Long distance & indoor coverage
Superior penetration versus Wi-Fi or BLE, sustaining RSSI/SNR even in cleanrooms and stainless-steel areas.
LoRaWAN GxP network
Visibility and continuous monitoring for your entire facility
Multi-vendor sensors, dedicated gateways per area or floor, and compliant data flows. We deliver resilient coverage, interoperable devices, and validated integrations for regulated environments.
- Robust indoor coverage with gateway per floor and controlled RSSI/SNR margins.
- GxP-grade compliance with audit trails, validation artifacts, and data integrity end-to-end.
- Scale to hundreds of sensors with multi-year batteries and adaptive ADR settings.
Why LoRaWAN?
Clear advantages for critical and auditable environments
LoRaWAN delivers reach, autonomy, interoperability, and security that surpass proprietary alternatives. See why regulated leaders are migrating now.
Batteries that last for years
Low airtime, ADR, and adaptive data rate extend field life and reduce maintenance rounds.
True scalability
A single gateway can serve hundreds of devices per sub-band without sacrificing latency or reliability.
Open interoperability
A global standard with certified sensors and gateways from many vendors—no vendor lock-in.
Lower total cost
Fewer cables, no per-point license, and shared gateways cut TCO dramatically.
Configurable downlinks
Remote configuration, command execution, and time sync without sending technicians to the field.
Measure everything
Total sensor flexibility for every utility in your plant
Choose certified sensors or integrate legacy signals. Our network absorbs any industrial variable, turning data into anticipation and continuous compliance.
Temperature, humidity, differential pressure
Continuous monitoring for cleanrooms, critical zones, and cold chambers with granular alarms.
Vibration and machine condition
LoRaWAN sensors for predictive maintenance, RMS velocity, and spectrum to anticipate failures.
Current, voltage, and energy
LoRaWAN CTs for UPS, chillers, boilers, and critical panels with load and quality alarms.
CO₂, VOCs, particulates, and noise
High-precision air quality sensing for production areas, labs, and warehouses.
Doors, presence, level, and flow
Sensors for logistics, warehouses, and utilities with pulse counting and continuous telemetry.
4–20 mA, Modbus, dry contact
Edge gateways convert analog or digital signals into LoRaWAN, preserving legacy investments.
How it works
Architecture in three simple steps — from sensor to MES
1) LoRaWAN sensors
Certified sensors send encrypted data with ADR enabled, cutting airtime and optimizing spreading factors.
2) Gateways per floor/area
Gateways installed per floor secure the backhaul. Opportunistic downlinks ensure commands and precise time sync.
3) Network server and APIs
Our LoRa Network Server (LNS) deduplicates packets, persists checksums, and delivers data by webhook, REST, or MQTT into MES, historians, and BI.
Turnkey deployment
We implement end-to-end — planning, gateways, sensors, and validation
Our team executes a turnkey project: coverage survey, gateway installation, sensor commissioning, and full documentation of infrastructure validation.
01
Kick-off & regulatory planning
Joint definition of critical variables, compliance scope, and detailed project plan aligned with GxP guidelines.
02
Coverage survey & design
On-site LoRaWAN survey with RSSI/SNR mapping, gateway placement, and bill of materials for sensors and power.
03
Gateway & sensor installation
Physical installation, commissioning, and OT segmentation; sensors are provisioned with naming, tags, and calibration data.
04
Validation & documentation
Coverage report, infrastructure validation (IQ/OQ/PQ), and evidence packages ready for audits.
Timeline
From first survey to validated network in weeks
Typical projects close in 4–8 weeks, depending on facility size and validation depth.
01
Average duration
4–8 weeks
02
Gateways installed
2–6 per site
03
Sensors onboarded
30–200 devices
01
Week 1 — Kick-off & compliance mapping
QA, IT, and OT align scope, URS, and validation deliverables.
02
Weeks 2–3 — Coverage survey & design
RF walk test, gateway counts, and bill of materials closed.
03
Weeks 3–5 — Installation & commissioning
Gateways energized, sensors provisioned, alarms and dashboards live.
04
Weeks 5–8 — Validation & handover
IQ/OQ/PQ executed, evidence pack delivered, monitoring in steady state.
Benchmark
LoRaWAN NEOSENSOR.NET vs proprietary wireless solutions
Compare the strategic capabilities. The open LoRaWAN standard removes lock-in risks and accelerates ROI.
| Criteria | LoRaWAN (NEOSENSOR.NET) | Proprietary solutions |
|---|---|---|
| Sensor/vendor interoperability | ✓ Open standard, many certified vendors | ✕ Restricted catalog, vendor lock-in |
| Indoor coverage and penetration | ✓ Gateways per floor, controlled RSSI/SNR | ✕ Variable, needs proprietary access points |
| Battery autonomy | ✓ Multi-year with ADR and duty-cycle control | ✕ Shorter life, frequent visits |
| Total cost of ownership | ✓ No per-point license, shared gateways | ✕ Proprietary licensing and dedicated hardware |
| Scalability | ✓ Hundreds of devices per gateway | ✕ Depends on vendor limitations |
| Open standard & community | ✓ Open-source LNS, large ecosystem | ✕ Closed source, closed roadmap |
| Flexibility | ✓ Any variable (4–20 mA, Modbus, IoT) | ✕ Limited catalog of sensors |
| Continuity | ✓ No lock-in, easy migration | ✕ High risk if vendor discontinues |
| Security | ✓ AES128 LoRaWAN + TLS backend | ✕ Depends on vendor implementation |
| Integration | ✓ Webhook, REST, MQTT, common drivers | ✕ Closed SDKs, extra fees |
GxP, security & reliability
Designed for audits, validations, and uninterrupted operations
NEOSENSOR.NET follows GAMP 5, FDA 21 CFR Part 11, and ANVISA guidance with complete CSV documentation.
Comprehensive audit trails
Configuration versioning, signed logs, and change evidence ready for inspections.
Data integrity ensured
Checksums, collection and reception timestamps, plus automatic packet reconciliation.
High availability
Redundant gateways, HA server/database, and 24/7 monitoring with multichannel alerts.
Segmentation & encryption
Segregated networks, TLS end-to-end, OTAA/ABP key management, and logical tenant separation.
Full validation/CSV support
IQ/OQ/PQ documentation, coverage maps with RSSI/SNR, and inspection-ready reports.
Use cases
Tangible results across regulated and mission-critical sectors
Pharmaceutical plants
Fewer batch discards, stability alarms, and reports ready for GMP audits.
Food & beverage
Traceable cold chain, real-time temperature and CO₂, HACCP compliance guaranteed.
Data centers & IT
Thermal and energy monitoring with UPS alarms, technical rooms, and critical panels.
Logistics & cold chain
Real-time tracking of docks, chambers, and vehicles with proactive WhatsApp/SMS alerts.
Utilities & infrastructure
Monitor boilers, steam, water, and power on a single network to anticipate downtime and waste.
Testimonials
Feedback from regulated operations
Placeholder for real testimonials that reinforce ROI, compliance, and deployment speed.
“In 90 days we covered three buildings with multi-vendor sensors and eliminated losses due to temperature deviations.”
“We integrated LoRaWAN with our MES via MQTT in less than two weeks while keeping IQ/OQ intact.”
“We cut maintenance visits by 40% using multi-year vibration and energy sensors.”
Clients
Documented ROI
Studies show payback in 6–12 months thanks to loss reduction, predictive maintenance, and continuous compliance.
Request ROI studyFAQ
Frequently asked questions
Clarify interoperability, stainless-steel coverage, integrations, and security topics.
Can I mix sensors from different brands?
Absolutely. LoRaWAN is an open standard. We homologate multiple vendors while keeping GxP adherence, including updated IQ/OQ per vendor.
What if the environment has stainless-steel walls?
We run a coverage survey measuring RSSI/SNR and position gateways per floor/area to guarantee the required margins even in stainless-steel environments.
What RSSI/SNR target do you follow?
We aim for RSSI ≥ -115 dBm and SNR ≥ -7 dB to ensure safety margins and effective ADR, adjusting antennas and power after validation.
How do I integrate with MES, historians, or Power BI?
We provide REST APIs, webhooks, and MQTT topics. There are ready-to-use drivers for OPC/SCADA historians and connectors for Power BI.
Is server backup/high availability supported?
Yes. We offer HA options with redundant instances, automated backups, and monitored failover.
How is security handled (OTAA, keys, TLS)?
We use OTAA with secure key rotation, TLS end-to-end, tenant segmentation, and provide provisioning logs for audit review.
Ready to measure everything with GxP compliance?
Book a guided demo and receive a complimentary coverage and ROI assessment tailored to your facility.
You will receive:
- ✓ Coverage diagnosis with RSSI/SNR map and recommended gateways per area.
- ✓ ROI estimate covering loss reduction, predictive maintenance, and energy optimization.
- ✓ GxP validation guide (IQ/OQ/PQ) and checklists for inspections.