Teleproject

One platform for distributed infrastructure.

Track-TP is built for organizations that run distributed, mission-critical infrastructure, where downtime is not an option and sites are spread over long distances. Telecom and radio networks, power systems, professional radios, RF detectors, and IoT sensors all converge on the same real-time platform, all managed from the control-room video walls.

Use cases

Six sectors, one monitoring platform.

From radio equipment to environmental sensors, Track-TP covers the areas Teleproject works in every day. Each scenario feeds its own metrics and alarms into the same real-time dashboard.

  • Radio networks

    Radio equipment, repeaters, and microwave links in a single view. Track-TP detects signal loss on repeaters, keeps the status of microwave links under control, and verifies that VoIP servers and consoles stay online.

    • SNMP
    • syslog
    • ICMP
  • Power and energy

    Power systems stay under control with continuous UPS monitoring: load current, voltage, temperature, and status, with an alarm before the problem becomes an outage.

    • SNMP (RFC 1628)
    • Modbus TCP
    • IEC 60870-5-104
    • DNP3
  • Public safety

    Repeater channels and professional radios are monitored down to the individual channel, with a dedicated alarm, so the control room and field communications stay operational.

    • SNMP
    • trap SNMP
    • syslog
  • Environmental monitoring

    LoRaWAN environmental sensors (temperature, humidity, CO₂, pressure, light, ultrasonic distance) feed into the platform with alarm thresholds and a history of readings.

    • LoRaWAN
    • webhook ChirpStack
    • SNMP
  • IoT and connected infrastructure

    LoRaWAN sensors enter Track-TP through ChirpStack: battery level, signal quality, and readings sit alongside everything else, with no need for a separate IoT tool.

    • LoRaWAN
    • MQTT
    • API REST
  • Network equipment

    The same site often hosts network, power, radio, and transmission equipment from different manufacturers. Track-TP monitors them all through several protocols and groups them by site, region, or function, for a simpler read.

    • SNMP v1/v2c/v3
    • syslog
    • HTTP
Infrastructure

From tunnels to viaducts.

Real deployment scenarios: sensors and equipment spread across tunnels, highways, mission-critical networks, bridges, and viaducts, all monitored on Track-TP.

  • 01

    Tunnels

    Illustration: a road tunnel with sensors linked by radio to a gateway
    Illustration: a rail tunnel with sensors linked by radio to a gateway
    • Gateway
    • CO₂
    • Light sensor
    • Vibration sensor
    • Distance sensor
    In road and rail tunnels, CO₂, light, vibration, and distance sensors transmit their readings by radio to the gateway, which sends them to Track-TP: the values from each sensor are readable in real time.
  • 02

    Highways and service areas

    Illustration: a highway and service area with environmental and traffic sensors
    • Tank-level sensor
    • Asphalt-temperature sensor
    • Parking sensor
    • Light sensor
    • Waste-level sensor
    • CO₂ sensor
    • Vehicle-count sensor
    • Weather station
    • Soil sensor
    • Solar-radiation sensors
    Along highways and in service areas, readings from dozens of sensors converge on the same platform: tank levels, asphalt temperature, solar radiation, weather data, vehicle counts, and light.
  • 03

    Mission-critical networks

    Illustration: a highway toll station and microwave links connecting via SNMP to Track-TP
    • SNMP link to Track-TP
    At toll stations and along the highway network, radio equipment and technical cabinets connect via SNMP to Track-TP: the status, alarms, and telemetry of each site converge on a single platform.
  • 04

    Viaducts

    Illustration: a viaduct with LoRaWAN sensors on the piers and a gateway receiving the data
    • Vibration sensor
    • Tilt sensor
    • LoRaWAN unit
    • Strain gauge
    • Crack meter
    • Gateway
    Battery-powered LoRaWAN sensors installed along the span transmit their measurements at 868 MHz to the gateway; the gateway sends the data to Track-TP, which stays accessible from a browser on PC and smartphone.
  • 05

    Bridges in urban settings

    Illustration: a suspension bridge and a railway bridge in a city with structural sensors connected to Track-TP
    • Weather station
    • Temperature sensor
    • Load cell
    • Accelerometer
    • Structural sensor
    • Water-level sensor
    • Strain gauge
    • Level meter
    • Inclinometer
    On suspension and railway bridges in cities, load cells, accelerometers, strain gauges, inclinometers, and water-level sensors keep towers, spans, and piers under control; the data feeds into Track-TP together with the weather-station data.
Everything on one map

Every site and device on a single map.

Every site in an installation sits on the same map, from the control center to the most isolated tunnel. You move from the overview to the individual device and see at once where action is needed.

  • Markers by typeeach device has its own icon and shows its own status
  • Geofencesareas of interest drawn as circles on the map
  • Routes between sitesthe links between sites drawn as lines on the map
  • Several map themeslight theme, dark, and more, full-page or as a widget
Track-TP · real-time site map
Track-TP, interactive map with the real-time status of monitored telecom sites
Remote and unmanned sites

A platform built for the shelters no one is watching.

Tunnels, masts, and remote installations have no operator on site. Track-TP shows them all on a map, keeps them under control in real time, and sends the alarm in the configured ways the moment an anomaly appears.

Illustration: an unmanned technical room with rack cabinets

Map-centered view

Every shelter, mast, and remote installation is a marker on the map: open Track-TP and see at once which sites are online and which are in alarm, without hunting through a list.

Geofences and routes

You can draw geofences around areas of interest and routes between sites, to organize work across a wide territory.

Multi-channel alarms

When an unmanned site goes into alarm, the notification goes out at once via Email, Telegram, WhatsApp, SNMP trap, and app, so the on-call staff are alerted wherever they are.

SNMP agent for your NOC

A built-in SNMP agent lets the NOC read device status and alarms directly from Track-TP, which then sits alongside the supervision system already in use. See the integrations.

Let’s talk about your network

Your whole infrastructure under control. In a single platform.

We start from your scenario, map the devices and sensors to supervise together, size any LoRaWAN network, and choose between cloud and on-premises. Design, installation, and technical support handled directly by Teleproject.