Loko GPS Tracker — LoRa Technology
Long Range LoRa GPS Tracker
LoRa (Long Range) radio is the only wireless technology that combines kilometre-scale range, multi-year battery life, and complete independence from cellular networks. Loko is a purpose-built LoRa GPS tracker that puts all three in your pocket — with no SIM card, no subscription, and no infrastructure required.
Technology
What Is LoRa and Why Does It Make GPS Trackers Better?
LoRa stands for Long Range. It is a wireless modulation technique developed by Semtech that uses Chirp Spread Spectrum (CSS) to transmit small data payloads over distances that would be impossible for Wi-Fi, Bluetooth, or Zigbee.
The key physics: LoRa trades data rate for range and penetration. It sends data slowly — but it sends it very far and very reliably, even through walls, trees, and terrain. For GPS tracking, where position updates are small packets of data sent every few seconds to minutes, this is an ideal match.
Why LoRa outperforms other wireless protocols for GPS tracking
Kilometre-scale distance
LoRa achieves 20+ km in open terrain. Wi-Fi covers 100m. Bluetooth covers 50m. No other licence-free radio technology comes close to LoRa's range at comparable power levels.
Ultra-low energy draw
LoRa radio consumes milliwatts during transmission and microwatts in sleep. Combined with long update intervals, Loko achieves 1-year battery life — impossible with cellular or Wi-Fi radios.
Travels through obstacles
LoRa's sub-GHz frequencies (868 MHz in EU, 915 MHz in US) penetrate vegetation, building materials, and mild terrain far better than 2.4 GHz Wi-Fi or cellular at high frequencies.
No network infrastructure
LoRa P2P communicates directly device-to-device. No cell tower, no gateway, no server, no internet connection is needed at any point in the tracking chain.
Zero operating cost
LoRa uses licence-free ISM radio bands. There are no airtime fees, no data costs, and no carrier required. Hardware cost is your only expense.
No single point of failure
A LoRa P2P link has two components: the tracker and the receiver. There is no cloud, no carrier network, no server that can go offline and break the connection.
Real-World Range
How Far Does Loko Reach? Terrain-by-Terrain
LoRa range varies significantly with terrain and the height of the Loko Ground receiver. These are real-world estimates for Loko in typical environments, with the receiver held at head height.
Elevation multiplier: Raising the Loko Ground receiver significantly extends range. A receiver on a hilltop or vehicle roof may triple effective coverage compared to ground level. In SAR and hunting scenarios, placing the receiver at elevation is the single highest-impact range improvement. Learn more on the GPS & LoRa Technology page.
Architecture
LoRa P2P vs LoRaWAN — What Loko Uses and Why
LoRa is a physical radio layer. Above it, there are two fundamentally different network architectures, and the choice defines how a GPS tracker behaves in the real world.
| Feature | LoRa P2P (Loko) | LoRaWAN |
|---|---|---|
| Infrastructure needed | None — works anywhere | Requires gateways + network server |
| Works in remote areas | ✅ Always | ⚠️ Only where gateways are deployed |
| Subscription required | None | Varies — often yes |
| Setup complexity | Power on and go | Gateway installation + server config required |
| Data latency | Direct, near real-time | Adds gateway + server hop delay |
| Single point of failure | None | Gateway + server outage stops tracking |
| Ideal for | Outdoor, remote, off-grid tracking | Fixed IoT deployments with existing infrastructure |
Loko uses LoRa P2P. This means the tracker on your animal, vehicle, or team member communicates directly with your handheld Loko Ground receiver — with no intermediate infrastructure. You can deploy Loko anywhere on Earth in seconds, with no pre-configuration and no network dependency.
For a deeper comparison of LoRa P2P and LoRaWAN architectures, read the LoRaWAN page.
Technical Parameters
LoRa Modulation Settings That Affect Range and Battery Life
LoRa has configurable modulation parameters that create a direct trade-off between range, update frequency, and power consumption. Understanding these helps you configure Loko for your specific use case.
| Parameter | Range in Loko | Effect on Performance |
|---|---|---|
| Spreading Factor (SF) | SF7 – SF12 |
Higher SF = longer range, slower update rate, more battery use per packet. SF12 gives maximum range. |
| Bandwidth (BW) | 125 kHz / 250 kHz |
Narrower bandwidth increases range and sensitivity. 125 kHz is standard for maximum range. |
| Coding Rate (CR) | 4/5 – 4/8 |
Higher CR adds forward error correction overhead, improving resilience in noisy environments at the cost of data rate. |
| Transmit Power | Up to legal regional limit | Higher TX power = longer range, faster battery drain. Loko optimises per region. |
| Update interval | Configurable in Loko app | Longer intervals dramatically extend battery life. 1-minute intervals can sustain multi-month operation. |
Full RF configuration details — frequencies, spreading factors, power levels, and GNSS parameters — are documented on the Loko Technical Specifications page.
Position Accuracy
GPS Accuracy: What LoRa Has to Do with It (Nothing)
A common misconception: LoRa radio has no effect whatsoever on GPS position accuracy. The two systems are completely independent.
GPS accuracy comes entirely from the GNSS receiver in Loko Air. Loko supports four satellite constellations simultaneously:
- GPS (US) — 31 satellites
- GLONASS (Russia) — 24 satellites
- Galileo (EU) — 30 satellites
- BeiDou (China) — 35+ satellites
Using all four constellations simultaneously gives Loko faster position acquisition (time-to-first-fix) and better accuracy, particularly in difficult environments like canyon terrain or dense canopy where only some satellites are visible.
Typical position accuracy in open sky: 2–5 metres CEP (Circular Error Probable). This is identical to any multi-constellation consumer GNSS device and is independent of which radio technology is used to transmit the position.
LoRa's role is purely transmission: it takes the GPS coordinate and delivers it to the receiver over long distances without error. LoRa uses forward error correction (the Coding Rate parameter) to ensure the position data arrives intact even in noisy radio environments.
Applications
What People Track with a Long Range LoRa GPS Tracker
Because Loko requires no infrastructure and no subscription, it fits any scenario where something needs tracking over distance in an environment without reliable cellular coverage.
Hunting & Working Dogs
Track dogs through dense forest and remote terrain where cell coverage is absent. 20+ km range means you track the entire hunt without interruption. Learn more →
Livestock & Farm Animals
Monitor cattle, sheep, and horses across large pastures with no cellular infrastructure. One receiver covers an entire property. Learn more →
Search & Rescue Teams
Real-time team positioning in wilderness environments with no cell towers. Base camp sees all field units on one offline map. Learn more →
Farm Equipment & Vehicles
Track tractors, ATVs, trailers, and tools across large properties. Useful for both location management and theft deterrence.
Expeditions & Hiking Groups
Keep a hiking group or expedition team mutually visible on a shared offline map across days of remote travel with no phone signal.
Wildlife Research & Monitoring
15g weight and 1-year battery make Loko viable for wildlife tagging and movement studies in remote habitats far from cellular networks.
Comparison
LoRa GPS Tracker vs Cellular vs Satellite — Full Comparison
There are three main technologies used in long-range GPS trackers. Each has a fundamentally different architecture with different trade-offs.
| Feature | Loko — LoRa P2P | Cellular (GSM/LTE) | Satellite (Iridium / Globalstar) |
|---|---|---|---|
| Works without cell coverage | ✅ Always | ❌ Never | ✅ Always |
| Subscription required | ✅ None | ❌ Monthly ($5–$30) | ❌ Monthly ($15–$100+) |
| Battery life | Up to 1 year | 1–5 days | Days to weeks (mode-dependent) |
| Update frequency | Configurable (seconds to minutes) | Near real-time (with coverage) | 2–10 min typical |
| Requires nearby receiver | ⚠️ Yes — within LoRa range | ✅ No — tracked globally | ✅ No — tracked globally |
| Infrastructure dependency | None | Carrier towers | Satellite network + server |
| Hardware cost | Low | Low–Medium | High ($350–$700+ per device) |
| Offline map support | ✅ Built-in | Usually no | Usually no |
| Multi-tracker on one screen | ✅ Yes, fully offline | ⚠️ Via cloud app | ⚠️ Via cloud app, high cost per unit |
| Works internationally | ✅ No roaming | ❌ Roaming fees apply | ✅ Yes (with plan) |
When LoRa wins: You are within 20km of what you are tracking, operating in areas without cellular coverage, want multi-year battery life, or need zero subscription costs across multiple trackers.
When cellular wins: You need global tracking from a fixed internet connection and the item is always within cellular coverage.
When satellite wins: You need global tracking of something in a truly remote location (open ocean, polar regions) and budget is not a primary concern.
FAQ
Common Questions About Long Range LoRa GPS Trackers
How far can a LoRa GPS tracker reach?
Loko achieves 20+ km in open terrain with clear line of sight. In urban environments or dense forest, practical range is 1–5 km. Elevating the receiver significantly extends range — placing it on a hilltop or vehicle roof can increase effective coverage area dramatically. See the GPS & LoRa Technology page for detailed propagation information.
What is a LoRa GPS tracker?
A LoRa GPS tracker combines a GNSS receiver (which determines position from satellites) with a LoRa radio transmitter (which sends that position wirelessly over long distances). Unlike cellular GPS trackers, LoRa GPS trackers do not need a SIM card or mobile network — the tracker communicates directly with a nearby receiver via radio.
Does a LoRa GPS tracker need a subscription?
Loko does not require any subscription. Because it uses LoRa radio rather than a cellular network, there are no SIM card costs, no data plan fees, and no monthly charges. You pay once for the hardware and track indefinitely. This is one of the primary advantages of LoRa over cellular tracking solutions.
What is the difference between LoRa P2P and LoRaWAN for GPS tracking?
LoRa P2P (peer-to-peer) is direct device-to-device communication — the tracker talks directly to your receiver with no infrastructure in between. LoRaWAN uses gateways and a network server, which provides broader coverage in areas where gateways are deployed, but requires that infrastructure to exist. Loko uses LoRa P2P, meaning it works anywhere with no setup beyond the two devices. Read the full comparison on the LoRaWAN page.
Is LoRa better than cellular for GPS tracking?
It depends on the application. LoRa is better when you need tracking in areas without cellular coverage, want no monthly fees, need multi-year battery life, or are tracking multiple assets without per-device subscription costs. Cellular is better when you need global reach without a receiver nearby and the tracked item stays in coverage. For outdoor, remote, and agricultural applications, LoRa almost always wins on total cost of ownership.
How accurate is a LoRa GPS tracker?
GPS accuracy in Loko comes entirely from the GNSS receiver, not the LoRa radio. Loko supports GPS, GLONASS, Galileo, and BeiDou simultaneously, giving position accuracy of approximately 2–5 metres CEP in open sky — the same as any multi-constellation GNSS device. LoRa radio transmits this position without introducing any positional error.
What factors affect LoRa GPS tracker range?
The main factors are: elevation of the receiver (more elevation = longer range), terrain (line-of-sight gives maximum range, hills and dense forest reduce it), spreading factor (higher SF = longer range but slower updates), transmit power, and antenna quality. In open terrain with an elevated receiver, Loko achieves 20+ km.
Can a LoRa GPS tracker track multiple devices at once?
Yes. Loko supports multiple Loko Air trackers connected to a single Loko Ground receiver simultaneously. All tracked positions appear on the same offline map in real time — useful for tracking a herd of animals, a team of people, or a fleet of vehicles from a single device.
Getting Started
What You Need to Start Tracking with LoRa
The Loko system is two components. No server, no SIM, no configuration.
- Loko Air — the tracker. Attach to any person, animal, or asset. At 14 g it is light enough for even small animals. Multiple units broadcast to a single receiver simultaneously.
- Loko Ground — the receiver. Carry it or mount it. Pairs with the free Loko app (iOS & Android) via Bluetooth. Download offline maps before entering the field for full off-grid operation.
Related pages: GPS & LoRa Technology Guide — Technical Specifications — LoRa vs LoRaWAN — Setup Guides
The Furthest-Reaching GPS Tracker You Can Buy.
20+ km LoRa radio range. 1-year battery. No SIM card. No subscription. Works anywhere on Earth with no setup.
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