Issue link: https://read.uberflip.com/i/1545219
5 Additional considerations: Macro-diversity planning To ensure high delivery success rates and resilience to fading or interference, macro- diversity is recommended, i.e. it is recommended that each uplink be received by at least two gateways—regardless of is it indoor or outdoor. Even co-located 8-channel indoor and outdoor gateways can improve robustness. However, macro-diversity (redundant coverage by multiple gateways) increases both CAPEX and OPEX, so it should be applied judiciously. In large-scale deployments, macro-diversity becomes crucial when aiming for higher network capacity. For small to mid-sized deployments, two-gateway coverage might only be planned for ~30% of devices, or even less, depending on density. In many typical deployments —such as a few thousand water meters—a single outdoor gateway may suffice, especially when packet retransmission is enabled. While a single outdoor gateway may be "enough" for basic coverage in low-criticality deployments, it creates a fragile architecture. A failure at that one point disrupts the entire system for all dependent devices—packet retransmissions does nothing to help in such cases. Still, fixing blind spots, by adding more gateways, naturally leads to greater diversity is valid for large and small deployments and is considered best practice to reach the 95-99% packet collection rate required by many service contracts. Careful assessment is needed to determine when the benefits of macro-diversity outweigh the additional infrastructure costs. RF modeling and site surveys Propagation modeling should be used to predict coverage and blind spot locations— especially in challenging locations like pits under iron lids (common for water meters) or deep indoor areas (as with smart electricity meters). These predictions should be validated with real- world RSSI and SNR surveys both during and after deployment. Such studies should be conducted by experienced IoT engineers to ensure accuracy and actionable outcomes. LoRaWAN relay When one device, or a small group of devices are not covered, deploying battery-operated LoRaWAN relays is a cost-effective solution. Since the relay is battery-operated, installation is greatly simplified, especially in some locations where powering a gateway is complex or not allowed. A single relay may handle up to 16 devices. LoRa Alliance ® WHITEPAPER