Application: Emergency Notification (forest fire, volcano, flash flood, avalanche, tsunami)
Description
IoT sensors can deliver accurate advance notice of what is likely to be a forest fire, earthquake, volcano, flash flood, avalanche, tsunami. An IoT-aware crisis communication software solution can automatically issue the appropriate alerts.
Devices
- Environment sensors for fire, smoke, water levels, snow fall levels
KPIs
| KPI | Value | Notes |
|---|---|---|
| DL E2E Packet Latency | Moderate: < 50 ms | — |
| UL E2E Packet Latency | Moderate: 10 ms - 100 ms | — |
| E2E Packet Jitter | Sensitive (ms) | — |
| DL User Experience Data Rate (Mbps) | Low: < 10 Mbps | — |
| UL User Experience Data Rate (Mbps) | Very low: < 100 kbps | — |
| Communication Service Availability | Medium: 90 - 95% | — |
| Guaranteed Bit Rate | Delay-critical GBR | — |
| Criticality | Safety critical | — |
| Priority Service (NS/EP) | Yes | — |
| Service Continuity | Not required | — |
| Mobility | Fixed | — |
| Synchronization Precision | > 10 µs | — |
| Connection Density | Low: < 1000 | — |
| Communication Direction | One-way | — |
| Common Communication Mode | Unicast | — |
| Data Reporting Mode | Event driven | — |
| Device Type and Form Factor | > 1 applicable device type | — |
| Device Integration | > 1 applicable device integration type | — |
| Device Lifespan | Long: > 8 years | — |
| Device Power Constraints | Very limited: < 50 mW | — |
| DL E2E Packet Reliability | Moderate: < 10E-4 | — |
| UL E2E Packet Reliability | High: < 10E-6 | — |
| Survival Time | > 100 ms | — |
| Connectivity Service Area | Indoor and Outdoor | — |
| APIs | Network-based | — |
| Connectivity Type (BAN/PAN/WAN/LAN) | WAN - Cellular/LPWA/Satellite | — |
| Sidelink Connectivity | Not applicable | — |
| Sidelink Connectivity Data Rate | Not applicable | — |
| Sidelink Connectivity Latency | Not applicable | — |
| Position Accuracy | Moderate (1 m - 3 m ) | — |
| Sensing Range Resolution | Moderate (10 m - 50 m) | — |
| False Alarm (FA) | < 1 % | — |
| Missed Detection (MD) | < 1 % | — |
| Edge Computing Service | Can be beneficial | — |
| EC: Edge Compute Offload | Device <--> Edge | — |
| EC: Edge Storage Offload | Edge <--> Cloud | — |
| EC: Edge Application Enablement Services | Not required | — |
| EC: Edge Proximity | Access network edge (Cell site) | — |
| EC: Distributed and Autonomous Management of Edge Resources | Required | — |
| AI/ML Service | Required | — |
| AIML: Personalization | Not required | — |
| AIML: Training Data Security | Required | — |
| AIML: Service Location | Network (Central/Aggregation site/Cell site) | — |
| AIML: Ownership, Traceability and Accountability | Required | — |
| AIML: Incentivized/Distributed/Collaborative AI/ML | Required | — |
| Distributed Ledger Service | Required | — |
| Connectivity Subscription Provisioning | Pre-subscribed, no reprovisioning | — |
| Number of Subscriptions Supported by the Device | 1 | — |
| Connectivity Subscription Management | Local device-implemented management (maybe required in IoT without UI) | — |
| User Interface for Device Management | Power on switch only | — |
| Local Connectivity for Device Configuration and Management | Wi-Fi, Bluetooth, NFC, etc.; | — |
| Device Configuration and Customization | Required post-deployment | — |