Partner Solutions
Selected technologies distributed and supported by Full Dragon Technology.
NeveXN
Advanced technical snowmaking technology
NeveXN introduces a new generation of technical snowmaking capable of producing “feels-like-real” snow at ambient temperatures above 0 °C.
The system is fully environmentally friendly, using no chemical additives and operating exclusively with water as the working fluid.
Based on a proprietary steam jet ejector chiller (SJEC) technology, thermal energy can be supplied by renewable sources such as solar collectors or biomass boilers — ensuring sustainable snow production even in challenging climates.
EDO Energy (EEI)
Hybrid energy storage for residential applications
EDO is a hybrid energy storage system designed for modern residential buildings.
It converts energy generated by photovoltaic systems into usable household power or stores it in an integrated battery for later use.
The system includes a backup function to supply critical loads during power outages, while the SmartESS app enables remote monitoring, control, and detailed performance statistics from anywhere.
Tech-Masters – SANI VAPOR Automatic
Automated sanitation for lift and transport systems
SANI VAPOR Automatic is the first fully automated sanitation system for lift cabins using certified saturated steam combined with an alcoholic sanitizing solution.
Operating at 4 bar pressure, the system can sanitize an 8-seater cabin in just 2–3 seconds — even at sub-zero temperatures — without interrupting passenger flow or requiring operators.
Its flexible configuration allows easy integration into existing installations with minimal adjustments.
ICAROS
Immersive fitness & rehabilitation systems
ICAROS combines physical training with immersive gamification to enhance coordination, reflexes, and core stability.
The systems simultaneously train multiple muscle groups and improve functional movement and reactivity.
Used in athletic training, rehabilitation, group classes, and home fitness environments, ICAROS enables the development of “smart muscles” through engaging and highly effective workouts.
Reference Projects
A selection of reference projects delivered by the partner companies within the Technology Through Innovation (TTI) network.
IoT-ATPMS
Automatic Tire Pressure Monitoring System
The IoT Automatic Tire Pressure Monitoring System (IoT-ATPMS) monitors pressure and temperature of conveyor tires in demanding environments such as automatic grip cable car stations, amusement rides, and industrial plants.
The system is based exclusively on industrial-grade components to ensure high reliability and long-term operational stability.
Key features:
Pressure & temperature monitoring · Industrial-grade sensors · SCADA visualization · Automatic alarm system · Local & remote access
IoT-VMS
IoT Vibration Monitoring System
The IoT Vibration Monitoring System (IoT-VMS) enables high-resolution monitoring of vibration data using a large number of distributed sensors. In addition to vibration, the system supports other sensor types such as temperature, liquid flow, and power measurement.
Sensor data can be collected from various locations and networks, independent of the transmission method, including SIM modem, Wi-Fi, optical fibre, or other communication technologies. A central Data Collector Server processes incoming data, evaluates data frames, and performs pre-processing for further analysis.
A real-time analysis module continuously supervises system health, monitors data availability, and triggers alarms in case of irregularities. A dedicated SCADA interface provides visualization of system status and operational data.
Key features:
Multi-sensor data acquisition · Flexible communication interfaces · Central data processing · Real-time monitoring & alarms · SCADA visualization
WAPDT
Wireless Safety Power & Data Transmission System
The Wireless Safety Power & Data Transmission (WAPDT) system enables remote control and monitoring of safety contacts through coil coupling technology, allowing safe switching of power supply while transmitting safety-relevant data to the control system.
The solution is designed for specialized industrial automation applications, including autonomous fleet handling, cableway installations, and amusement rides, such as monitoring and controlling cabin door status.
Building on experience from an existing RFID-based system already in operation, the WAPDT project focuses on increasing system availability and reliability. Multiple transmission concepts and application variants are currently under development.
Key features:
Wireless safety data transmission · Coil coupling technology · Industrial automation applications · High availability design · Flexible system configurations
SCADA OPC-UA
Independent SCADA Visualization via OPC-UA
This project implements an independent SCADA system operating in parallel to a main plant SCADA, enabling autonomous visualization of plant parameters without interfering with operational control systems.
Plant data is accessed through a dedicated OPC-UA server with its own database, allowing the independent SCADA to operate fully decoupled from the primary control infrastructure. This architecture enables unrestricted extensions, further developments, and secure remote access.
The solution supports web-based visualization as well as access via smartphones and tablets, providing operators with flexible and efficient tools for monitoring, control, and remote surveillance.
Key features:
Parallel independent SCADA · OPC-UA based data access · Separate database architecture · Web & mobile visualization · Secure remote access
Project by:
Pegasus Services Limited
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Supply & Trading
Consulting
Urban Transport
People Movers & Ropeways
Logistics
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Supply & Trading
Consulting
Urban Transport
People Movers & Ropeways
Logistics
Predictive Maintenance & AI Systems
Advanced diagnostics and data-driven solutions for early fault detection, system optimization, and intelligent maintenance strategies
Early Detection Maintenance System (E2DMS)
Concept
Predictive Maintenance Platform for Industrial Systems
Advanced monitoring and analysis system designed to detect early indicators of faults and enable proactive maintenance strategies based on data-driven insights.
Key features:
Predictive maintenance • Multi-sensor data fusion • Early fault detection • Trend analysis • AI-supported diagnostics
Industries:
Industrial Automation • Transport Systems • Infrastructure • Energy Systems
The system collects and correlates data such as vibration, acoustic signals, and thermal measurements to detect subtle deviations from normal operating conditions. These deviations can indicate early-stage faults that are not yet visible through conventional monitoring approaches.
By integrating data processing and analytical models, including AI-based evaluation methods, the platform enables predictive maintenance strategies that reduce downtime, improve system reliability, and optimize maintenance planning.
The system is designed as a flexible framework that can be adapted to different applications and integrated with existing monitoring and SCADA systems.
Acoustic & Thermal Monitoring Systems
Concept
Advanced Sensing Technologies for Early Fault Detection
Specialized monitoring systems using acoustic and thermal sensing technologies to detect hidden defects, structural changes, and early-stage failures in mechanical and industrial systems.
Key features:
Acoustic analysis • Thermal mapping • Passive sensing • Non-invasive monitoring • High sensitivity detection
Industries:
Industrial Systems • Transport Systems • Mechanical Systems • Energy
Examples include SPARS (Static Passive Audio Radar Subsystem) and MPARS (Motion Passive Audio Radar Subsystem), which analyze acoustic signals to detect structural anomalies, friction effects, or abnormal mechanical behavior.
The TMS (Thermal Mapping Subsystem) utilizes far-infrared sensing to monitor temperature distribution and identify irregular thermal patterns that may indicate system stress, wear, or failure risks.
These systems operate in a passive and non-invasive manner, making them suitable for applications where direct sensor installation is limited or where continuous monitoring is required without impacting system operation.
IIoT Condition Monitoring
Field tested
Vibration, Temperature & System Health Monitoring
High-resolution monitoring of vibration, temperature, and operational parameters across distributed systems. Enables early fault detection, predictive maintenance, and detailed system analysis through centralized data processing.
Key features:
Multi-sensor integration • Flexible communication (LTE, Wi-Fi, fiber) • Central data processing • Real-time alerts • SCADA visualization
Industries:
Rail Systems • APM • Industrial Plants • Airport Infrastructure
The system integrates multiple sensor types, including vibration, temperature, liquid flow, power, and other process-related signals, depending on the application requirements.
Data acquisition can be performed locally or across distributed networks, with communication via LTE, Wi-Fi, optical fibre, or existing infrastructure. A central data collector or server processes incoming data streams, enabling real-time monitoring, alarm handling, and long-term trend analysis.
The platform supports SCADA-based visualization and can be extended for predictive maintenance applications by identifying deviations, recurring patterns, and early indicators of component wear or malfunction.