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flowchart LR
A["SDN Architecture<br/>Fundamentals"] --> B["SDN OpenFlow<br/>Protocol"]
B --> C["SDN IoT<br/>Applications"]
C --> D["SDN Data Centers<br/>& Security"]
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style B fill:#2C3E50,stroke:#16A085,color:#fff
style C fill:#16A085,stroke:#2C3E50,color:#fff
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276 Software-Defined Networking (SDN) for IoT
276.1 Overview
Software-Defined Networking (SDN) revolutionizes network architecture by decoupling the control plane (decision-making) from the data plane (packet forwarding). This separation enables centralized, programmable network management - particularly valuable for IoT where diverse devices, dynamic topologies, and application-specific requirements demand flexible networking.
This chapter is organized into four focused sections:
276.2 Chapter Sections
276.2.1 1. SDN Architecture Fundamentals
~3,500 words | Intermediate
Learn the core concepts of SDN architecture:
- Control plane and data plane separation
- The three-layer SDN model (Application, Control, Data)
- Limitations of traditional networks
- Why SDN matters for IoT deployments
- Northbound and southbound APIs
276.2.2 2. SDN OpenFlow Protocol
~3,000 words | Advanced
Deep dive into the OpenFlow protocol:
- OpenFlow switch components (flow tables, group tables, meter tables)
- Flow table entry structure (match fields, actions, timeouts)
- OpenFlow message types (FLOW_MOD, PACKET_IN, etc.)
- TCAM limitations and rule placement challenges
- Controller placement strategies (centralized, distributed, hierarchical)
276.2.3 3. SDN IoT Applications
~3,000 words | Intermediate
Apply SDN to IoT environments:
- SDN benefits for IoT (intelligent routing, network slicing, security)
- Software-Defined WSN (Sensor OpenFlow, Soft-WSN, SDN-WISE)
- Mobile SDN (ODIN, Ubi-Flow, Mobi-Flow)
- Energy-aware routing for battery-powered devices
- Mobility prediction and proactive flow placement
276.2.4 4. SDN Data Centers and Security
~3,500 words | Advanced
SDN for data centers and security monitoring:
- Flow classification (mice vs elephant flows)
- Traffic engineering and load balancing
- Anomaly detection with flow monitoring
- Common pitfalls (single controller SPOF, flow table overflow)
- Worked example: Microservices vs Monolith architecture decisions
276.3 Learning Path
276.4 Key Concepts Preview
| Concept | Description |
|---|---|
| Control Plane | Centralized intelligence for routing decisions |
| Data Plane | Distributed forwarding infrastructure |
| OpenFlow | Protocol for controller-switch communication |
| Flow Table | Match-action rules stored in switches |
| Network Slicing | Logical networks with custom QoS per application |
| SD-WSN | SDN principles applied to wireless sensor networks |
276.5 Quick Reference
When to use SDN for IoT:
- Managing thousands of heterogeneous devices
- Dynamic topology changes (mobile devices, failures)
- Application-specific QoS requirements
- Centralized security policy enforcement
- Energy-aware routing for battery-powered devices
SDN Controller Options:
| Controller | Language | Best For |
|---|---|---|
| OpenDaylight | Java | Enterprise, modular |
| ONOS | Java | Carrier-grade, HA |
| Ryu | Python | Development, learning |
| Floodlight | Java | Performance |
276.6 Start Learning
Recommended order: Begin with SDN Architecture Fundamentals for core concepts, then proceed through the chapters sequentially.
Already familiar with SDN basics? Jump directly to SDN IoT Applications for IoT-specific implementations.
276.7 Whatβs Next?
After completing all SDN chapters, continue to explore related architecture topics: