Media Node
Media Nodes route and manage audio, video, and data streams. These nodes are the core components of the dRTC Network. They handle encoding, decoding,
Media Node
Media Nodes route and manage audio, video, and data streams. These nodes are the core components of the dRTC Network. They handle encoding, decoding,
Media Node
Media Nodes route and manage audio, video, and data streams. These nodes are the core components of the dRTC Network. They handle encoding, decoding,
Media Node
Media Nodes route and manage audio, video, and data streams. These nodes are the core components of the dRTC Network. They handle encoding, decoding,
Every Media Node contains the following modules:
Every Media Node contains the following modules:
Every Media Node contains the following modules:
Every Media Node contains the following modules:
Media Engine
It runs the Selective Forwarding Unit (SFU), which manages WebRTC connections and routes media packets.
Media Engine
It runs the Selective Forwarding Unit (SFU), which manages WebRTC connections and routes media packets.
Media Engine
It runs the Selective Forwarding Unit (SFU), which manages WebRTC connections and routes media packets.
Media Engine
It runs the Selective Forwarding Unit (SFU), which manages WebRTC connections and routes media packets.
RPC Module
It handles communication between the Media Node and the Orchestrator. Media Nodes act as workers, following the instructions from the Orchestrator.
RPC Module
It handles communication between the Media Node and the Orchestrator. Media Nodes act as workers, following the instructions from the Orchestrator.
RPC Module
It handles communication between the Media Node and the Orchestrator. Media Nodes act as workers, following the instructions from the Orchestrator.
RPC Module
It handles communication between the Media Node and the Orchestrator. Media Nodes act as workers, following the instructions from the Orchestrator.
Registry Module
It Manages communication with the Registry Network. Media Nodes advertise their available resources and capabilities to the network when ready to participate.
Registry Module
It Manages communication with the Registry Network. Media Nodes advertise their available resources and capabilities to the network when ready to participate.
Registry Module
It Manages communication with the Registry Network. Media Nodes advertise their available resources and capabilities to the network when ready to participate.
Registry Module
It Manages communication with the Registry Network. Media Nodes advertise their available resources and capabilities to the network when ready to participate.
QOS Module
It oversees the Quality of Service, ensuring the Media Node delivers resources as advertised to the network.
QOS Module
It oversees the Quality of Service, ensuring the Media Node delivers resources as advertised to the network.
QOS Module
It oversees the Quality of Service, ensuring the Media Node delivers resources as advertised to the network.
QOS Module
It oversees the Quality of Service, ensuring the Media Node delivers resources as advertised to the network.
A single Media Node may encounter bandwidth and compute limitations as the number of meeting participants increases. To resolve this, Orchestrators can distribute workloads across Media Nodes, effectively reducing CPU and bandwidth requirements on one node, scaling workload across multiple nodes. This process is referred to as Cascading.
A single Media Node may encounter bandwidth and compute limitations as the number of meeting participants increases. To resolve this, Orchestrators can distribute workloads across Media Nodes, effectively reducing CPU and bandwidth requirements on one node, scaling workload across multiple nodes. This process is referred to as Cascading.
A single Media Node may encounter bandwidth and compute limitations as the number of meeting participants increases. To resolve this, Orchestrators can distribute workloads across Media Nodes, effectively reducing CPU and bandwidth requirements on one node, scaling workload across multiple nodes. This process is referred to as Cascading.
A single Media Node may encounter bandwidth and compute limitations as the number of meeting participants increases. To resolve this, Orchestrators can distribute workloads across Media Nodes, effectively reducing CPU and bandwidth requirements on one node, scaling workload across multiple nodes. This process is referred to as Cascading.
