MEAO MEC application orchestrator

MEAO MEC (Multi-Access Edge Computing) Application Orchestrator is a software platform that enables the deployment, management, and orchestration of applications at the edge of the network. The platform provides a unified view of the network infrastructure, including computing resources, network connectivity, and application services. MEAO MEC Application Orchestrator is a crucial component in the 5G architecture, enabling the efficient delivery of low-latency, high-bandwidth applications to end-users.

MEC is a technology that extends cloud computing capabilities to the edge of the network. By moving the computing resources closer to the end-users, MEC reduces the latency and improves the overall performance of the applications. MEC provides a distributed computing environment that enables the execution of applications at the edge of the network, close to the end-users.

The MEAO MEC Application Orchestrator is responsible for the deployment, management, and orchestration of applications in the MEC environment. The orchestrator provides a set of APIs that enable the integration of various applications and services into the MEC environment. The platform abstracts the underlying network infrastructure, including computing resources, network connectivity, and application services, enabling the applications to be deployed and managed seamlessly.

MEAO MEC Application Orchestrator Architecture

The MEAO MEC Application Orchestrator architecture consists of three layers:

1. Application Layer - The application layer is the topmost layer in the MEAO MEC Application Orchestrator architecture. It is responsible for managing the applications and services deployed in the MEC environment. The application layer provides a set of APIs that enable the deployment and management of applications and services. The application layer interacts with the lower layers to access the underlying computing resources and network services.
2. Orchestration Layer - The orchestration layer is the middle layer in the MEAO MEC Application Orchestrator architecture. It is responsible for the orchestration of the MEC environment. The orchestration layer provides a set of APIs that enable the management of the computing resources, network connectivity, and application services. The orchestration layer interacts with the infrastructure layer to allocate the necessary computing resources and network services for the applications.
3. Infrastructure Layer - The infrastructure layer is the bottom layer in the MEAO MEC Application Orchestrator architecture. It is responsible for managing the computing resources and network services. The infrastructure layer provides a set of APIs that enable the management of the computing resources and network services. The infrastructure layer interacts with the orchestration layer to allocate the necessary computing resources and network services for the applications.

MEAO MEC Application Orchestrator Components

The MEAO MEC Application Orchestrator consists of several components that enable the deployment, management, and orchestration of applications in the MEC environment. The components include:

1. Application Manager - The Application Manager is responsible for managing the applications and services deployed in the MEC environment. The Application Manager provides a set of APIs that enable the deployment and management of applications and services.
2. Orchestration Manager - The Orchestration Manager is responsible for the orchestration of the MEC environment. The Orchestration Manager provides a set of APIs that enable the management of the computing resources, network connectivity, and application services.
3. Infrastructure Manager - The Infrastructure Manager is responsible for managing the computing resources and network services. The Infrastructure Manager provides a set of APIs that enable the management of the computing resources and network services.
4. Application Repository - The Application Repository is a central repository that stores the applications and services deployed in the MEC environment. The Application Repository provides a set of APIs that enable the deployment and management of applications and services.
5. Resource Manager - The Resource Manager is responsible for managing the computing resources and network services allocated to the applications in the MEC environment. The Resource Manager provides a set of APIs that enable the allocation, monitoring, and scaling of the computing resources and network services.
6. Service Manager - The Service Manager is responsible for managing the application services deployed in the MEC environment. The Service Manager provides a set of APIs that enable the deployment, management, and orchestration of application services.
7. Network Function Virtualization (NFV) Manager - The NFV Manager is responsible for managing the virtualized network functions deployed in the MEC environment. The NFV Manager provides a set of APIs that enable the deployment, management, and orchestration of virtualized network functions.

MEAO MEC Application Orchestrator Workflow

The MEAO MEC Application Orchestrator workflow consists of the following steps:

1. Application Deployment - The Application Manager deploys the application to the MEC environment by interacting with the Application Repository.
2. Resource Allocation - The Orchestration Manager allocates the necessary computing resources and network services for the application by interacting with the Resource Manager.
3. Service Deployment - The Service Manager deploys the application services to the MEC environment by interacting with the NFV Manager.
4. Application Orchestration - The Orchestration Manager orchestrates the application by monitoring the computing resources and network services allocated to the application.
5. Application Scaling - The Resource Manager scales the computing resources and network services allocated to the application based on the application workload.

MEAO MEC Application Orchestrator Use Cases

The MEAO MEC Application Orchestrator workflow consists of the following steps:

1. Application Deployment - The Application Manager deploys the application to the MEC environment by interacting with the Application Repository.
2. Resource Allocation - The Orchestration Manager allocates the necessary computing resources and network services for the application by interacting with the Resource Manager.
3. Service Deployment - The Service Manager deploys the application services to the MEC environment by interacting with the NFV Manager.
4. Application Orchestration - The Orchestration Manager orchestrates the application by monitoring the computing resources and network services allocated to the application.
5. Application Scaling - The Resource Manager scales the computing resources and network services allocated to the application based on the application workload.

MEAO MEC Application Orchestrator Use Cases

MEAO MEC Application Orchestrator can be used in various use cases, including:

1. Smart Manufacturing - MEAO MEC Application Orchestrator can be used to deploy, manage, and orchestrate applications in smart manufacturing environments. The platform can enable the efficient delivery of low-latency, high-bandwidth applications to end-users, improving the overall performance of the manufacturing process.
2. Augmented Reality - MEAO MEC Application Orchestrator can be used to deploy, manage, and orchestrate augmented reality applications at the edge of the network. The platform can enable the efficient delivery of low-latency, high-bandwidth applications to end-users, improving the overall performance of the augmented reality applications.
3. Smart Grid - MEAO MEC Application Orchestrator can be used to deploy, manage, and orchestrate applications in smart grid environments. The platform can enable the efficient delivery of low-latency, high-bandwidth applications to end-users, improving the overall performance of the smart grid system.
4. Autonomous Vehicles - MEAO MEC Application Orchestrator can be used to deploy, manage, and orchestrate applications in autonomous vehicle environments. The platform can enable the efficient delivery of low-latency, high-bandwidth applications to end-users, improving the overall performance of the autonomous vehicle systems.

Conclusion

MEAO MEC Application Orchestrator is a critical component in the 5G architecture, enabling the efficient delivery of low-latency, high-bandwidth applications to end-users. The platform provides a unified view of the network infrastructure, including computing resources, network connectivity, and application services, enabling the applications to be deployed and managed seamlessly. The MEAO MEC Application Orchestrator architecture consists of three layers, including the Application Layer, Orchestration Layer, and Infrastructure Layer. The platform includes several components, including the Application Manager, Orchestration Manager, Infrastructure Manager, Application Repository, Resource Manager, Service Manager, and NFV Manager. MEAO MEC Application Orchestrator can be used in various use cases, including smart manufacturing, augmented reality, smart grid, and autonomous vehicles.