AIJREAS VOLUME 8, ISSUE 12 (2023, DEC)aerfpublications2023-12-15T11:23:25+00:00
AIJREAS VOLUME 8, ISSUE 12 (2023, DEC) (ISSN-2455-6300) ONLINE
ANVESHANA’S INTERNATIONAL JOURNAL OF RESEARCH IN ENGINEERING AND APPLIED SCIENCES
1.
MACHINE LEARNING-BASED DISEASE PREDICTION FRAMEWORK FOR THE DIABETES HEALTHCARE INDUSTRY
Shaik Mohammedjany Dr.Rajesh Kumar Tiwari & Dr. G.Syam Prasad
Page 1-14
| Paper TitleMACHINE LEARNING-BASED DISEASE PREDICTION FRAMEWORK FOR THE DIABETES HEALTHCARE INDUSTRYAbstractDiabetes is a chronic disease that continues to be a significant and global concern since it affects the entire population’s health. It is a metabolic disorder that leads to high blood sugar levels and many other problems such as stroke, kidney failure, and heart and nerve problems. Several researchers have attempted to construct an accurate diabetes prediction model over the years. However, this subject still faces significant open research issues due to a lack of appropriate data sets and prediction approaches, which pushes researchers to use big data analytics and machine learning (ML)-based methods. Applying four different machine learning methods, the research tries to overcome the problems and investigate healthcare predictive analytics. The study’s primary goal was to see how big data analytics and machine learning-based techniques may be used in diabetes. The examination of the results shows that the suggested ML-based framework may achieve a score of 86. Health experts and other stakeholders are working to develop categorization models that will aid in the prediction of diabetes and the formulation of preventative initiatives. The authors perform a review of the literature on machine models and suggest an intelligent framework for diabetes prediction based on their findings. Machine learning models are critically examined, and an intelligent machine learning-based architecture for diabetes prediction is proposed and evaluated by the authors. In this study, the authors utilize our framework to develop and assess decision tree (DT)-based random forest (RF) and support vector machine (SVM) learning models for diabetes prediction, which are the most widely used techniques in the literature at the time of writing. It is proposed in this study that a unique intelligent diabetes mellitus prediction framework (IDMPF) is developed using machine learning. According to the framework, it was developed after conducting a rigorous review of existing prediction models in the literature and examining their applicability to diabetes. Using the framework, the authors describe the training procedures, model assessment strategies, and issues associated with diabetes prediction, as well as solutions they provide. The findings of this study may be utilized by health professionals, stakeholders, students, and researchers who are involved in diabetes prediction research and development. The proposed work gives 83% accuracy with the minimum error rate. KEYWORDS :
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2.
REVIEWS ON VARIOUS TECHNOLOGIES USED FOR VISUALLY DISABLE PEOPLE
Mannepuli Srujana & Dr. Vijay Pal Singh
Page 15-30
| Paper TitleREVIEWS ON VARIOUS TECHNOLOGIES USED FOR VISUALLY DISABLE PEOPLE AbstractIn an effort to overcome a variety of challenges
encountered by individuals with disabilities
including visual impairment, motor disability, and
communication difficulties computer vision has
demonstrated considerable promise. This report
provides an examination of the current state of
computer vision-based assistive technology, as well
as significant challenges and areas for future
research. This study specifically investigates the
applications of computer vision in the domains of
gesture-based control interfaces, object
recognition, navigation, facial recognition, and
sign language interpretation. Additionally, the
article examines the advantages and disadvantages
of different methodologies and technologies, and
provides illustrations of how computer vision can
be integrated into existing assistive technologies to
enhance their effectiveness. This investigation
addresses the privacy and ethical concerns
associated with the application of computer vision
to assistive technologies. Additionally, the research
emphasizes the necessity for protocol
standardization, enhanced user-centered design,
and practical efficacy evaluation as prospective
areas of investigation to refine the application of
computer vision in assistive technology. In general,
this article illuminates the potential transformative
impact that computer vision could have on assistive
technologies designed for individuals with
disabilities.
KEYWORDS : Computer Vision, Assistive
Technologies, Disabilities, Visual Impairment,
Accessibility, Human-Computer Interaction (HCI)
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3.
UNDERSTANDING THE SECURITY CONCERNS SURROUNDING CLOUD COMPUTING: A REVIEW
Tummapudi Sunil & Dr. Vijay Pal Singh
Page 31-41
| Paper TitleUNDERSTANDING THE SECURITY CONCERNS SURROUNDING CLOUD COMPUTING: A REVIEWAbstractA proved, adaptable, and economical delivery model, cloud computing enables the provision of enterprise or consumer IT services via the Internet. Nevertheless, cloud computing introduces an additional degree of vulnerability due to the frequent delegation of critical services to external entities. This practice complicates the task of ensuring data security and privacy, ensuring the availability of data and services, and substantiating compliance. Cloud Computing utilizes numerous technologies (SOA, virtualization, Web 2.0); consequently, it inherits their security concerns, which are examined in this article. Our objective is to identify and correlate potential solutions to the most significant threats and vulnerabilities discovered in the literature pertaining to Cloud Computing and its environment.
KEYWORDS : Cloud Computing, Security Issues, Cyber security, Data Privacy.
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