Adopting a Student Centric Education Blockchain System
Issue:
Volume 7, Issue 3, September 2022
Pages:
48-65
Received:
9 June 2022
Accepted:
23 June 2022
Published:
12 August 2022
Abstract: The purpose of this paper is to portray an integrated Education Model which proposes to be student-centric and using technologies like Blockchain technology which can offer security, authenticity, immutability, longevity, data, information, decentralization, no intermediator, reliability, and data integrity. Education Blockchain 4.0 is a part of the Industrial revolution 4.0 which is disrupting the education sector. Blockchain technology is in focus in the last decade amongst users, researchers and practitioners. Despite the growing interest in Blockchain technology, the education sector has not seen much progress in terms of applications. This system uses the research of blockchain-based educational applications. The world is accelerating with IoT and AI. Industry revolution 4.0 is becoming a mandatory standard and necessity in globalization and a logical outcome is Education Blockchain 4.0. It is the need in the educational system due to the disruption initiated by technologies. Quantitative Methodology will be used to prove the conceptual model that proves the relationship between various constructs using PLS-SEM, which statistically can prove these relationships. Smart Blockchain System in education will make everything digital, easily storable, immutable, secured, longevity, easy access, cost-effective, User friendly and integrable to other technologies. The proposed Education Blockchain 4.0 smart system is poised to achieve these objectives across domains and to integrate further technologies making it the most suitable choice for these applications, which is the major contribution of this study. Also, the integration of the system theory of the new student centric education ecosystem, the disruption theory for Blockchain technology in education and the stakeholder theory applied to the education. Education Blockchain 4.0 will be useful for educational organizations to be cost-effective, achieve volumes of scale by integrating various functionalities, sectors. It will be useful for making policy decisions to enhance revenue, profitability and deliver stakeholder satisfaction.
Abstract: The purpose of this paper is to portray an integrated Education Model which proposes to be student-centric and using technologies like Blockchain technology which can offer security, authenticity, immutability, longevity, data, information, decentralization, no intermediator, reliability, and data integrity. Education Blockchain 4.0 is a part of th...
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Digitalization of Hindu Temples in India in Google Cloud and SerpAPI Automation in Python
Ramamurthy Valavandan,
Subramanian Jagathambal,
Gothandapani Balakrishnan,
Malarvizhi Balakrishnan,
Valavandan Valvandan,
Archana Gnanavel,
Subramanian Kangalakshmi,
Ramamurthy Savitha
Issue:
Volume 7, Issue 3, September 2022
Pages:
66-81
Received:
12 July 2022
Accepted:
8 August 2022
Published:
17 August 2022
Abstract: The study on scraping the Google Search Engine via the SerpAPI and automatically generating a dataset of the temple name, location of the temple, temple description, the state of India, longitude and latitude coordinates, and distance from the major cities in India is demonstrated. The workload orchestration is controlled by Google Composer in Apache Airflow. Google Kubernetes Engine (GKE) categorizes applications into microservices under each container. The docker image is created in the GKE control plane, API scheduler segments the granular levels of microservices in the DevOps operation of GitHub, Jenkins. YAML provides the configuration of the pod, of GKE carrying multiple containers, of the main type of input for Kubernetes configurations. Python application creates the YAML for GKE configuration data to define the Kubernetes object and the business rule. The Google native artificial intelligence VertexAPI picks the keyword of the temple name and the location of every state in India. The SerpAPI application digitized the Hindu temples in India for the complete project life cycle for requirement gathering, design, development, and deployment in Google Cloud. The search parameters are designed for Google Search Engine for the collection of historians, and architectural details of the Hindu temples in India. The Google Search application uses the Google Compute Engine, Big Query, Google Kubernetes Engine, Cloud Composer, and big data services of Data Fusion, Dataproc, and Dataflow. The solution uses Google cloud services of Web Hosting, Load balancing, Google Storage, and the compute engine performance tuning in Big Query optimization. The Google search results are in JSON format of every state in temple details and a python application parses the facts on the Search API algorithm. The temple images are visualized in Python Application and integrated for the data visualization of Google inbuilt Google Studio.
Abstract: The study on scraping the Google Search Engine via the SerpAPI and automatically generating a dataset of the temple name, location of the temple, temple description, the state of India, longitude and latitude coordinates, and distance from the major cities in India is demonstrated. The workload orchestration is controlled by Google Composer in Apac...
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