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docs/lectures/acn/02_MANET_and_DTN.md

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+# Mobile Ad Hoc Networks (MANETs)
+
+* An infrastructure-less network formed by mobile wireless nodes
+* Nodes in MANET can communicate via single or multi-hop approach (due to absence of centralised network infrastructure)
+* Nodes operate as clients, routers and servers at the same time to forward packets
+* The mobility of nodes results in frequent and unpredictable changes in network topology
+
+One of the core features of a MANET node is the ability to autonomously connect to other nodes and configure itself for data transmission over the network.
+
+
+#### MANET Routing
+
+* Mobile wireless nodes create a temporary connection between them to forward data
+* Because some nodes may not be cooperative or faulty, they may drop/compromise packets
+* Typically routing is split into **route discovery** and **actual data transmission**.
+  * Nodes have to self organise in order to route.
+
+![img](/lectures/acn/img/d.png)
+
+(green boxes is route chosen)
+
+The source has a limited range of nodes it can detect, it cannot send it direct to the destination as it doesn't know where the destination is. Hops are decided by communication protocols.
+
+#### Proactive MANETs
+
+* Also known as table driven routing protocol
+* Nodes in the network maintain a comprehensive routing information of the network
+  * This is done by spreading network status information to nodes and tracking changes in network topology - think the network is constantly pinged
+  * These status updates can slow the network with the traffic
+* Useful if the network is not that large
+
+#### Reactive MANETs
+
+* Also known as on-demand routing
+* Network nodes only store information of paths to destination nodes
+* Nodes delay the search for routes to new destinations in order to reduce communication overheads
+  * i.e. if a route is found between A and B, this route will be stored and not recalculated
+* May be slower, as a shorter path may not be used
+
+#### Hybrid MANETs
+
+* Hybrid protocols combine the advantages of proactive and reactive protocols to reduce traffic overheads and route discovery delays
+
+Table showing all different protocols of MANETs
+
+![img](/lectures/acn/img/e.png)
+
+### Delay/Disconnection Tolerance
+
+Traditional MANET routing protocols like DSR and AODV (both reactive) cannot work in intermittent infrastructure-less environments because they require a complete path from source to destination for communication.
+
+* Messages get dropped at intermediate nodes when the link to the next hop is none existent in MANETs
+* DTNs expand MANETs to allow more intermittent and sparse connections of nodes caused by node mobility or low transmission  range.
+
+#### Store-carry-forward Paradigm
+
+* DTN routing protocols allow forwarding of messages by using a 'store-carry-forward' approach.
+  * messages are stored by nodes and moved in hops throughout the network until messages reach their destination
+  * This approach is used by DTN routing protocols to increase the probability of message delivery.
+
+#### DTN Protocol Classifications
+
+##### Flooding based
+
+* Flooding based routing protocols spread a message and have multiple copies of the message in the network. 
+* This is done to increase the probability of messages reaching their destination and also decrease the time of delivery
+
+##### Forwarding based
+
+* Forwarding based routing protocols gather information about the nodes in a network to select the best path to forward messages with the aim of enhancing message delivery networks with limited resources.