Edge Computing in Platform as a Service Dataset (Publication Date: 2024/02)

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Discover Insights, Make Informed Decisions, and Stay Ahead of the Curve:



  • What types of data analysis should your organization be undertaking at the edge/perimeter?
  • How do you stimulate a CAPEX to OPEX shift for on premises data centers of your clients?
  • Can the edge fog cloud architecture save energy and pave way for sustainable computing in IoT?


  • Key Features:


    • Comprehensive set of 1547 prioritized Edge Computing requirements.
    • Extensive coverage of 162 Edge Computing topic scopes.
    • In-depth analysis of 162 Edge Computing step-by-step solutions, benefits, BHAGs.
    • Detailed examination of 162 Edge Computing case studies and use cases.

    • Digital download upon purchase.
    • Enjoy lifetime document updates included with your purchase.
    • Benefit from a fully editable and customizable Excel format.
    • Trusted and utilized by over 10,000 organizations.

    • Covering: Identity And Access Management, Resource Allocation, Systems Review, Database Migration, Service Level Agreement, Server Management, Vetting, Scalable Architecture, Storage Options, Data Retrieval, Web Hosting, Network Security, Service Disruptions, Resource Provisioning, Application Services, ITSM, Source Code, Global Networking, API Endpoints, Application Isolation, Cloud Migration, Platform as a Service, Predictive Analytics, Infrastructure Provisioning, Deployment Automation, Search Engines, Business Agility, Change Management, Centralized Control, Business Transformation, Task Scheduling, IT Systems, SaaS Integration, Business Intelligence, Customizable Dashboards, Platform Interoperability, Continuous Delivery, Mobile Accessibility, Data Encryption, Ingestion Rate, Microservices Support, Extensive Training, Fault Tolerance, Serverless Computing, AI Policy, Business Process Redesign, Integration Reusability, Sunk Cost, Management Systems, Configuration Policies, Cloud Storage, Compliance Certifications, Enterprise Grade Security, Real Time Analytics, Data Management, Automatic Scaling, Pick And Pack, API Management, Security Enhancement, Stakeholder Feedback, Low Code Platforms, Multi Tenant Environments, Legacy System Migration, New Development, High Availability, Application Templates, Liability Limitation, Uptime Guarantee, Vulnerability Scan, Data Warehousing, Service Mesh, Real Time Collaboration, IoT Integration, Software Development Kits, Service Provider, Data Sharing, Cloud Platform, Managed Services, Software As Service, Service Edge, Machine Images, Hybrid IT Management, Mobile App Enablement, Regulatory Frameworks, Workflow Integration, Data Backup, Persistent Storage, Data Integrity, User Complaints, Data Validation, Event Driven Architecture, Platform As Service, Enterprise Integration, Backup And Restore, Data Security, KPIs Development, Rapid Development, Cloud Native Apps, Automation Frameworks, Organization Teams, Monitoring And Logging, Self Service Capabilities, Blockchain As Service, Geo Distributed Deployment, Data Governance, User Management, Service Knowledge Transfer, Major Releases, Industry Specific Compliance, Application Development, KPI Tracking, Hybrid Cloud, Cloud Databases, Cloud Integration Strategies, Traffic Management, Compliance Monitoring, Load Balancing, Data Ownership, Financial Ratings, Monitoring Parameters, Service Orchestration, Service Requests, Integration Platform, Scalability Services, Data Science Tools, Information Technology, Collaboration Tools, Resource Monitoring, Virtual Machines, Service Compatibility, Elasticity Services, AI ML Services, Offsite Storage, Edge Computing, Forensic Readiness, Disaster Recovery, DevOps, Autoscaling Capabilities, Web Based Platform, Cost Optimization, Workload Flexibility, Development Environments, Backup And Recovery, Analytics Engine, API Gateways, Concept Development, Performance Tuning, Network Segmentation, Artificial Intelligence, Serverless Applications, Deployment Options, Blockchain Support, DevOps Automation, Machine Learning Integration, Privacy Regulations, Privacy Policy, Supplier Relationships, Security Controls, Managed Infrastructure, Content Management, Cluster Management, Third Party Integrations




    Edge Computing Assessment Dataset - Utilization, Solutions, Advantages, BHAG (Big Hairy Audacious Goal):


    Edge Computing

    Edge computing involves processing and analyzing data at the edge or perimeter of a network, closer to where it is generated. This allows for quicker response times and reduces data transfer to the cloud. The organization should prioritize real-time and mission-critical data analysis at the edge, while sending less urgent or large-scale data to the cloud for further processing.

    1. Real-time data analysis: This allows for immediate insights and actions at the edge, reducing latency and improving decision-making.

    2. Predictive analytics: By analyzing data at the edge, organizations can make proactive decisions and prevent issues before they occur.

    3. Anomaly detection: Edge computing can detect unusual patterns or anomalies in data, allowing for quicker identification and resolution of potential problems.

    4. Data filtering and aggregation: Edge computing can filter and aggregate data locally, reducing the amount of data that needs to be transmitted to the cloud for processing.

    5. Machine learning: With edge computing, organizations can apply machine learning algorithms to data at the edge, allowing for faster and more efficient training of models.

    6. Data security and privacy: By performing data analysis at the edge, sensitive information can be kept local and not transmitted to the cloud, increasing data security and privacy.

    7. Internet of Things (IoT) data analysis: With edge computing, organizations can analyze large volumes of IoT data at the edge, reducing the strain on the network and cloud resources.

    8. Personalization: Edge computing can enable personalized and contextual data analysis for individual users or devices, providing a more tailored experience.

    9. Energy and cost efficiency: By processing data at the edge, organizations can reduce the amount of data transmitted to the cloud, resulting in cost savings and energy efficiency.

    10. Remote and disconnected environments: Edge computing allows for data analysis in remote or disconnected environments, where connectivity may be limited, ensuring continuity of operations.

    CONTROL QUESTION: What types of data analysis should the organization be undertaking at the edge/perimeter?


    Big Hairy Audacious Goal (BHAG) for 10 years from now:

    In 10 years, the goal for Edge Computing should be to have created a seamless and secure network of interconnected edge devices that can rapidly process and analyze massive amounts of data in real-time, revolutionizing the way organizations operate.

    One of the key data analysis goals for this organization at the edge/perimeter should be predictive analytics. By leveraging edge computing capabilities, the organization should be able to analyze real-time data from multiple sources such as IoT devices, sensors, and cameras to identify patterns and predict potential issues before they occur. This will allow for proactive decision-making and greatly reduce downtime, maintenance costs, and optimize operations.

    Additionally, the organization should also be utilizing edge computing for advanced data analytics, including machine learning and artificial intelligence. This will enable the analysis of complex datasets in real-time, allowing for faster and more accurate decision-making. Furthermore, with the ability to process and analyze data at the edge, the organization can reduce its dependence on cloud computing and improve data privacy and security.

    Moreover, edge computing should also be utilized for personalized data analysis, where data collected from edge devices can be used to create personalized experiences for customers. This will enhance customer satisfaction, loyalty, and retention.

    Overall, the big hairy audacious goal for Edge Computing in 10 years should be to create a highly efficient and intelligent network where data analysis at the edge is seamless, secure, and enables rapid decision-making for organizations. This will revolutionize the way businesses operate and drive innovation across industries.

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    Edge Computing Case Study/Use Case example - How to use:



    Client Situation:
    The client, a large manufacturing organization, was facing challenges in processing and analyzing vast amounts of data generated by their industrial machines in real-time. These machines are spread across various geographical locations, making it difficult to transfer the data to a central location for analysis. This delay in data processing resulted in a delay in identifying machine failures or anomalies, leading to production delays and increased downtime costs. In addition, the organization was looking to increase efficiency and reduce operation costs by implementing predictive maintenance for their machines.

    To address these challenges, the client approached our consulting firm to explore the possibilities of edge computing. Edge computing would enable the organization to process and analyze data at the edge, near the source of data generation, allowing for faster analysis and decision-making.

    Consulting Methodology:
    Our consulting team conducted a thorough assessment of the client′s current data management and analysis processes. We also evaluated the organization′s infrastructure and identified the locations where edge computing could be implemented effectively. Based on our findings, we proposed the following methodology for implementing edge computing at the organization:

    1. Identification and Prioritization of Data Sources:
    The first step was to identify the critical data sources that required real-time analysis. These data sources were prioritized based on their impact on production and maintenance costs.

    2. Selection of Edge Computing Infrastructure:
    The next step was to select the appropriate edge computing infrastructure that could handle the data volume and analysis requirements at the identified locations. We recommended a mix of industrial computers, gateways, and cloud-based edge servers to enable data processing and storage at the edge.

    3. Implementation and Integration:
    Our team worked closely with the organization′s IT department to implement the edge computing infrastructure and integrate it with the existing systems. This involved setting up communication protocols, security measures, and data transfer mechanisms between the edge devices and the central data management system.

    4. Data Management and Analysis:
    Once the edge computing infrastructure was set up, we helped the organization develop a data management strategy to handle the large volume of data generated by the machines. This included storing and organizing the data for easy retrieval and analysis.

    5. Real-time Data Analysis:
    The final step was to implement real-time data analysis using edge computing. This involved the use of advanced algorithms and machine learning models to analyze the data at the edge and provide insights for predictive maintenance and process optimization.

    Deliverables:
    1. Edge computing infrastructure set up at identified locations
    2. Integration of edge computing with existing systems
    3. Data management strategy
    4. Real-time data analysis system
    5. Training for IT and maintenance teams on edge computing operations and maintenance.

    Implementation Challenges:
    1. Identifying the critical data sources and prioritizing them.
    2. Integration of edge computing with legacy systems.
    3. Ensuring data security and privacy.
    4. Developing customized algorithms and machine learning models for real-time analysis.
    5. Training IT and maintenance teams on edge computing operations and maintenance.

    KPIs:
    1. Reduction in downtime costs.
    2. Increased efficiency due to predictive maintenance.
    3. Reduction in production delays.
    4. Time saved in data processing and analysis.
    5. Improvement in overall equipment effectiveness (OEE).

    Management Considerations:
    1. Continuous monitoring and maintenance of edge computing infrastructure.
    2. Regular updates of algorithms and machine learning models to improve analysis accuracy.
    3. Collaboration between IT and maintenance teams for effective data management and analysis.
    4. Compliance with data privacy regulations.
    5. Periodic review of the data management and analysis strategy to ensure its effectiveness.

    Conclusion:
    In conclusion, the implementation of edge computing has enabled the organization to overcome the challenges of real-time data processing and analysis. With the ability to analyze data at the edge, the organization can now identify machine failures and anomalies in real-time, enabling the implementation of predictive maintenance. This has resulted in increased efficiency, reduced downtime costs, and improved overall equipment effectiveness. With constant monitoring and regular updates, the organization can continue to reap the benefits of edge computing in the long run.

    Citations:
    1. T. Dikmen, T. Veeraraghavan, A. N. Misra, M. S. Srinivasan, M. Giri, and R. Stojanovic, Strategizing resource management in edge computing, IEEE Network, vol. 31, no. 1, pp. 32-39, Jan./Feb. 2017.
    2. C. Niu, P. Wang, J. Li, W. H. Chin, and Y. Zhang, Mitigating latency on mobile edge computing for internet of things: A collaborative learning approach, IEEE Internet of Things Journal, vol. 4, no. 4, pp. 1091-1103, Aug. 2017.
    3. Kalouptsidis, N.; Massoulie, L.Mitigation strategies for data analytics on multiple edges arXiv 2017, arXiv:1706.03763.
    4. M. P. Malakoutian, R. Stojanovic, “Edge clouds: a novel paradigm for multi-homed clients,” in Proc. IEEE INFOCOM, 2015.
    5. “Global Edge Computing Market - Growth, Trends, and Forecast (2020 - 2025)” Market Research Report by Mordor Intelligence.

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