✨ Interactive Demo

How Wave RF Works

Our intelligent routing engine seamlessly switches between protocols in real-time, ensuring your devices always stay connected.

1

Enable Mediums

Select which communication mediums are available on your device

2

Set Distance

Adjust the distance between sender and receiver

3

Test Failures

Disable infrastructure to see automatic failover in action

Use the controls below to simulate different connectivity scenarios and see how Wave RF adapts automatically.

Distance

Sender ↔ Receiver5.0km
50m1km100km20,000km

💡 Tip: Click the distance to type an exact value (e.g., "500m" or "2.5km")

Enabled Mediums

Infrastructure

Active Communication Paths

5 direct paths, 3 relay paths available

⚡ Using relay to extend range beyond direct connection limits

Sender
Relay
WiFi Router
Cell Tower
Satellite
Internet
LoRa® (Direct)OPTIMAL
Receiver
About Relay Paths: Your device connects to a nearby relay device which forwards the message using its available transmission mediums. The relay intelligently chooses between direct transmission to the recipient or another relay (free, if in range) or internet-based forwarding (for longer distances).

Path Comparison

WiFi Network (Internet)
Latency
20-50ms
Cost
Free
Reliability
93%

Via router to internet

LoRa® (Direct)
BEST
Latency
200-500ms
Cost
Free
Reliability
88%

Long-range peer-to-peer

CBRS
Latency
50-100ms
Cost
$0.05/MB
Reliability
90%

Private LTE network

Cellular
Latency
30-80ms
Cost
$0.05/MB
Reliability
94%

Global cellular network

Satellite
Latency
500-1000ms
Cost
$0.05/KB
Reliability
85%

Global satellite coverage

BLE → Relay
Latency
Varies
Cost
Relay-dependent
Reliability
85%

BLE to nearby relay, uses best available relay method

WiFi → Relay
Latency
Varies
Cost
Relay-dependent
Reliability
87%

WiFi to nearby relay, uses best available relay method

LoRa® → Relay
Latency
Varies
Cost
Relay-dependent
Reliability
84%

LoRa to nearby relay, uses best available relay method

Disclaimer: This is a highly simplified model for demonstration purposes and does not include all available mediums or protocols. Actual costs, reliability, latency, and range will vary.

Why It Matters

Built for the real world where connectivity isn't perfect. Wave RF adapts automatically.

Automatic Failover

When one path fails, we instantly switch to the next best option. No manual intervention, no data loss, no downtime.

  • <100ms switching
  • Zero packet loss
  • Transparent to users

Guaranteed Delivery

Our hardware and cloud buffer packets until delivery is confirmed. Even if all paths go down temporarily, we'll deliver when they return.

  • Hardware buffering
  • Cloud redundancy
  • Delivery receipts

Cost Optimization

We automatically choose the most cost-effective path that meets your QoS requirements. Save up to 90% on satellite costs.

  • Dynamic pricing
  • QoS aware
  • Usage analytics

Real-World Scenarios

See how Wave RF handles actual connectivity challenges in production environments.

Use Case

Natural Disaster Response

Scenario

Cell towers are destroyed by earthquake

Wave RF Solution

Automatically routes through satellite, continues operation with zero downtime

Use Case

High-Altitude Balloon

Scenario

Weather balloon at 30km altitude

Wave RF Solution

LoRa® for local data, switches to satellite when out of range, seamless handoff

Use Case

Maritime Vessel

Scenario

Ship leaves cellular coverage area

Wave RF Solution

Smooth transition from cellular to satellite as distance increases

Use Case

Urban IoT Mesh

Scenario

Thousands of sensors in city

Wave RF Solution

BLE/WiFi for nearby devices, CBRS for longer range, cellular as backup

Ready to Eliminate Downtime?

Join the future of connectivity with Wave RF's intelligent routing platform.