An Energy Efficient and Cost Reduction based Hybridization Scheme for Mobile Ad-hoc Networks (MANET) over the Internet of Things (IoT)

Wireless networks are viewed as the best-used network and specifically Portable Specially Appointed Organizations (MANETs) have tracked down numerous applications for its information transmission progressively. The plan issues in this organization are to confine the utilization of energy while communicating data and give security to the hubs. Soa protocol needs to be energy efficient to avoid network failures. Thereby this paper brings an effective energy efficient to optimize LEAR and make it energy efficient. The energy-mindfulness element is added to the LEAR guiding convention in this work using the Binary Particle Swarm Optimization method (BPSO). The recommended method selects programmes taking into account course length in addition to the programme level of energy when predicting the future. To get good results, the steered challenge is first designed using LEAR. The next step is to choose a route that enhances the weighting capability of the study hours and programming power used.This MANET has been secured using the cryptographic method known as AES.According to experimental findings, the proposed hybrid version outperformed other cutting-edge models

Smart E-Commerce: A Novel Lease Option Model for HealthCare Equipment

The swift development of e-commerce has significantly altered consumer behavior and the availability of products and services. Online platforms have become essential for both healthcare providers and patients within the field of medical equipment. However, the high cost of purchasing healthcare equipment hinders affordability and accessibility. This research paper introduces a sustainable lease option model for healthcare equipment on e-commerce websites to address this issue. This research paper examines the theoretical framework and benefits of introducing a lease option model to online healthcare equipment platforms. This paper analyzes a sustainable e-commerce platform, which benefits of implementing a lease option model. These benefits include increased affordability, enhanced accessibility to specialized equipment, and reduced financial burdens for patients and healthcare facilities. The proposed structure outlines the essential elements of incorporating lease options into e-commerce websites, such as pricing structures, contract terms, maintenance and support services, and user experience considerations. Risk assessment, legal considerations, and customer service are just a few of the potential challenges and strategies for risk mitigation that are discussed. It highlights the potential impact of lease options on the accessibility and affordability of healthcare equipment and emphasizes the need for additional research and implementation efforts to optimize this model in real-world settings. The introduction of a lease option model on healthcare equipment e-commerce websites presents a promising opportunity to revolutionize the industry. This work leads to the actual value of sustainable web application in health care sector

Revolutionising Heat Treatment: Novel Strategies for Augmented Performance and Sustainability

This research investigates a paradigm shift in heat treatment practises that is characterised by transformational changes. Despite their widespread use, traditional technologies are often linked to issues such as energy inefficiency, pollution, and material waste. In order to tackle these aforementioned issues, this study explores novel methodologies like high-pressure gas quenching, laser-assisted heat treatment, additive manufacturing for customised microstructures, and ultra-fast induction heating. These methodologies provide not only enhanced material functionality but also environmentally friendly outcomes by means of energy conservation and waste minimization. This study highlights the crucial significance of these breakthroughs in defining a future where improved material qualities align with environmentally responsible practises. It does this by examining their advantages, environmental consequences, and problems in implementation. The use of heat treatment techniques has been shown to significantly boost the performance of materials. This academic study aims to explore the sustainability aspects of heat treatment methods, particularly in comparison to conventional approaches. The focus will be on evaluating the energy efficiency and reduction of material waste associated with a specific heat treatment technique known as high-pressure gas quenching