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Smart Measurement Services

Spectrum Monitoring & Surveillance

Whether you need long-term frequency monitoring of critical radio services, temporary monitoring of special events, direction finding and localization of interferers or evidence of illegal spectrum use – we offer flexible solutions for long-term monitoring, direction finding and antenna measurements.

Our automated spectrum monitoring, direction finding and geolocation system LS OBSERVER offers a comprehensive portfolio of remote monitoring units (RMUs) which are controlled by the powerful central monitoring software (CMS). The RMUs are available as fixed, portable, mobile, or flying units.

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Phone: +1 (301) 377 6966
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Key features and advantages of the LS OBSERVER monitoring system

Benefit from our know-how

Each LS OBSERVER remote monitoring unit (RMU), whether if it is portable or fixed, includes the same major internal parts.

Did you know?
The internal storage of the RMU is sufficient to store up 4 weeks of raw data and up to 2 years of compressed data, depending on the receiver settings.

Depending on the required frequency range and application, different antenna and receiver options are available. The 318w version captures the widest total frequency range from 9 kHz up to 18 GHz. Further dual receiver options are available where the RMU is equipped with two completely independent working receivers for parallel tasking (e.g. direction finding and wide-band monitoring in parallel). With the powerful embedded computer, all data procession is done directly on the RMU without the need to transfer big data packets like IQ data to a remote operator. The RMU is able to autonomously run different tasks like a permanent comparison of the measured spectrum with a reference spectrum in order to detect interference, non-compliant or faulty emitters automatically. Each RMU has a large embedded storage to permanently record an ultra-wide frequency range. In comparison to recording on a remote server, this has the great advantage that you do not need a permanent network connection. Even if the connection is unstable or the data rate is low no measurements will be lost, everything is stored directly on the RMU for a later analysis. The operator can easily download exactly the data he needs from the RMU storage thanks to the comprehensive filter functionalities of the CMS software. While for traditional systems all measurements need to be performed live, LS OBSERVER offers multiple features to analyze stored data. With the unique DF Time Travel® feature, even direction finding and emitter localization can be done subsequently based on stored data. In addition, the RMU automatically calculates and stores a noise-free version of the raw data provided by the receiver. This compressed data format needs less storage space and gives the operator a fast overview of the signal scenario as well as SNR values. Based on this, a third data format is calculated by the RMU, the frequency channel occupancy (FCO) data. This data type provides a detailed overview of the occupancy over time for different channels, which can be used as the basis for spectrum policy decisions. The integrated modem in the RMU manages the network connection. The RMU can either be connected wired via Gigabit Ethernet to a network, or can be connected wireless via 3G/4G. The network communication is based on TCP/IP and thus many wired and wireless communication networks (e.g. the public internet secured via VPN) can be used. The RMUs can either be directly controlled locally with the CMS software or remotely via the network. The remote control can not only be done from a control center but also form one portable device. This allows an operator in the file to control other networked RMUs decentrally to e.g. triangulate an emitter.

LS OBSERVER takes over the 24/7 permanent monitoring for you. It monitors your entire frequency range of interest and automatically alarms you in case of anomalies. Parallel to this everything is continuously recorded and can be analyzed in detail later. Of course you can still perform monitoring live and control the units manually.

The LS OBSERVER CMS software stands for its user-friendliness and easy handling.  The operation of the software is intuitive: The amount of buttons and input fields are reduced to a minimum, the views and menus are clearly arranged.

Storage concept
Each LS OBSERVER remote monitoring unit (RMU) includes its own large embedded storage space. The complete spectrum of interest or a part of it can be permanently recorded to the internal storage without having to transfer data to a remote server.
By this the RMU can be also operated stand-alone or in a network with unstable connection. The stored data can simply be downloaded from the unit remotely or by plugging in a laptop. With the LS OBSERVER CMS the user has multiple possibilities to filter the recorded data sets in order to download exactly the data he needs for his analysis.

Analysis on stored data
With LS OBSERVER every measurement and analysis which can be done live can also be done based on stored data. With the unique DF Time Travel® and PDoA feature even direction finding and emitter geolocation becomes possible on stored data. Was there interference during the night and where did it came from? You will never know with traditional monitoring systems, if you do not have a high number of employees available who take care of the monitoring 24/7. With LS OBSERVER you can simply analyze the recorded measurement the next morning in the office and locate the interfering signal source subsequently.

Transmitter database integration
To detect unknown emitters, interference or faulty transmitters it is essential that the monitoring system knows about the nominal condition of the wireless environment. This means the system knows all authorized transmitters i.e. their location, frequency, power and bandwidth. For a national regulatory authority this can be all transmitters from the spectrum management database, for an airport or industrial company all radio infrastructure on the corresponding premises and for the military all radio channels used by their own forces. Such a database of known or licensed transmitters can be connected to the LS OBSERVER CMS software or a transmitter list can be imported. The automatic violation (AVD) feature then permanently compares the measured spectrum with the theoretical spectrum and triggers an alarm in case of anomalies.

Unique features
LS OBSERVER offers a wide range of unique features. With the automatic violation detection (AVD), the measured spectrum is permanently compared with a transmitter database. Based on the distance to the transmitter the monitoring unit receives the signal with a different level. To set up a mask for each known transmitter individually for each monitoring unit means an enormous effort. With LS OBSERVER the included wave propagation feature calculates for each monitoring unit in the filed the individual expected receive levels at the location of the unit automatically. The wave propagation module is also used for PDoA geolocation calculations where the power differences of an emission received at different locations is taken to locate the emission source. Without considering wave propagation as well as terrain and clutter data this method would be imprecise. The AOA 100 DF antenna system offers several unique features like direction finding based on stored data with the DF Time Travel® technology as well as co-channel signal resolution with the multi-spot heatmap feature.

Permanent innovations
LS OBSERVER lives from its permanent innovations in software as well as hardware. New requirements from the market as well as individual suggestions from customers form the input for our agile development.

With its comprehensive hardware portfolio and various software add-ons LS OBSERVER addresses many different customer groups. Depending on your requirements and use-cases we find the perfect LS OBSERVER hardware and software set-up for you. Our customer groups are structured as follows:

Analysis based on stored dataAutomatic Violation Detection (AVD)Channel analysis
Constellation diagramDemodulationDF Time Travel
Direction findingFixed frequency modeFrequency channel occupancy (FCO)
GeolocationHomingITU signal parameter measurements
MarkerMeasurement chartNetwork management
Noise-free dataPower difference of arrival (PDoA)Recording
Remote controlRights managementScan mode
Time difference of arrival (TDoA)Waterfall displayWave propagation calculation

More about the LS OBSERVER monitoring system

Cost-effective antenna measurements using remotely piloted aircraft

Determine in an easy, quick, and cost-efficient way the true radio frequency radiation characteristics of your TETRA base station using remotely piloted aircraft (RPA)

The remotely piloted aircraft (RPA) technology is adapted to carry a measurement sensor, high-resolution position and orientation sensors, an autopilot, a high-powered processor and storage unit and a telemetry system. The measurement and navigational data is stored on board and streamed to the ground control station in real time.

The RPA flies semi-remote controlled and in accordance with a pre-programmed flight path. Several safety features are built into the system amongst which is a ‘return to take-off point’ in the unlikely event of failure. Software for data analysis completes the system solution.

The technology determines the horizontal and vertical antenna radiation pattern as well as radiated power. You can identify faulty antennas and installation errors immediately. The measured antenna diagrams can be used in planning tools for the simulation and optimization of network coverage.

More about RPA Measurements of the LS telcom subsidiary Colibrex

Summary of our measurement activities

Our services at a glance

Planning and implementation of measurement stations, measurement vehicles and nationwide monitoring networks

Spectrum monitoring of critical radio services, for special events, large scale operations and critical places

Long-term monitoring

Evidence of illegal spectrum use

Direction finding for localization of interferers and illegal emissions

Verification measurements of base stations via remotely piloted aircraft

Electromagnetic compatibility (EMC) measurements

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