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EMOE Emulator

fire — Sun, 28 Dec 2025 12:49:02 +0000

EMOE Emulator

“Electromagnetic Operational Environment Emulator” (EMOEE) is a test equipment that simulates radar operation.

The “EMOEE” evaluates the operational efficiency of RWR/ESM/ELINT and EW systems.

The “EMOEE” creates an Electro-Magnetic dense operational scenario based on the generation of multisource emitters (including HRR and FMCW Radars) using an AWG or playback by a Digital RF Memory (DRFM) a high bandwidth high-resolution recorded file of a real operational arena that includes a mixture of electromagnetic signals including Radars and communication links.

The “EMOEE” provides a real operational scenario for testing RWR/ESM/ELINT systems.

In addition, EW systems can be tested against several synthetic radar signals (generated by an AWG) or against real operational radars (a real operational arena recorded file playback by a DRFM). The RS provides a real-time Radar processing chain. The processing chain includes cross-correlation of the original Radar signal with the EA techniques provided by the tested systems, Doppler processing, and Constant Failure Alarm Rate (CFAR).

The “EMOEE” outputs include Range and Doppler profiles and a “Range Doppler” map.

The low SWAP EMOEE can be installed on various small aerial platforms for a real operational environment system performance evaluation.

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SIGINT

fire — Sun, 28 Dec 2025 12:48:51 +0000

SIGINT

Signal Intelligence systems

Our Signal Intelligence (SIGINT) systems designed for installation on a variety of aerial platforms including drones and UAVs. The systems provide situational awareness of the electromagnetic battlefield and increase the survivability of forces that might be under surveillance of enemy sensors such as RADAR etc.

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EIM More Contact us

fire — Sun, 28 Dec 2025 12:48:36 +0000

EIM More Contact us

For quick contact, please fill out the form.

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EIM More

fire — Sun, 28 Dec 2025 12:37:47 +0000

EIM More

MORE develops and manufactures a range of products that give its customers dominance in the modern electromagnetic battlefield.
The company is a global leader in developing next-generation Electronic Attack systems based on ORFM technology, representing the future of such
systems.
MORE offers a wide range of integrated electronic intelligence (ELINT) and electronic warfare (EW) products, which are implemented using unique and groundbreaking ORFM DRFM technology.

The company’s products support a variety of operational scenarios and are designed for installation on both manned and unmanned platforms.
MORE’s products have undergone extensive operational testing and proven highly effective against various relevant threats.

Challenges of Modern EW Arena – DRFM is just not enough

For EA to be effective it should always be ahead of the threat. Modern emitters utilize complex waveforms characterized by LPI capabilities such as low-power long-width (compressed) pulses as a mean of performance optimization while preventing ESM systems from intercepting their transmissions. As a result, provision of efficient EA capabilities against advanced LPI radars is challenging, particularly when generation of high fidelity echo signals with matched spectral-temporal characteristics is required.
State-of-the-art DRFM systems are challenged by the advanced emitters due to DRFM’s
Limited instantaneous BW (UWB scenario) and sensitivity
Emitter’s waveform dependent (hard to produce true Doppler-shifts)
Phase quantization distorts target’s fidelity
Limited number of overlapping targets
High latency weakens the self-defense capability

Comparison of ORFM and DRFM

The following document provides an overview and comparison of ORFM and DRFM technologies, highlighting their key differences, applications, and operational principles.

RF-Photonics for EA

Based on the advantages of RF-Photonics technology, MORE has developed efficient EA capabilities for the advanced EW scenarios. The advantage of this approach is in the direct processing of UBW RF signals, without frequency up/down conversions and sampling which are inherit drawbacks of DRFM systems. The RF-Photonics based EW systems are characterized by

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