The Teledyne Marine Channel niels.alsted@teledyne.com https://www.video.teledynemarine.com en-us Visualplatform http://blogs.law.harvard.edu/tech/rss The Teledyne Marine Channel episodic no https://www.video.teledynemarine.com/files/rv1.364/sitelogo.gif https://www.video.teledynemarine.com http://www.video.teledynemarine.com/photo/63874543/tm-academic-grant-winner <p><p><strong>Scottish Association for Marine Science (SAMS).</strong><br><br><strong>Product grant:&nbsp;</strong><a target="_blank" rel="noopener noreferrer nofollow" href="https://www.teledynemarine.com/brands/reson/SeaBat-T50-R">Teledyne RESON SeaBat T50-R Multibeam Sonar / INS</a><br><br>The project's aim is to assess the physical stability of the seafloor in the extremely energetic tidal flows of western Scotland, UK: The Gulf of Corryvreckan and the Falls of Lora, Loch Etive.<br><br>The nature of the seabed beneath extreme tidal flows (flow speed &gt; 4m/s) has been little studied, mainly due to the obvious operational challenges posed by the area's hydrodynamics. However, these regions are now receiving research attention due to their value for renewable energy and the insights into turbulent flows that they can bring.<br><br>As a student researcher, I am working with a team from the Scottish Association for Marine Science (SAMS) on plans to develop survey techniques for mobile bedform analysis. By comparing two bathymetric data sets (one collected in 2012, and one using Teledyne equipment scheduled for 2020), bedform migration rates and thence the physical stability of the seabed can be quantified.<br><br></p><p><br><a target="_blank" rel="noopener noreferrer nofollow" href="https://www.teledynemarine.com/podcasts/investigating_seabed_stability_in_western_scotland">Listen to the Teledyne Marine Tech talk Podcast: Episode 10​ - Investigating Seabed Stability in Western Scotland &gt;</a><br>&nbsp;</p></p><p><a href="http://www.video.teledynemarine.com/photo/63874543/tm-academic-grant-winner"><img src="http://www.video.teledynemarine.com/60445168/63874543/af2672981808a359a78c8da98a6bfb7a/standard/download-5-thumbnail.jpg" width="600" height="338"/></a></p> http://www.video.teledynemarine.com/photo/63874543 Thu, 30 Jul 2020 17:20:00 GMT TM Academic Grant Winner - Christian Armstrong - Teledyne RESON SeaBat T50-R... Scottish Association for Marine Science (SAMS).Product grant:Teledyne RESON SeaBat T50-R Multibeam Sonar / INSThe project's aim is to assess the physical stability of the seafloor in the extremely energetic tidal flows of western Scotland, UK: The Gulf of Corryvreckan and the Falls of Lora, Loch Etive.The nature of the seabed beneath extreme tidal flows (flow speed 4m/s) has been little studied, mainly due to the obvious operational challenges posed by the area's hydrodynamics. However, these regions are now receiving research attention due to their value for renewable energy and the insights into turbulent flows that they can bring.As a student researcher, I am working with a team from the Scottish Association for Marine Science (SAMS) on plans to develop survey techniques for mobile bedform analysis. By comparing two bathymetric data sets (one collected in 2012, and one using Teledyne equipment scheduled for 2020), bedform migration rates and thence the physical stability of the seabed can be quantified.Listen to the Teledyne Marine Tech talk Podcast: Episode 10​ - Investigating Seabed Stability in Western Scotland Scottish Association for Marine Science (SAMS).Product grant:Teledyne RESON SeaBat T50-R Multibeam Sonar / INSThe project's aim is to assess the physical stability of the seafloor in the extremely energetic tidal flows of western Scotland, UK: The... The Teledyne Marine Channel 10:26 <p><p><strong>Scottish Association for Marine Science (SAMS).</strong><br><br><strong>Product grant:&nbsp;</strong><a target="_blank" rel="noopener noreferrer nofollow" href="https://www.teledynemarine.com/brands/reson/SeaBat-T50-R">Teledyne RESON SeaBat T50-R Multibeam Sonar / INS</a><br><br>The project's aim is to assess the physical stability of the seafloor in the extremely energetic tidal flows of western Scotland, UK: The Gulf of Corryvreckan and the Falls of Lora, Loch Etive.<br><br>The nature of the seabed beneath extreme tidal flows (flow speed &gt; 4m/s) has been little studied, mainly due to the obvious operational challenges posed by the area's hydrodynamics. However, these regions are now receiving research attention due to their value for renewable energy and the insights into turbulent flows that they can bring.<br><br>As a student researcher, I am working with a team from the Scottish Association for Marine Science (SAMS) on plans to develop survey techniques for mobile bedform analysis. By comparing two bathymetric data sets (one collected in 2012, and one using Teledyne equipment scheduled for 2020), bedform migration rates and thence the physical stability of the seabed can be quantified.<br><br></p><p><br><a target="_blank" rel="noopener noreferrer nofollow" href="https://www.teledynemarine.com/podcasts/investigating_seabed_stability_in_western_scotland">Listen to the Teledyne Marine Tech talk Podcast: Episode 10​ - Investigating Seabed Stability in Western Scotland &gt;</a><br>&nbsp;</p></p><p><a href="http://www.video.teledynemarine.com/photo/63874543/tm-academic-grant-winner"><img src="http://www.video.teledynemarine.com/60445168/63874543/af2672981808a359a78c8da98a6bfb7a/standard/download-5-thumbnail.jpg" width="600" height="338"/></a></p> Christian Armstrong reson_channel seabat seabat T50-R seabat t-series tm_academic_grant webinar year_20 http://www.video.teledynemarine.com/photo/63874537/tm-academic-grant-winner-samer <p><p><strong>Ain Shams University</strong><br><br><strong>Product grant:&nbsp;</strong><a target="_blank" rel="noopener noreferrer nofollow" href="https://www.teledynemarine.com/brands/rdi/pathfinder-dvl">Teledyne RDI Pathfinder DVL</a><br><br>Designing and implementing an EKF SLAM module for an autonomous underwater vehicle by fusing a set of hardware sensors along with the dynamic model of the vehicle to achieve very accurate global positioning for handling underwater missions.<br><br>Also designing an automatic control module for the sub using novel control theories to obtain very accurate smooth trajectory profiles to improve the maneuverability of the sub<br><br>Affiliation:<br>The sub-project is part of the AUV project for ASmarine Team (Ain Shams University) participating in 2020 Robosub.<br><br>Learn more about the T<a target="_blank" rel="noopener noreferrer nofollow" href="https://go4.teledynemarine.com/2020-Academic-Grant">eledyne Marine Academic Grant &gt;</a></p></p><p><a href="http://www.video.teledynemarine.com/photo/63874537/tm-academic-grant-winner-samer"><img src="http://www.video.teledynemarine.com/60650860/63874537/6fab89a89d5a4513c721fe09cff176b0/standard/download-4-thumbnail.jpg" width="600" height="337"/></a></p> http://www.video.teledynemarine.com/photo/63874537 Thu, 30 Jul 2020 16:53:14 GMT TM Academic Grant Winner - Samer Ahmed - PathFinder DVL Ain Shams UniversityProduct grant:Teledyne RDI Pathfinder DVLDesigning and implementing an EKF SLAM module for an autonomous underwater vehicle by fusing a set of hardware sensors along with the dynamic model of the vehicle to achieve very accurate global positioning for handling underwater missions.Also designing an automatic control module for the sub using novel control theories to obtain very accurate smooth trajectory profiles to improve the maneuverability of the subAffiliation:The sub-project is part of the AUV project for ASmarine Team (Ain Shams University) participating in 2020 Robosub.Learn more about the Teledyne Marine Academic Grant Ain Shams UniversityProduct grant:Teledyne RDI Pathfinder DVLDesigning and implementing an EKF SLAM module for an autonomous underwater vehicle by fusing a set of hardware sensors along with the dynamic model of the vehicle to achieve very... The Teledyne Marine Channel 10:04 <p><p><strong>Ain Shams University</strong><br><br><strong>Product grant:&nbsp;</strong><a target="_blank" rel="noopener noreferrer nofollow" href="https://www.teledynemarine.com/brands/rdi/pathfinder-dvl">Teledyne RDI Pathfinder DVL</a><br><br>Designing and implementing an EKF SLAM module for an autonomous underwater vehicle by fusing a set of hardware sensors along with the dynamic model of the vehicle to achieve very accurate global positioning for handling underwater missions.<br><br>Also designing an automatic control module for the sub using novel control theories to obtain very accurate smooth trajectory profiles to improve the maneuverability of the sub<br><br>Affiliation:<br>The sub-project is part of the AUV project for ASmarine Team (Ain Shams University) participating in 2020 Robosub.<br><br>Learn more about the T<a target="_blank" rel="noopener noreferrer nofollow" href="https://go4.teledynemarine.com/2020-Academic-Grant">eledyne Marine Academic Grant &gt;</a></p></p><p><a href="http://www.video.teledynemarine.com/photo/63874537/tm-academic-grant-winner-samer"><img src="http://www.video.teledynemarine.com/60650860/63874537/6fab89a89d5a4513c721fe09cff176b0/standard/download-4-thumbnail.jpg" width="600" height="337"/></a></p> dvl rdi_channel Samer ahmed tm_academic_grant webinar webinars year_20