Topic: Unmanned/Remote Systems

Navy develops tactical unmanned aircraft capability

This article has photo gallery Published on by Mr James McPherson (author), Schiebel (photographer)

The Schiebel S-100 Camcopter has been acquired by the Royal Australian Navy to support trials and evaluation activities to reduce risks ahead of acquiring a permanent unmanned aircraft system capability in the early 2020s. (photo: Schiebel)

The Schiebel S-100 Camcopter has been acquired by the Royal Australian Navy to support trials and evaluation activities to reduce risks ahead of acquiring a permanent unmanned aircraft system capability in the early 2020s.

The next phase of introducing an unmanned aircraft system capability to the Royal Australian Navy has progressed. 

ScanEagle soars in Christmas Island trials

This article has photo gallery Published on by LEUT Patrick McGuire (author), Unknown (photographer)

ScanEagle Unmanned Aircraft System, with Visual Detection and Ranging (or ViDAR) set up to launch at Christmas Island Airport (photo: Unknown)

ScanEagle Unmanned Aircraft System, with Visual Detection and Ranging (or ViDAR) set up to launch at Christmas Island Airport

A team from the Navy Unmanned Aircraft Systems Unit have deployed to Christmas Island to test their ability to conduct long term Unmanned Aircraft System operations without support.

Busy time for Newcastle testing UAV capability

Published on by Department of Defence (author), Unknown (photographer)

Flight Trials Unit and the Navy Unmanned Aviation Systems Unit teams who joined HMAS Newcastle to conduct first-of-class flight trials - flight operations to assess the operability of the ScanEagle system from a guided missile frigate. (photo: Unknown)

Flight Trials Unit and the Navy Unmanned Aviation Systems Unit teams who joined HMAS Newcastle to conduct first-of-class flight trials - flight operations to assess the operability of the ScanEagle system from a guided missile frigate.

The crew of HMAS Newcastle found their recent Sea Qualification Trials demanding, testing weapons and engineering systems after a lengthy maintenance period.

Scanning the skies with an eagle eye

This article has photo gallery Published on by Ms Natalie Staples (author), LEUT Marcelo Lagos (photographer)

ScanEagle UAS ready to launch for a night sortie. (photo: LEUT Lagos)

ScanEagle UAS ready to launch for a night sortie.

Navy's Unmanned Aircraft System Unit achieved a significant milestone in late March, completing the first of class flight trial for the ScanEagle.

Navy’s Midshipmen at forefront of maritime robotics

Published on by LEUT Daryl Peebles (author and photographer)

RAN Autonomous Surface and Underwater Vehicles (AMCATS) personnel at the Australian Maritime College (AMC) in Launceston, from left,  Midshipman (MIDN) Harry Hubbert, MIDN James Keane and MIDN Emily O’Brien. (photo: LEUT Daryl Peebles)

RAN Autonomous Surface and Underwater Vehicles (AMCATS) personnel at the Australian Maritime College (AMC) in Launceston, from left, Midshipman (MIDN) Harry Hubbert, MIDN James Keane and MIDN Emily O’Brien.

Three Royal Australian Navy Midshipmen studying for their Bachelor of Engineering at the Australian Maritime College in Launceston are breaking new ground in the design and application of Autonomous Surface and Underwater Vehicles.

Underwater robots used for exercise mapping

Published on by LEUT Tony White (author), CPL Jake Sims (photographer)

Defence Science and Technology Organisation engineers James Gourley (left) and Phil Jackson retrieve a Slocum Glider off the coast of Yeppoon, Queensland, as part of the buildup to Exercise TALISMAN SABRE 2013. (photo: CPL Jake Sims)

Defence Science and Technology Organisation engineers James Gourley (left) and Phil Jackson retrieve a Slocum Glider off the coast of Yeppoon, Queensland, as part of the buildup to Exercise TALISMAN SABRE 2013.

A Defence Science Technology Organisation (DSTO) team was deployed to the Exercise TALISMAN SABRE 2013 exercise area in early July to demonstrate and evaluate the potential Defence benefits of autonomous underwater vehicles (AUVs) for long duration remote sensing of the under sea environment.