Click to enlarge
Firewall Router Server Case with 6 Intel 2.5G LAN Ports - GAOTek
Back to products
LoRaWAN for Remote Sensing - Cloud, Server, PC and Mobile Systems

LoRaWAN for Field Mapping – Cloud, Server, PC and Mobile Systems

Explore LoRaWAN-powered field mapping systems for real-time, scalable monitoring of large areas for agriculture, environmental, and industrial applications.

Add to quote
SKU: GAOTek-LRWCS-102 Category:
Description

Description

Overview of Field Mapping Using LoRaWAN

Field mapping systems utilizing LoRaWAN (Long Range Wide Area Network) offer an advanced method for collecting and transmitting geospatial data in real-time. These systems are particularly effective for monitoring large or remote areas, thanks to LoRaWAN’s low-power, long-range communication capabilities. Field mapping applications often involve the deployment of various IoT sensors across a landscape to gather data such as soil moisture, temperature, or asset location. LoRaWAN enables these sensors to send data over several kilometers, even in challenging environments, with minimal power consumption. This makes it ideal for agricultural, environmental, and industrial applications where consistent, wide-area coverage is essential. By integrating LoRaWAN with field mapping systems, organizations can achieve scalable, cost-effective monitoring and management of extensive areas.

 

Applications in Field Mapping Using LoRaWAN

  1. Agricultural field mapping
  2. Soil moisture monitoring for field mapping
  3. Precision farming field mapping
  4. Crop health monitoring in field mapping
  5. Field boundary mapping
  6. Irrigation field mapping
  7. Pesticide application mapping
  8. Field mapping for terrain analysis
  9. Field mapping for crop yield prediction
  10. Dronebased field mapping
  11. Field mapping for weed detection
  12. Field mapping for land surveying
  13. Field mapping for vegetation index calculation
  14. Water resource field mapping
  15. Field mapping for environmental monitoring
  16. Livestock movement tracking in field mapping
  17. Field mapping for flood risk assessment
  18. Field mapping for land use planning
  19. Climate data field mapping
  20. Field mapping for reforestation projects
  21. Field mapping for soil nutrient analysis
  22. Satellite data integration in field mapping
  23. Field mapping for biodiversity assessment
  24. Urban planning field mapping
  25. Field mapping for resource management
  26. Field mapping for disaster risk reduction
  27. Field mapping for soil erosion monitoring
  28. Field mapping for greenhouse gas monitoring
  29. Remote sensing in field mapping
  30. Field mapping for habitat restoration
  31. Field mapping for agricultural supply chain management

Technical Specifications of GAO Tek Field Mapping Using LoRaWAN

LoRaWAN End Devices in Field Mapping Systems

In field mapping systems using LoRaWAN, end devices play a crucial role in collecting and transmitting data across large or remote areas. These end devices are typically IoT sensors that gather specific types of environmental, agricultural, or geospatial data. They can be attached to various objects or locations depending on the field mapping task.

For agricultural field mapping, sensors might be attached to crops, soil, or equipment to monitor parameters like soil moisture, temperature, and humidity. In environmental field mapping, end devices can be deployed on trees, water bodies, or embedded in the ground to track factors such as air quality, water levels, or wildlife movement.

The attachment method varies based on the application and environment. For instance, soil sensors might be buried to measure moisture content at different depths, while temperature and humidity sensors could be mounted on poles or affixed to plants. In the case of asset tracking within field mapping, end devices are attached to movable assets like tractors or livestock, using clamps, straps, or even integrated directly into the asset.

LoRaWAN end devices are designed to be energy-efficient, often powered by batteries or solar panels, enabling them to operate for extended periods without maintenance. They transmit data to LoRaWAN gateways, which then relay the information to a central server for analysis. This setup allows for real-time, scalable monitoring of vast areas, making Field Mapping systems using LoRaWAN highly effective for a wide range of industries.

LoRaWAN Gateways in Field Mapping Systems

In Field Mapping systems, LoRaWAN gateways serve as the central nodes that collect data from various end devices and transmit it to a central server for processing. The strategic installation of these gateways is essential for ensuring robust and reliable data transmission across large and often remote areas.

LoRaWAN gateways are typically installed in elevated or central locations within the field mapping area to maximize coverage. This could include mounting the gateways on existing structures like towers, rooftops, or poles, or installing dedicated masts. In agricultural field mapping, for example, gateways might be placed at the edge of fields or on farm buildings to cover the entire area. In environmental monitoring, gateways could be positioned on hilltops or other high ground to ensure clear line-of-sight communication with end devices scattered across forests, water bodies, or other natural landscapes.

The number and placement of gateways in a Field Mapping system depend on the size of the area being monitored and the density of the end devices. A single gateway can cover several kilometers in open terrain, but in more complex environments like urban areas or dense forests, additional gateways may be required to maintain reliable communication.

To ensure continuous operation, LoRaWAN gateways in Field Mapping systems are often powered by mains electricity, though in remote locations, solar panels with battery backup are commonly used. Proper installation and maintenance of these gateways are critical to the overall performance and effectiveness of the field mapping system, enabling consistent, real-time data collection across wide areas.

Cloud Systems

GAO LoRaWAN Cloud Systems consist of the following parts:

GAO LoRaWAN Gateways and End Devices 

GAO Cloud Services Engine

Cloud Infrastructure, LoRaWAN Middleware, Data Analytics and Business Intelligence, and Security Measures.

Integration APIs

APIs enable seamless integration between the LoRaWAN solution and existing field mapping systems such as POS, inventory management, and e-commerce platforms, allowing for data exchange and synchronization.

 

Server, PC & Mobile Systems

GAO Server, PC & Mobile BLE or RFID Systems are composed of

LoRaWAN Gateways, and LoRaWAN End Devices

GAO Server, PC & Mobile Software Engine for LoRaWAN

Servers, PCs, Mobile Computing Devices and Infrastructure, Middleware Software, and Database Management System.

Integration with Field Mapping Systems

The server, PC, and mobile solution integrates with existing field mapping systems such as inventory management, point-of-sale (POS), and enterprise resource planning (ERP) systems. Integration is achieved through APIs, database connections, or middleware adapters, enabling seamless data exchange and synchronization.