MTR100: PERSEUS
Autonomous, Real-time Maritime Surveillance
The Center provided innovative concepts in the field of unmanned passive monitoring as part of the PERSEUS FP7 European project. Conventional surveillance technologies cannot easily help to detect fast boats, which generally have small radar signatures and do not carry automatic identification systems (AIS). For this reason, the NATO STO CMRE (Centre for Maritime Research and Experimentation) has addressed this problem along with other project partners, as part of the European project PERSEUS.
The PERSEUS project (Protection of European BoRders and Seas through the IntElligent Use of Surveillance), coordinated by Spanish technological company Indra, is one of the most significant initiatives within the 7th Framework Program of the European Commission, and has constituted the flagship of R&D in the maritime security segment.
In the Project’s term, ended in June 2015, CMRE scientists and engineers worked to design, develop and demonstrate at sea concepts of continuous, real-time passive underwater acoustic systems for maritime surveillance. The objectives have been successfully met by using innovative solutions integrated on board unmanned mobile platforms, i.e. both on an underwater glider (an autonomous underwater vehicle which uses shifts in mass to steer and changes in buoyancy to dive and surface) and a Wave Glider (an autonomous vehicle with a surface float and a submerged glider, generating forward movement by exploiting sea wave energy).
The embedded cutting-edge passive sonar surveillance system proved to be particularly effective due to its real-time continuous monitoring capability and the availability of several functionalities ranging from detection and localization to vessel classification. Furthermore, the platform/system combination has proven to be persistent and covert with wide area coverage and minimum environmental impact.
Real-time detections and localizations have been made both on board the underwater glider and the Wave Glider, and the detection/tracking results have been disseminated to both CMRE and national control centers for display and further analysis. Also, target classification algorithms have been applied successfully in near real-time during at-sea demonstrations.
Adaptation of the Wave Glider for shallow coastal waters has also been tested by adding low-cost add-ons for above water sensing, in the form of inexpensive daylight and thermal cameras, and radar detection devices. This technology may help enabling the detection of anomalous behaviors of marine traffic by fusing the above and the underwater picture.
CMRE has been the first to demonstrate a complete system for underwater acoustic surveillance with highly persistent mobile robots. In the future, these systems could be used within a network to continuously monitor maritime areas of interest.
The MTR100 is Marine Technology Reporter's Annual report on 100 leading companies in the subsea industry, published in the July/August 2015 edition of MTR - http://www.marinetechnologynews.com/Magazine
Other stories from August 2015 issue
Content
- Drydocks World Builds World’s Largest Turret page: 6
- MTR 100: Jebsen & Jessen Offshore Pte Ltd. page: 6
- MTR 100: UTEC Survey Inc. page: 6
- MTR 100: VideoRay page: 8
- MTR 100: Fischer Connectors page: 10
- MTR 100: Turner Designs page: 10
- MTR 100: RECAB page: 12
- Ushering in the Age of the Autonomous Workboat page: 12
- MTR 100: InterMoor Inc. page: 13
- MTR100: Sparton Corporation page: 14
- MTR100: JouBeh Technologies page: 15
- MTR100: LinkQuest Inc. page: 15
- MTR 100: Battelle page: 16
- MTR100: RJE International, Inc. page: 17
- PART I:Teledyne Marine Sensors & Systems page: 18
- MTR100: PERSEUS page: 24
- MTR100: Rowe Technologies page: 25
- MTR100: McLane Research Labs page: 25
- MTR100: EdgeTech page: 26
- MTR100: Silicon Sensing Systems Ltd. page: 26
- MTR100: QPS-US (Quality Positioning Services) page: 27
- MTR100: Novacavi page: 27
- MTR100: Ohmsett page: 28
- MTR100: CARIS page: 29
- MTR100: MMT page: 30
- MTR100: Ocean Sonic page: 31
- MTR100: Sidus Solutions page: 31
- MTR100: Kongsberg Maritime page: 32
- MTR100: Venture into the Norwegian Subsea Valley page: 34
- MTR100: 2G Robotics page: 39
- MTR100: Teledyne Oil & Gas (PART II) page: 42
- MTR100: Saab Seaeye page: 44
- MTR100: Bordelon Marine page: 44
- MTR100: Greensea page: 45
- MRT100: Rockland Scientific Inc. page: 46
- MTR100: EvoLogics GmbH page: 46
- MTR100: Seafloor Systems, Inc. page: 47
- MTR100: SeaView Systems, Inc. page: 47
- MTR100: Multi-Electronique page: 47
- MTR100: CM Lab Simulations page: 48
- MTR100: Aanderaa Data Instruments AS, a Xylem brand page: 49
- MTR100: Sensor Technology Ltd. page: 49
- MTR100: Editor’s Choice - Five Stand-Outs page: 50
- MTR100: Kraken Sonar System page: 56
- MTR100: INNOMAR Technologie GmbH page: 57
- MTR100: SBG Systems page: 57
- MTR100: SEACON page: 58
- MTR100: GeoGarage page: 59
- MTR100: SCHOTTEL HYDRO GmbH page: 59
- MTR100: Titanium Industries T.I. page: 60
- MTR100: Allspeeds Ltd. page: 60
- MTR100: BioSonics, Inc. page: 61
- MTR100: Valeport page: 62
- MTR100: Forum Energy Technologies page: 63
- MTR100: MacArtney Underwater Technology Group page: 63
- MTR100: Loggerhead Instruments page: 64
- MTR100: Birns, Inc. page: 64
- MTR100: Caley Ocean Systems Ltd. page: 65
- MTR100: ASV page: 66
- MTR100: RBR page: 67
- MTR100: Teledyne Marine Acoustic Imaging Group (PART III) page: 68
- MTR100: Linden Photonics page: 72
- MTR100: develogic GmbH page: 72
- MTR100: Hydroid Inc. page: 73
- MTR100: JW Fishers Mfg. Inc. page: 74
- MTR100: iXBlue page: 74
- MTR100: L-3 Communications Klein Associates, Inc. page: 76
- MTR100:nke Instrumentation page: 77
- MTR100: Southwest Electronic Energy Corp. page: 77
- MTR100: Sea-Bird Scientific page: 78
