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/64452587/developing-auv-docking-capabilities <p>Guest: Jonathan Wallen, a PhD student in Mechanical Engineering at the University of Manoa in Hawaii<br> ​<br> In this summer series of podcasts, we introduce the winners of our Teledyne Marine Academic Grant for 2020. This grant offers universities and institutions the opportunity to utilize several of our flagship products free of charge for up to a six-month period to support their research programs. In this episode, we meet our final winner, Jonathan Wallen, a PhD student in Mechanical Engineering at the University of Manoa in Hawaii. Jonathan's research is in the area of autonomous robotics and dynamical systems. In his current project, Jonathan uses a Teledyne Reson Hydrophone to dock an AUV to a floating wave energy converter.</p><p><a href="http://www.video.teledynemarine.com/photo/64452587/developing-auv-docking-capabilities"><img src="http://www.video.teledynemarine.com/60445025/64452587/34670b9ffdb90231e95fd8a9660f45fa/standard/download-3-thumbnail.jpg" width="600" height="338"/></a></p> http://www.video.teledynemarine.com/photo/64452587 Mon, 21 Sep 2020 20:14:49 GMT Developing AUV Docking Capabilities for Dynamic Platforms Guest: Jonathan Wallen, a PhD student in Mechanical Engineering at the University of Manoa in Hawaii ​ In this summer series of podcasts, we introduce the winners of our Teledyne Marine Academic Grant for 2020. This grant offers universities and institutions the opportunity to utilize several of our flagship products free of charge for up to a six-month period to support their research programs. In this episode, we meet our final winner, Jonathan Wallen, a PhD student in Mechanical Engineering at the University of Manoa in Hawaii. Jonathan's research is in the area of autonomous robotics and dynamical systems. In his current project, Jonathan uses a Teledyne Reson Hydrophone to dock an AUV to a floating wave energy converter. Guest: Jonathan Wallen, a PhD student in Mechanical Engineering at the University of Manoa in Hawaii ​ In this summer series of podcasts, we introduce the winners of our Teledyne Marine Academic Grant for 2020. This grant offers universities and... The Teledyne Marine Channel 22:38 <p>Guest: Jonathan Wallen, a PhD student in Mechanical Engineering at the University of Manoa in Hawaii<br> ​<br> In this summer series of podcasts, we introduce the winners of our Teledyne Marine Academic Grant for 2020. This grant offers universities and institutions the opportunity to utilize several of our flagship products free of charge for up to a six-month period to support their research programs. In this episode, we meet our final winner, Jonathan Wallen, a PhD student in Mechanical Engineering at the University of Manoa in Hawaii. Jonathan's research is in the area of autonomous robotics and dynamical systems. In his current project, Jonathan uses a Teledyne Reson Hydrophone to dock an AUV to a floating wave energy converter.</p><p><a href="http://www.video.teledynemarine.com/photo/64452587/developing-auv-docking-capabilities"><img src="http://www.video.teledynemarine.com/60445025/64452587/34670b9ffdb90231e95fd8a9660f45fa/standard/download-3-thumbnail.jpg" width="600" height="338"/></a></p> academic grant auv hydrophone jonathan wallen podcast reson_channel http://www.video.teledynemarine.com/photo/63886607/teledyne-marine-academic-grant <p><p><strong>AGH University of Science and Technology</strong><br><br><strong>Product grant:&nbsp;</strong><a target="_blank" rel="noopener noreferrer nofollow" href="https://www.teledynemarine.com/brands/blueview/m900-mk2">Teledyne BlueView M900 MK2 Sonar</a><br><br>Water depths are still not explored frontiers. However, more and more human-made object appears on sea-bottom, ranging from ordinary plastic pollutants to forgotten naval mines. In the project, we are aiming to develop new methods for underwater object recognition and scene analysis based on the joined visual and sonar signals processed by the deep neural networks that can have a significant impact on this problem. Reliable means of detection of human-made objects will significantly increase all efforts' effectiveness simply by &nbsp;determining potential contamination hot-spots and prioritizing the workforce on places that are higher on the list. Autonomous drones equipped with such system could mark certain positions or even clean depths similarly to surface solutions that are developed now all around the world. On the other hand, solving such great challenge calls for active cooperation between academia and commercial research.<br></p></p><p><a href="http://www.video.teledynemarine.com/photo/63886607/teledyne-marine-academic-grant"><img src="http://www.video.teledynemarine.com/60445192/63886607/966e2f0f7d8d186c2c05c1877a0b504d/standard/download-3-thumbnail.jpg" width="600" height="338"/></a></p> http://www.video.teledynemarine.com/photo/63886607 Tue, 04 Aug 2020 19:18:34 GMT Teledyne Marine Academic Grant Winner - Professor Boguslaw Cyganek AGH University of Science and TechnologyProduct grant:Teledyne BlueView M900 MK2 SonarWater depths are still not explored frontiers. However, more and more human-made object appears on sea-bottom, ranging from ordinary plastic pollutants to forgotten naval mines. In the project, we are aiming to develop new methods for underwater object recognition and scene analysis based on the joined visual and sonar signals processed by the deep neural networks that can have a significant impact on this problem. Reliable means of detection of human-made objects will significantly increase all efforts' effectiveness simply by determining potential contamination hot-spots and prioritizing the workforce on places that are higher on the list. Autonomous drones equipped with such system could mark certain positions or even clean depths similarly to surface solutions that are developed now all around the world. On the other hand, solving such great challenge calls for active cooperation between academia and commercial research. AGH University of Science and TechnologyProduct grant:Teledyne BlueView M900 MK2 SonarWater depths are still not explored frontiers. However, more and more human-made object appears on sea-bottom, ranging from ordinary plastic pollutants to... The Teledyne Marine Channel 06:07 <p><p><strong>AGH University of Science and Technology</strong><br><br><strong>Product grant:&nbsp;</strong><a target="_blank" rel="noopener noreferrer nofollow" href="https://www.teledynemarine.com/brands/blueview/m900-mk2">Teledyne BlueView M900 MK2 Sonar</a><br><br>Water depths are still not explored frontiers. However, more and more human-made object appears on sea-bottom, ranging from ordinary plastic pollutants to forgotten naval mines. In the project, we are aiming to develop new methods for underwater object recognition and scene analysis based on the joined visual and sonar signals processed by the deep neural networks that can have a significant impact on this problem. Reliable means of detection of human-made objects will significantly increase all efforts' effectiveness simply by &nbsp;determining potential contamination hot-spots and prioritizing the workforce on places that are higher on the list. Autonomous drones equipped with such system could mark certain positions or even clean depths similarly to surface solutions that are developed now all around the world. On the other hand, solving such great challenge calls for active cooperation between academia and commercial research.<br></p></p><p><a href="http://www.video.teledynemarine.com/photo/63886607/teledyne-marine-academic-grant"><img src="http://www.video.teledynemarine.com/60445192/63886607/966e2f0f7d8d186c2c05c1877a0b504d/standard/download-3-thumbnail.jpg" width="600" height="338"/></a></p> academic grant AGH University of Science and Technology blueview_channel m900 mkii sonar webinar year_20