QUADSAT Showcases Drone-Based Electronic Warfare at SatShow 2026

QUADSAT Showcases Drone-Based Electronic Warfare at SatShow 2026

At Satellite 2026, the QUADSAT team will demonstrate how drone-based Electronic Support and Electronic Attack systems convert spectrum data into operational outputs across the full sequence from detection through execution. Modern military effectiveness depends on timely detection, rapid response, and informed decision-making within the electromagnetic spectrum. QUADSAT’s payloads and software are developed for operations in this environment. They support discreet RF detection and the ability to apply effects against priority RF systems. Recent conflicts highlight the operational relevance of unmanned platforms and electromagnetic activities in shaping outcomes, particularly where adaptability and responsiveness are required.

Current electronic warfare capabilities are largely based on ground systems or crewed aircraft. Ground-based assets are limited by terrain and line-of-sight, while crewed missions involve high cost and increased risk in contested areas. These constraints reduce coverage, persistence, and operational flexibility. As a result, defence forces face challenges in collecting spectrum intelligence efficiently, increasing the need for unmanned, scalable, and adaptable electromagnetic spectrum operations capabilities.

QUADSAT Capability Overview

QUADSAT provides drone-based Electronic Support (ES) and Electronic Attack (EA) capabilities using unmanned platforms. Deploying electronic warfare systems on drones increases sensor altitude, extending radio line-of-sight and enabling long-range detection and geolocation of RF emitters over distances of several hundred kilometres. The systems support RF detection, classification, and geolocation, producing spectrum data for targeting, situational awareness, and mission planning.

Operational Use

QUADSAT systems are in active service and have been deployed in high-threat environments. In Ukraine, QUADSAT worked with a drone manufacturer to implement a distributed, unmanned sensor-to-shooter workflow, integrating RF sensing with downstream operational effects.

SpectraLoc Payload and Software

The SpectraLoc payload and associated software provide rapid detection and localization of RF interference in contested environments. The system uses passive sensing techniques with a low probability of detection. These capabilities support timely and accurate spectrum awareness for defence systems that depend on reliable RF operation.

Operational Workflow

  1. Detect: A drone equipped with the SpectraLoc Electronic Support payload scans the electromagnetic spectrum to identify potential RF emitters.
  2. Fix and Confirm: Once an emitter is identified, the system determines its location and cues a second drone fitted with a high-resolution optical sensor to conduct visual confirmation.
  3. Apply Effect: A third unmanned platform delivers the assigned effect against the confirmed target, such as disabling air defence systems or other priority RF emitters.

This approach enables a cost-effective and rapidly deployable method for supporting operations in contested airspace and maintaining freedom of maneuver. Suppression of Enemy Air Defences (SEAD) refers to military actions intended to reduce or neutralize adversary air defence capabilities, including radar systems and surface-to-air missiles. SEAD activities may involve physical engagement or electronic measures designed to disrupt, degrade, or deceive air defence systems while minimizing risk to aircrews and ground forces.

To learn how spectrum control is achieved in contested operational environments, visit the QUADSAT booth (719) in the GovMilSpace hall. The team is showcasing how drone-based Electronic Support and Electronic Attack systems convert spectrum data into operational outputs across the full sequence from detection through execution.

Click here to learn more about SATShow 2026

Publisher: SatNow
Tags:-  SatelliteSATCOMGroundRadar

GNSS Constellations - A list of all GNSS satellites by constellations

beidou

Satellite NameOrbit Date
BeiDou-3 G4Geostationary Orbit (GEO)17 May, 2023
BeiDou-3 G2Geostationary Orbit (GEO)09 Mar, 2020
Compass-IGSO7Inclined Geosynchronous Orbit (IGSO)09 Feb, 2020
BeiDou-3 M19Medium Earth Orbit (MEO)16 Dec, 2019
BeiDou-3 M20Medium Earth Orbit (MEO)16 Dec, 2019
BeiDou-3 M21Medium Earth Orbit (MEO)23 Nov, 2019
BeiDou-3 M22Medium Earth Orbit (MEO)23 Nov, 2019
BeiDou-3 I3Inclined Geosynchronous Orbit (IGSO)04 Nov, 2019
BeiDou-3 M23Medium Earth Orbit (MEO)22 Sep, 2019
BeiDou-3 M24Medium Earth Orbit (MEO)22 Sep, 2019

galileo

Satellite NameOrbit Date
GSAT0223MEO - Near-Circular05 Dec, 2021
GSAT0224MEO - Near-Circular05 Dec, 2021
GSAT0219MEO - Near-Circular25 Jul, 2018
GSAT0220MEO - Near-Circular25 Jul, 2018
GSAT0221MEO - Near-Circular25 Jul, 2018
GSAT0222MEO - Near-Circular25 Jul, 2018
GSAT0215MEO - Near-Circular12 Dec, 2017
GSAT0216MEO - Near-Circular12 Dec, 2017
GSAT0217MEO - Near-Circular12 Dec, 2017
GSAT0218MEO - Near-Circular12 Dec, 2017

glonass

Satellite NameOrbit Date
Kosmos 2569--07 Aug, 2023
Kosmos 2564--28 Nov, 2022
Kosmos 2559--10 Oct, 2022
Kosmos 2557--07 Jul, 2022
Kosmos 2547--25 Oct, 2020
Kosmos 2545--16 Mar, 2020
Kosmos 2544--11 Dec, 2019
Kosmos 2534--27 May, 2019
Kosmos 2529--03 Nov, 2018
Kosmos 2527--16 Jun, 2018

gps

Satellite NameOrbit Date
Navstar 82Medium Earth Orbit19 Jan, 2023
Navstar 81Medium Earth Orbit17 Jun, 2021
Navstar 78Medium Earth Orbit22 Aug, 2019
Navstar 77Medium Earth Orbit23 Dec, 2018
Navstar 76Medium Earth Orbit05 Feb, 2016
Navstar 75Medium Earth Orbit31 Oct, 2015
Navstar 74Medium Earth Orbit15 Jul, 2015
Navstar 73Medium Earth Orbit25 Mar, 2015
Navstar 72Medium Earth Orbit29 Oct, 2014
Navstar 71Medium Earth Orbit02 Aug, 2014

irnss

Satellite NameOrbit Date
NVS-01Geostationary Orbit (GEO)29 May, 2023
IRNSS-1IInclined Geosynchronous Orbit (IGSO)12 Apr, 2018
IRNSS-1HSub Geosynchronous Transfer Orbit (Sub-GTO)31 Aug, 2017
IRNSS-1GGeostationary Orbit (GEO)28 Apr, 2016
IRNSS-1FGeostationary Orbit (GEO)10 Mar, 2016
IRNSS-1EGeosynchronous Orbit (IGSO)20 Jan, 2016
IRNSS-1DInclined Geosynchronous Orbit (IGSO)28 Mar, 2015
IRNSS-1CGeostationary Orbit (GEO)16 Oct, 2014
IRNSS-1BInclined Geosynchronous Orbit (IGSO)04 Apr, 2014
IRNSS-1AInclined Geosynchronous Orbit (IGSO)01 Jul, 2013
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