic reactions at the microscale. Additionally, we discuss recent developments and emerging applications of PyroMEMS in the context of advanced microenergetic systems. By elucidating the potential of PyroMEMS as building blocks for next-generation technologies, this paper aims to inspire further research and innovation in this exciting interdisciplinary field.

Polyethylene Composites: Exploring Flame Retardancy from Fundamentals to Nanocomposites

Erfan Rezvani Ghomi, Fatemeh Khosravi, Zahra Mossayebi, Ali Saedi Ardahaei, Fatemeh Morshedi Dehaghi, Masoud Khorasani, Rasoul Esmaeely Neisiany, Oisik Das, Atiye Marani, Rhoda Afriyie Mensah, Lin Jiang,Qiang Xu, Michael Försth, Filippo Berto and Seeram Ramakrishna

Year: 2020 | Conference Paper | Publisher: Scitech Conference Xplorer

Abstract:

This paper presents a comprehensive examination of flame retardancy in polyethylene composites, spanning from fundamental concepts to the latest advancements in nanocomposites. Flame retardancy is a critical property for polyethylene-based materials, particularly in applications where fire safety is paramount. We delve into the underlying principles of flame retardancy, including mechanisms of flame inhibition and suppression. Furthermore, we explore the incorporation of nanomaterials into polyethylene composites to enhance flame retardant properties. Through a review of recent research, we highlight the role of nanocomposites in improving flame retardancy while maintaining mechanical and thermal properties. By elucidating the journey from fundamental concepts to nanocomposites, this paper aims to provide insights into the development of fire-resistant polyethylene materials for a wide range of applications.

IoT Hardware Platform Architecture for Power Grid System Monitoring Using Heterogeneous Multi-Sensors

Phuoc Duc Nguyen, Hieu Quang Vo, Linh Ngoc Le, SeokJin Eo and LokWon Kim

Year: 2020 | Conference Paper | Publisher: Scitech Conference Xplorer

Abstract:

This paper proposes an IoT hardware platform architecture designed for monitoring power grid systems through the integration of heterogeneous multi-sensors. Power grid monitoring is essential for ensuring efficient operation and timely detection of faults or anomalies. The proposed architecture leverages the Internet of Things (IoT) paradigm to collect and analyze data from various sensors deployed across the power grid infrastructure. By incorporating heterogeneous multi-sensors, including temperature, voltage, current, and humidity sensors, the platform enables comprehensive monitoring of key parameters affecting grid performance and stability. We discuss the design considerations, communication protocols, and data processing techniques employed within the architecture. Furthermore, we highlight the potential applications and benefits of the proposed IoT hardware platform in enhancing grid resilience, reliability, and overall performance. This paper aims to contribute to the advancement of smart grid technologies by providing a scalable and versatile solution for power grid monitoring using IoT-enabled heterogeneous sensor networks.

Advancements in Biomolecule–Nanomaterial Heterolayer-Based Charge Storage Devices for Bioelectronic Applications: A Review of Recent Progress

Taek Lee, Soomin Kim, Jinmyeong Kim, Sang-Chan Park, Jinho Yoon,Chulhwan Park, Hiesang Sohn, Jae-Hyuk Ahn and Junhong Min

Year: 2020 | Conference Paper | Publisher: Scitech Conference Xplorer

Abstract:

This review highlights recent advancements in biomolecule–nanomaterial heterolayer-based charge storage devices tailored for bioelectronic applications. The integration of biomolecules with nanomaterials offers a promising avenue for developing next-generation bioelectronic devices with enhanced performance and functionality. We discuss the latest research efforts focusing on the design, fabrication, and characterization of heterolayer-based charge storage devices, emphasizing their potential applications in biosensing, energy storage, and neural interfacing. Through a comprehensive analysis of recent studies, we elucidate the underlying principles governing the operation of these devices and highlight key achievements in terms of device performance, stability, and biocompatibility. Furthermore, we discuss future directions and challenges in the field, aiming to inspire further research and innovation towards the development of advanced biomolecule–nanomaterial heterolayer-based charge storage devices for diverse bioelectronic applications.


International Conference on Sustainable Energy and Materials Engineering (ICSEME)

International Conference on Biomedical Robotics and Computational Imaging (ICBRCI)

International Conference on Smart Cities and Civil Infrastructure (ICSCCI)

International Conference on Aerospace Technologies and Data Science (ICATDS)

International Conference on Renewable Resources and Chemical Engineering (ICRRCE)

International Conference on Cyber-Physical Systems and Electrical Engineering (ICCPSE)

International Conference on Robotics in Manufacturing and Environmental Engineering (ICRMEE)

International Conference on Advanced Materials and Mechanical Engineering (ICAMME)

International Conference on Nanotechnology for Electrical Systems (ICNES)

International Conference on Geotechnical Innovations and Computer-Aided Design (ICGICAD)

International Conference on Water Resources and Environmental Engineering (ICWREE)

International Conference on Intelligent Transportation Systems and Structural Engineering (ICITSE)

International Conference on Sustainable Energy and Materials Engineering (ICSEME)

International Conference on Biomedical Robotics and Computational Imaging (ICBRCI)

International Conference on Smart Cities and Civil Infrastructure (ICSCCI)

International Conference on Aerospace Technologies and Data Science (ICATDS)

International Conference on Renewable Resources and Chemical Engineering (ICRRCE)

International Conference on Cyber-Physical Systems and Electrical Engineering (ICCPSE)

International Conference on Robotics in Manufacturing and Environmental Engineering (ICRMEE)

International Conference on Advanced Materials and Mechanical Engineering (ICAMME)

International Conference on Nanotechnology for Electrical Systems (ICNES)

International Conference on Geotechnical Innovations and Computer-Aided Design (ICGICAD)

International Conference on Water Resources and Environmental Engineering (ICWREE)

International Conference on Intelligent Transportation Systems and Structural Engineering (ICITSE)

International Conference on Sustainable Energy and Materials Engineering (ICSEME)

International Conference on Biomedical Robotics and Computational Imaging (ICBRCI)

International Conference on Smart Cities and Civil Infrastructure (ICSCCI)

International Conference on Aerospace Technologies and Data Science (ICATDS)

International Conference on Renewable Resources and Chemical Engineering (ICRRCE)

International Conference on Cyber-Physical Systems and Electrical Engineering (ICCPSE)

International Conference on Robotics in Manufacturing and Environmental Engineering (ICRMEE)

International Conference on Advanced Materials and Mechanical Engineering (ICAMME)

International Conference on Nanotechnology for Electrical Systems (ICNES)

International Conference on Geotechnical Innovations and Computer-Aided Design (ICGICAD)

International Conference on Water Resources and Environmental Engineering (ICWREE)

International Conference on Intelligent Transportation Systems and Structural Engineering (ICITSE)

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