• Asset management CMMS

    Industrial ASSET management enters a new era. Machines will provide information on their current, past and future condition and degradation. Automated condition and risk based maintenance scheduling and early equipment maintenance will be standard.

    OpenICM provides a full scale vertical and modular solution for managing your assets throughout their entire life cycle.

    Completeintegration from shop floor to board
    Modularonly pay for use
    SaaSno installation needed
    Scalableapplicable & affordable for one men show up to enterprise level
    Knowledge richfull of ready made models, templates and root causes to get you started

    OpenICM brings together operations, maintenance, suppliers and knowledge owners in order to find an optimal balance between costs, performance and risks. That;s way OpenICM not only provides scheduling but also OEE, FMECA and inventory management functionalities.

    Why invest in asset management?

    Asset management will make all the difference. Depending on the maturity and value chain, the benefits are clear and more effective than production focused improvement programs.

    Food for Though
    Ever wondered why we all tolerate production loss knowing that millions are waisted while investing a same amount would have prevented even more…”

    Optimal effect through vertical integration

    UVS Offers an integral solution from SENSOR up to STATEGIC level dash boarding.

    In this way company goals (KPI’s) on each level can be aligned and bench marked against real actions, budgets, goals and availability.

    To bring together IT and OT environments, UVS provides “IIoT Engine”, this solution enables communication between IIoT devices and OpenICM or any Third party software.

    OpenICM puts continuous improvement into practice. All modules are designed to improve future actions, advice and planning.


    Overall performance and risks. Planning for new investments. Market positioning and liability. Resource management.

    • Dashboards
    • Quality reporting
    • OEE


    Are assets and resources available, what risks are we taking, do we need budget. Optimize balance between costs and risks.

    • Material management
    • Resource management
    • FMECA
    • P&L Planning


    Does operational and maintenance schedules align. Which priorities do I set, What resources do I commit.

    • Task planning
    • Asset state report
    • Permits


    Asset technical and performance information. Permits and procedures to follow. Scheduling tasks, materials and tools.

    • Documents
    • Assets information
    • Instructions & Procedures

    Easy integration

    Data logging & processing

    Your control systems collects a wealth of information, however this information is only available for a few seconds and used to control and monitor your system. Via EVDL you are able to log, analyze and store data from your control system and put it to purpose of predictive maintenance.


    So it’s a datalogger? Well no, the EVDL is much more than that... besides logging data (up to 1 Tb) from virtually any control system, the EVDL is able to do (real-time) complex calculation and make analyses on datasets to predict degradation or error situations.

    Why is this so special? Because degradation occurs over longer periods in time. The device is capable to find trends and situation that might cause system failure. Besides long term analyses it also does real-time FFT and RMS value analyses.

    EVDL combines complex tasks with ease of configuration and programming. The device can be linked to 3th party maintenance system or just any (custom) (cloud based) application.

    Download EVDL flyer
    • Web interface for configuration & visualization
    • Ethernet interface
    • Native Siemens S7 communication
    • OPC-UA client communication
    • 32Gb internal flash memory
    • Backup battery which enables full operation for at least 5 days without external power supply
    • 9 - 24 VDC powersupply required
    • Configuration via Bluetooth LE

    Options Most common application of the EDVL is to place the EDVL inside an existing control cabinet.

    The EDVL has an IP50 qualification hence should be protected. UVS offers standard enclosures including powersupply, wall mount, cable glands and antenna throughput.

    Local Analyses

    Why should you use up all your bandwidth to transfer RAW data for analyses to your local server? With OpenICM, analyses function are device on your local computer and processing is done locally. This saved a lot of data communication and analyses is done while not even connected to a network.

    Typical configuration

    Typically the EVDL will be connected the a PLC where data is extracted via the native data communication protocol. For this no alteration of the PLC programming or configuration will be necessary. Communication between EDL and PLC is one way, so the EVDL cannot alter anything inside the PLC is it only reading data.

    To overcome security issues and change in the existing IT infrastructure, the EVDL sends data via 3G connection to the desired server or host platform.

    ERL sensor units can be connected via HF (High speed Fieldbus) or private LoRa / WiFi to the EVDL and so contribute to the data collection.

    Easy setup & monitoring

    An EVDL can be configured via web interface or Bluetooth LE. Via the Android APP you will be able to configure but also monitor and retrieve data.

    The built-in Bluetooth connector enables local (10 meters max.) configuration and readout via smartphone, tablet or laptop. Field service engineers are able to access logging data, machine documents and maintenance history data.

  • Data technology

    Data becomes increasingly important in every day life and businesses. @ UVS we focus on data collection, processing and analyses especially for Predictive Maintenance. Because there are fundamental differences between operational real-time system control and maintenance measurements we briefly explain.


    • Span & Offset detection
    • Adaptive to circumstances
    • Degradation detection
    • Configurable
    • Local readout
    • Abnormal measurements
    • Continuous
    • High reliability
    • High absolute precision


    • Context
    • Degradation in time
    • Autonomic detection of situations
    • Discrimination in circumstances
    • Predict failure
    • Time relative degradation
    • Interval measurement
    • High (relative) resolution