Radio Relay Monitoring and Management

Solution Group

Industry

Network Management
Information Technology

PoC Duration

Iotellect Match

2-5 days
AI powered Low Code IoT/IIoT Platform

Control and monitor critical radio relay links from a single interface. Gain real-time insights into performance, connectivity, and power status across distributed infrastructure. Leverage advanced analytics to optimize operations, reduce downtime, and ensure reliable communications. Reduce manual interventions freeing up technical staff on higher-value tasks. Design and build an in-house solution or a market-oriented service.

Iotellect is a low code IoT/IIoT development platform. It does not work as an out-of-the-box solution or product. Instead, it helps you to monetize your IoT know-how by dramatically lowering labor costs and cutting time-to-market for your product, service, or solution. It allows business-oriented IoT professionals to join the development process by converting their IoT market knowledge directly into product features and specific value delivered to your end customers.

Build Your IoT Application

Connect Your

Radio Relay Monitoring and Management Devices

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Environmental sensors
(temperature, humidity, light, air quality, etc.)
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Microwave radio links
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Satellite communication equipment
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Cellular base stations
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Radio frequency transceivers
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Repeaters and signal boosters
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Power systems
(generators, batteries, solar panels)
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Access control and security systems
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Signal analyzers
  • Support for industry-standard protocols (Modbus, SNMP) for seamless integration with various radio relay network devices (e.g., microwave radios, antennas)
  • Device drivers translate data from diverse vendor-specific protocols into a unified data model for simplified management and monitoring
  • Edge-side agents normalize data on devices like repeaters and signal boosters, optimizing bandwidth usage before sending it to the server
  • Remote configuration capabilities allow administrators to manage settings (frequency, modulation, power) and updates on radio equipment from a central interface
  • Real-time link status monitoring to ensure connectivity and performance of microwave links without manual checks, providing immediate alerts for outages
  • Granular access control for secure management of network elements, allowing restricted access based on user roles and responsibilities
  • Network security appliances like firewalls and intrusion detection systems are continuously monitored for activity and potential threats specific to radio networks
  • Spectrum analyzers integrated into the network are monitored for interference detection and frequency allocation optimization

Connectivity and Management

  • Low-code integration with existing Network Management Systems (NMS) simplifies the management of radio relay networks alongside other network infrastructure
  • Custom driver development kit (DDK) facilitates the connection of proprietary radio equipment and specialized antenna systems
  • Direct cloud integration via MQTT to synchronize link performance data to cloud platforms (AWS, Azure) for advanced analytics and reporting
  • Low-code connectors link remote configuration tools with vendor-specific firmware update platforms, streamlining updates across radio devices
  • Integration with predictive maintenance software through REST APIs allows analysis of radio equipment performance metrics to forecast potential failures
  • Low code connectors help incorporate network security appliances into the radio network management system for unified security monitoring
  • Flexibility to integrate radio link monitoring with enterprise resource planning (ERP) systems to track asset utilization and optimize maintenance schedules
  • Supports southbound integrations with legacy SCADA systems overseeing microwave link infrastructure, allowing continued utilization of older equipment

Integration

  • Statistical Process Control captures time-series data from radio link performance metrics, identifying anomalies in signal quality, latency, and error rates
  • Predictive maintenance analytics assess performance data (e.g., Received Signal Strength Indicator (RSSI), modulation error ratio) to predict equipment failure before it occurs
  • Advanced alerting systems trigger real-time notifications based on custom conditions (e.g., signal degradation, link outage) developed with the low-code expression language
  • Data trend analysis optimizes link performance by dynamically adjusting parameters like modulation and power based on historical and real-time conditions
  • Machine learning algorithms predict link outages by analyzing historical performance data and weather patterns, enabling proactive maintenance
  • Remote monitoring tools correlate performance metrics of individual links with overall network reliability to identify bottlenecks and optimize traffic routing
  • Link availability statistics are automatically calculated to measure network uptime and identify areas for improvement
  • Spectrum analysis data is used to identify sources of interference and optimize frequency allocation for improved link performance

Analytics

  • Web-based designer enables creation of responsive dashboards showing real-time performance metrics of radio links on map-based layouts, visualizing network topology
  • Drag-and-drop GUI Builder provides tools for designing custom interactive interfaces for managing radio equipment and monitoring link performance
  • Configurable dashboards offer visualization of link status, signal quality, and other critical parameters using dynamic gauge components and geographical maps
  • Real-time alarms with visual indicators enable operators to quickly respond to link outages, interference events, and equipment failures
  • Centralized management console facilitates batch operations on multiple radio devices simultaneously, such as configuring frequencies or deploying firmware updates
  • Each UI component can be customized to display specific radio link data (e.g., RSSI, modulation, error rate) providing contextual insights at a glance
  • Role-based access ensures that different user groups (administrators, field technicians, network engineers) have tailored interfaces aligned with their responsibilities

UI/UX

Key Features
of Your Radio Relay Monitoring and Management Solution

Customers and Partners

  • System Integrators
  • Original Device Manufacturers
  • Independent Software Vendors
  • Managed Service Providers
  • Telecommunication Companies
  • Network Infrastructure Providers

Solution Users and Developers

  • Dedicated low code developers
  • IoT/IIoT hardware developers
  • Network operation specialists
  • Telecommunications infrastructure engineers
Customer success team
Community
Online training

Assistance