4 research outputs found

    Towards the Exploration of Task and Workflow Scheduling Methods and Mechanisms in Cloud Computing Environment

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    Cloud computing sets a domain and application-specific distributed environment to distribute the services and resources among users. There are numerous heterogeneous VMs available in the environment to handle user requests. The user requests are defined with a specific deadline. The scheduling methods are defined to set up the order of request execution in the cloud environment. The scheduling methods in a cloud environment are divided into two main categories called Task and Workflow Scheduling. This paper, is a study of work performed on task and workflow scheduling. Various feature processing, constraints-restricted, and priority-driven methods are discussed in this research. The paper also discussed various optimization methods to improve scheduling performance and reliability in the cloud environment. Various constraints and performance parameters are discussed in this research

    Malarial Diagnosis with Deep Learning and Image Processing Approaches

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    Malaria is a mosquito-borne disease that has killed an estimated a half-a-million people worldwide since 2000. It may be time consuming and costly to conduct thorough laboratory testing for malaria, and it also requires the skills of trained laboratory personnel. Additionally, human analysis might make mistakes. Integrating denoising and image segmentation techniques with Generative Adversarial Network (GAN) as a data augmentation technique can enhance the performance of diagnosis. Various deep learning models, such as CNN, ResNet50, and VGG19, for recognising the Plasmodium parasite in thick blood smear images have been used. The experimental results indicate that the VGG19 model performed best by achieving 98.46% compared to other approaches. This study demonstrates the potential of artificial intelligence to improve the speed and precision of pathogen detection which is more effective than manual analysis

    Maintainability Prediction for Object Oriented Software

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    Software maintainability is a measure of the ease with which a software system or component can be modified to correct faults, improve performance or other attributes, or adapt to a changed environment. The time spent and effort required for keeping software operational consumes about 40-70% of cost of entire life cycle. This study proposes a integrated measure for object oriented software based on two parameter - Class Coupling and Cyclomatic Complexity using fuzzy logic. This study also includes empirical data of maintenance time of classes which has been used to validate the proposed approach
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