Network Concepts

Efficiency and Traffic Optimization

DaaS dynamically selects the most efficient channel based on cost and capacity. Data is organized into globally identified blocks, reducing traffic by up to 80%. If a channel fails, data is fragmented, buffered across nodes, and reassembled at the destination, ensuring continuity and reliability.

Addressing & Channelling

Nodes are identified by SID (System Identifier) for the network and DIN (DaaS Identifier Node) for uniqueness. Communication occurs through logical channels with security mechanisms independent of underlying layers. Routing dynamically chooses paths based on efficiency and cost, enabling robust connectivity.

Self Synchronization

The DaaS technology extends the flexibility of mesh networks by introducing an additional variable: the heterogeneity of transport technologies.
In a traditional wireless mesh network, the topology is flexible because each node can act as a router, enabling indirect communication between nodes that are not directly connected.
With DaaS, each node not only performs routing functions but also acts as a multi-technology gateway, enabling communication between nodes using different communication interfaces.
A DaaS-based mesh network allows point-to-point connections between nodes through heterogeneous transport technologies.
For example: from node A to node B via Wi-Fi, from node B to node C via LoRaNet, and so on.

Nodes communicate via direct links or through other nodes that forward packets across network segments. This mesh design guarantees resilience and avoids single points of failure. Nodes act as autonomous agents executing adaptive logic to maintain optimal conditions, supporting dynamic protocol switching for IoT and distributed systems.

DaaS implements global time synchronization: nodes align to a common “network time” within a defined tolerance. This supports real-time flows and manages variable latency by ensuring minimal interaction delays (“bubble time”).
The nodes act as receivers and transmitters to exchange data necessary for performing drift and offset compensation of the system timer. The exchanged data allows calculation of the correction factors to be applied in order to align local time with network time.
With dATS, it is possible to achieve accurate clock synchronization across multiple devices even in the presence of significant communication delays.

Security and Dynamic Configuration

Protection mechanisms are programmable and layer-independent. Active nodes can be reconfigured in real time through a process that aligns security, routing, and timing across the entire network.

Operational data from all nodes converges into DaaS-Admin, a Network Information Centre that provides visibility and management of network status and evolution.