![]() All the nodes are intended to connect to these Application Servers in which the Helium Network supports them. After all these layers, The last layer is the Application Layer Server which is the final destination of all the nodes. The distributed network supports multiple Network Servers which are the centralized components in the architecture. Device Communication passes through all the layers and is routed up to their specific Network Server. They collectively maintain and run a Blockchain. a Peer to Peer Network in which a number of computers are connected to each other and have an equal amount of responsibility in maintaining the Network. The miners connect altogether over a P2P Network i.e. There are a total of 30 versions of this, Out of which, Version number 17 is solely dedicated to the Incentivization and related process. Helium Improvement Protocol which you can access from over here. The procedure for deciding the amount is noted in HIP i.e. These HNT's goes into the wallet of the miner's owner and can be redeemed in the form of money. The miners support the device by connecting them to the Application Server and in return to that, the network rewards the miner with Helium's native cryptocurrency i.e. A miner is a LoRaWAN based device that provides coverage to the LoRa nodes in their range. A miner is a lightweight device that can run on a Raspberry Pi and can be deployed simply at home. A Hotspot is a LoRaWAN gateway associated with a miner. The Helium Network is created by hotspots. The ultimate power of Proof-of-Coverage lies in the fact that the data generated by the ongoing proofs and stored in the Helium blockchain is definitive verification of the wireless coverage provided by Hotspots on the Network. The blockchain is constantly interrogating Hotspots using a mechanism known as a “PoC Challenge” using these properties.
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