Engineering Universe For Scientific Research And Management Beta

ISSN (Online): 2319-3069
(International Journal)






Notice Board :




Volume XVII Issue IV

Paper Title
Design and Implementation of a Blockchain-Enabled Framework for Secure and Decentralized Cloud Storage
Author Name
Divya Gupta, Mitesh Shah
Year Of Publication
2025
Volume and Issue
Volume 17 Issue 4
Abstract
Cloud storage services, while convenient, often face challenges related to data security, integrity, and centralization. This paper presents a blockchain-enabled framework that enhances data security, ensures integrity, and decentralizes control, thereby mitigating the limitations of traditional cloud storage systems. By leveraging smart contracts and distributed ledger technology (DLT), this framework establishes a trustless and transparent environment for secure file sharing, encryption, and access control.
PaperID
2025/EUSRM/4/2025/61659

Paper Title
A Review on a High-Efficiency Wireless Power Transfer System with Intermediate Coils for the Chargers of Electric Vehicles
Author Name
Sita Verma, Rahul Singh
Year Of Publication
2025
Volume and Issue
Volume 17 Issue 4
Abstract
Wireless Power Transfer (WPT) devices are able to move electricity from its source to its load. WPTs have several benefits over their wired cousin, making them desirable for usage in many industrial applications. Some businesses are looking at using WPTs to charge the batteries of electric vehicles (EVs), and research and development is being done to better the different topologies involved. In recent years, WPT technology has seen significant advancements According to these enhancements, the WPT is more appealing for use in stationary and dynamic EV charging applications. In this study, we took a look at the WPT field and all the technologies that may be used to wirelessly charge an EV. The challenges of charging time, range, and cost are readily solved by using WPT in EVs. There is no longer a need for advancements in battery technology for EVs to gain widespread consumer acceptance. Researchers are pleased by the state-of-the-art accomplishments and are expected to continue developi
PaperID
2025/EUSRM/4/2025/61660

Paper Title
High-Rise Structural Behavior with Diverse Shear Wall Materials and Positions: A Simulation Study Using ETABS
Author Name
Prakash Sinha, Shree Ram Malani
Year Of Publication
2025
Volume and Issue
Volume 17 Issue 4
Abstract
The structural integrity of high-rise buildings under lateral loads, such as seismic and wind forces, is a critical concern in civil engineering. Shear walls are pivotal in enhancing the lateral stiffness and strength of these structures. This review paper synthesizes past research on the comparative analysis of high-rise buildings incorporating shear walls of varying materials and positions, utilizing ETABS software for simulation and analysis. The study delves into the effects of different shear wall configurations on parameters like storey drift, displacement, and base shear. Findings indicate that both the material composition and strategic placement of shear walls significantly influence the seismic performance of high-rise buildings. Optimal configurations can lead to substantial improvements in structural stability and resilience. This meta-analysis aims to provide a consolidated understanding to guide future design and research endeavors in the field.
PaperID
2025/EUSRM/4/2025/61662

Paper Title
Optimization of Cast-In-Situ and Precast Concrete Methods Through BIM and Structural Simulations
Author Name
Preeti Pradhan, Shrishti Verma, Sakshi Sahu
Year Of Publication
2025
Volume and Issue
Volume 17 Issue 4
Abstract
The construction industry is increasingly leveraging digital technologies to enhance efficiency, accuracy, and sustainability. Building Information Modeling (BIM) and structural simulation tools have emerged as pivotal in optimizing construction processes, particularly in comparing cast-in-situ and precast concrete methodologies. This review synthesizes existing literature on the computational analysis and optimization of these two construction approaches using BIM and structural simulation tools. The study examines the advantages and limitations of each method, the role of BIM in facilitating design and construction, and the impact of structural simulation tools on decision-making. Findings indicate that while precast construction benefits from enhanced quality control and reduced on-site labor, cast-in-situ methods offer greater flexibility in design. BIM and simulation tools significantly contribute to optimizing both methods by enabling accurate modeling, clash detection, and perfo
PaperID
2025/EUSRM/4/2025/61663