marlinfishing.ai
#Marlin Fishing AI | Artificial Intelligence powered Marlin Fishing
#SEA.AI | Detecting floating objects early | Using thermal and optical cameras to catch also objects escaping conventional systems such as Radar or AIS: Unsignalled crafts or other floating obstacles, e.g., containers, tree trunks, buoys, inflatables, kayaks, persons over board | System computes input from lowlight and thermal cameras, using Machine Vision technology, deep learning capabilities and proprietary database of millions of annotated marine objects | High-resolution lowlight and thermal cameras | Real-time learning of water surface patterns | Searching for anomalies | Distinguishing water from non-water | Comparing anomalies with neural network | Recognize objects by matching combination of filters | Augmented reality video stream combined with map view | Intelligent alarming based on threat level | Detecting persons in water | On-board cameras with integrated image processing | Providing digital understanding of vessel surroundings on water | SEA.AI App on smartphone or tablet
#picknik.ai | Remote Robot Control
#Royal Huisman | Luxurious and individual true sportfish yachts
#Vripack Yacht Design | Sportfish yachts | Exterior and interior design | Naval architecture
#Release Boatworks | Fishing Boat Builder
#Scout Boats | Custom built fishing boats
#Garmin | Radar | Autopilot | Plotter | Echo sounder
#Thinking Machines Lab | thinkingmachines.ai | Building artificial intelligence models and products | Competing on high end of large language models | Human-AI collaboration | Building AI that can adapt to full spectrum of human expertise | Multimodal systems that work with people collaboratively | AI models that can work across text, audio, video | AI models designed to excel in science and programming | Publishing technical blog posts, papers, program code | Mira Murati: CEO | John Schulman: Chief Scientist | Barret Zoph: CTO | Alexander Kirillov: Multimodal Research Head | John Lachman: Head of Special Projects | Alex Gartrell: Linux kernel, networking, and containerization | Andrew Tulloch: ML systems research and engineering | Brydon Eastman: Human and synthetic data, model alignment and RL | Christian Gibson: Supercomputers used in training frontier models | Devendra Chaplot: VLMs, RL, & Robotics | Ian O Connell: Infrastructure engineering | Jacob Menick: ML researcher | Joshua Gross: Products and research | Kurt Shuster: Reasoning | Kyle Luther: ML researcher | Lilian Weng: Research | Luke Metz: Research scientist and engineer | Mario Saltarelli: IT and Security leader | Myle Ott: AI researcher | Nikki Sommer: HRBP | Noah Shpak: ML Engineer, GPUs | Pia Santos: Executive Operations Leader | Randall Lin: Algorithms | Rowan Zellers: Realtime multimodal posttraining | Sam Schoenholz: Scaling, optimization | Sam Shleifer: Inference | Stephen Chen: Infrastructure engineer | Stephen Roller: Full-stack pre-training | Yinghai Lu: ML system engineer
#Marina Cap Cana | White marlin from March through June, with peak numbers in April and May | Blue marlin May through October, peak season June through September | Sailfish In the fall and early winter
#Airmair | Chirp Transducer
#Stidd | Ergonomic marine seating
#Berkley | Big Game Spinning Rod
#Raymarine | Electronics | Radar systems | Fish Finders | Chartplotters | Autopilots
#Sirius | XM Fish Mapping
#RayNet | Ethernet Network
#Axiom | Chartplotter
#Shakespeare | SRASirius XM Marine Antenna Kit
#StarOddi | Underwater Temperature Logger
#SensorsOne | USB ready digital Pressure Sensor
#OverTons | Marlin Fishing Stand Up Paddleboard
#Grady White | Boats
#SeaRacks | Rod Rack
#Gemlux | Rod Holder
#Invincible Boats | Fishing towers | Marlin towers | Gap towers | Spotting fish | Offering extra height | Aluminum pipework | Controls and electronics | Electronic throttle and shift | Electric steering | Shade | Fiberglass hardtop | Black aluminum pipework | Flip up bench seat | Padded rails | Powder coated pipes
#Intensity Sportfishing | Custom built bill fishing boat
#F&S Boatworks | Custom built boats for sport fishers
#Siren Marine | Monitor, detect, and secure vessel | Check battery levels, bilge pump status, boat location, hatch activity | Turn boat lights on
#Brunswick | Mercury Marine app | SmartCraft Connect module
#Contender Boats | Producing world-class fishing boats | Flush decks | Enormous livewells | 39-footer Tres Amigos | Twin Yamaha 425 | Garmin 8617 multifunction displays | Rods, dredge booms, and teaser reels out of sight and out of weather | Gelcoated and finished cubbyholes to store items such as tools and survival and first-aid gear | Inverter | Cellphone and GoPro chargers | Seakeeper 3 | Gyro | Rule 3,750 gph pumps | Transom wells | Blue Water Chairs rocket launcher with custom pitch-bait tubes | Gemlux telescoping carbon-fiber dredge booms | Lindgren-Pitman electric reels | Shimano Beastmaster electric reels | Contender-designed and -built tower | Live-bait setup | Open-array radar | Llebroc triple seating with outboard armrests and power sliders
#Advanced Navigation | AI-based marine navigation systems | AI-Based underwater navigation solutions and robotics technology | Hydrography | Underwater acoustic positioning solutions | Autonomous Underwater Vehicle (AUV) | Inertial navigation systems (INS) | Sidney, Australia
#Seatronx | Sunlight viewable monitors
#FLIR | Dual payload stabilized thermal IP camera with night vision
#Hummingbird | Fish Finder | Heading sensor | Real-Time Boat Orientation | Accurate, real-time heading data | Allowing chart view to display dynamic heading line and rotate boat icon to reflect actual bow direction—even when stationary or drifting | Improving situational awareness, especially in Heads Up mode | Precise Waypoint Targeting | When waypoint is marked, heading sensor allows chart to correctly orient in direction of that point relative to boat, enabling to return to it more accurately | Fish finder can better align position and direction on map | Allowing you to maintain consistent trolling lines and cover water efficiently | For Side Imaging sonar, accurate heading data ensures that sonar returns are correctly aligned with boat actual direction | Heading sensor data enables precise waypoint marking and display | Allowing anglers to navigate back to specific targets or structures with confidence | Heading sensors often feed data into autopilot systems, improving steering accuracy, route tracking, and responsiveness to course adjustments
#Garmin | Marlin Fishing Electronics
#Deeper | Smart Sonar
#Lowrance | Marin and Fishing Electronics
#Simrad | Marine Chartplotters | Autopilots | Radar | Beam sharpening technology | ZoneTrack | Halo Dangerous Target Alerts | Bird+ Mode
#WindyApp | Weather forecast app
#Yamaha | Engines
#Mente Marine | Attitude Control System ACS
#Volvo Penta | Marine and industrial engine manufacturer
#Mercury Marine | Outboard motors
#Sensar Marine | App
#Yacht Sentinel | Smart Boat Technology
#Sense4Boat | IoT Sensors monitor major risk factors on boat
#VirCru | Remote Boat Controlling
#Marlin Yug | Satellite trackers
#Caterpillar | Engine
#Tribute | Custom Boats
#Pipewelders |Marlin Tower
#Dominican Republic | Hispaniola island | Blue marlin | White marlin | Sailfish | Bluewater fishing | Luxurious and safe marinas
#MTU | Engines
#White Marlin Open, Ocean City | 400 participating boats vying for more than $10 million in prize money
#Regulator Marine | Boats with center console
#KryptoQuiet | Marine bearing
#Jupiter Marine | Fishing Boats | Personalization | Custom Electronics | Florida, USA
#Viking Yachts | Sportfish boats | 82 models: open bridge, enclosed bridge and sky bridge | Computational fluid dynamics software in design | 230-square-foot cockpit set up for big fish battles | Preferred fighting chair can be selected
#LookOut | AI vision system | Synthesized data from charts, AIS, computer vision, and cloud fusing it into one 3D augmented reality view | Connects to existing boat display | Mountable camera system to the top of any boat | Lookout App for laptop, phone or tablet | Infrared vision | Night vision sensor | Spotting small vessels, floating debris, buoys, people in water | Blind spot detection | Backup camera | Temperature breaks, bird cluster locations, underwater structures for anglers | Camera streaming over WiFi to phones and tablets on the boat | Over-the-air (OTA) updates | Marine-grade water-proof enclosure | Integrated with satellite compass | National Marine Electronics Association (NMEA) communication standard interface | Multifunction Display (MFD) | Multi-core CPU driving augmented reality compute stack | ClearCloud service | NVIDIA RTX GPU for real-time computer vision | DockWa app
#SiLC | Machine Vision solutions with FMCW LiDAR vision | FMCW at the 1550nm wavelength | Eyeonic Vision Sensor platform | Detecting vehicles and various obstacles from long distances | Honda Xcelerator Ventures | Honda Marine
#Yamaha Marine | 450 hp hydrogen-powered V-8 outboard | Three 6-foot-long cylindrical-shaped hydrogen fuel tanks | H2 machine operates by using hydrogen in its combustion chambers | H2 tanks are positioned low and centrally to enhance stability | H2 tanks size demands rethinking of future boat designs, hulls specifically tailored for hydrogen storage | Hydrogen storage system adds considerable weight to vessel | Volumetric energy density of hydrogen is lower, requiring larger tanks | Partners: Roush Performance, Regulator Marine
#Skyhawk | Wireless Vessel Monitoring System | 915 MHz RF tech | Verizon IoT, | Over-the-air updates | Wake-on-radio receiver technology | Decentralized architecture | Any Oversea hub can detect RF communications from any Oversea sensor | Communications relayed via cellular modem to Skyhawk servers.| Each sensor and hub designed to operate for years on single set of AA batteries | Oversea app and airtime subscription required
#NVidia | Dexterous robot development | Manipulating objects with precision, adaptability, and efficiency | Fine motor control, coordination, ability to handle a wide range of tasks, often in unstructured environments | Key aspects of robot dexterity include grip, manipulation, tactile sensitivity, agility, and coordination | Robot dexterity development for manufacturing, healthcare, logistics | Dexterity enabling automation in tasks that traditionally require human-like precision
#e-con Systems | Camera solutions for NVIDIA platforms | Full HD Global Shutter Camera for Jetson AGX Orin | Jetson AGX Orin: 64GB module, 275 TOPS with power configurable 15W and 60W | Multiple 4k ultra-lowlight camera for NVIDIA Jetson AGX Orin | Global shutter | Rolling shutter | Autofocus and fixed focus | High resolution and frame rate | High dynamic range | High sensitivity in both visible and NIR regions | Superior color reproduction | MIPI and GMSL2 interfaces | Camera SDK configured to support Isaac SDK | Multi-camera support | NVIDIA Isaac GEMs ROS: GPU-accelerated packages for ROS2 application | Isaac ROS GEMs help to assess camera position with regard to its starting point | Isaac ROS GEMs empower robotic applications to maneuver and navigate through complicated environments | Installing ROS 2 requires Ubuntu 20.04 | Board cameras | USB 3.0 cameras | Autonomous mobile robots, autonomous shopping
#Marina Flamingo | Sportfishing | Costa Rica
#ARM | Advanced RISC Machines | RISC instruction set architectures (ISAs) for computers | ARM processors for portable, battery-powered devices, smartphones, embedded systems | SoftBank Group | AI ecosystem | Renesas | ResCon Technologies, LLC | GitLab | Embedl | Mapbox | Roofline | ENERZAi | 221e | AnchorZ Inc | Excelfore | ax Inc | weeteq | Eeasy Tech | Cerence AI | u-blox | SECO | Klepsydra Technologies | Ampere Computing | Senary Technology Limited | Ceva | Sensory | GitHub | Raspberry Pi Ltd | Untether AI | Eyeris | AiM Future, Inc | Dori AI | DeGirum Corp | OmniSpeech | ADLINK | Yobe | SLAMcore | Elliptic Labs AS | alwaysAI | Edge Impulse | SoundHound AI | Cyberon Corporation | Qeexo AutoML | Fortifyedge | TERAKI | NVIDIA | Neuton.AI | Aizip Inc | BrainChip | Roviero | RelaJet | Visidon
#SFA Oxford | Research | Critical minerals in Artificial Intelligence
#Bayliss Boatworks | Creating bulletproof sportfishing yachts | Custom yacht building process and practice | Placing a high value on communicating effectively with yacht owners | Custom refrigeration and storage solutions | Dedicated tackle and tool storage ,| Chilled freshwater dispenser | Release Marine cockpit with custom fighting chair | Three helm chairs | Bayliss custom, centered console | Helm pod by Everett Nautical | Custom cushions by C-Worthy | Release Marine walnut barstools | Sub-Zero dual refrigerators | Wolf three-burner induction cooktop | Wolf speed oven | Perlick top hat ice maker | Fully equipped tackle room with custom rod and reel storage | Stacked washer and dryer | Pullman bunk | Twin MTU 16V2000 M96L engines | Kohler 40 kilowatt generators | Bayliss Boatworks freshwater cooling system | Fuel capacity of 2,600 gallons | 400 gallons of freshwater capacity | Dual-pump hydraulic riggers | Electric steering | FCI water maker | .Cutting-edge marine electronics installed by Custom Marine Electronics, such as Furuno Omni Sonar and Starlink for seamless connectivity at sea
#NVIDIA | GPU Deep Learning | GPU acting as the brain of computing | Robots and self driving cars can perceive and unferstand the world | Accelerating the entire AI workflow | AI agents designed to reason, plan, and act | Conversational AI: multilingual speech and translation AI | Vision AI: multimodal real-time insights | AI factories: manufacturing intelligence at scale | Purpose-built AI factories | AI life-cycle | Humanoid robotics research and development platform | Machine Learning | Neural networks | Natural language processing | Speech recognition | Recommender systems | Biomedical image segmentation | Object detection | Image classification | Reinforcement learning
#Viking Yachts | 90 Sky Bridge | Long-distance sportfishing yacht | Length Overall (LOA): 90 ft. 0 in. (27.41 m) | Beam: 23 ft. 2 in. (7.05m) | Draft: 5 ft. 11 in. (1.80 m) | Gross Weight: 192,000 lbs. (87,090 kg) | Fuel Capacity: 3,801 gals. (14,388 l) | Water Capacity: 480 gals. (1,817 ltrs) | CAT / C32A 1925 1925 MHP Base | MTU Series 2000 / V16 M96L 2635 MHP Option | CAT / C32B 2400 2433 MHP Option | Sportfishing yacht that does not require SCR | The latest lifting-strake design | Refined driveline and prop pockets | Advanced propulsion system | Computational Fluid Dynamics software analyzes pressure distribution, study trim angle and trim tab effectiveness, and modify strakes and chines to increase running efficiency | Lighter interior materials | Increased use of carbon fiber and Light Resin Transfer Molding | Cockpit measures 224 square feet | 203-gallon transom fishbox/live well | Pair of full-length 103-gallon insulated in-deck fishboxes (with refrigeration optional) | Seakeeper 35 watertight design | Three aft-facing seating areas | Look aft – that is where all action is on Viking sportfishing boat | Seating module holds tackle cabinets on each side | Custom aluminum rail on the mezzanine backrest holds a row of welded-on rod holders | Lounge area features a walnut hi-lo cocktail table | Starboard-side home theater center with surround sound and a pop-up 65-inch HD TV | Wet bar with sink and ice maker | Horizontal grain natural walnut interior | Two Sub-Zero refrigerators and a freezer unit | Dishwasher | Electric range with four-burner cook top, garbage disposal, trash compactor and ample storage space | Raised dinette with U-shaped seating and a walnut table | Six staterooms and seven heads | Full-size stackable washer and dryer | Five guest staterooms, each with its own private head and shower | Crew quarters with immediate access to engineroom | Starboard-side aft control station | Full engine controls | Radio box forward of the helm pod | Multi-function electronics displays (MFDs) | Electronics pod designed specifically for five MFDs | Sky Bridge: Hull No. 1 is Kingston Grey Sky Bridge model | Caterpillar C32A diesels packing 1925MHP are standard, CAT C32B 2400: 2433MHP engines available | Optional twin 2635MHP MTU 16V 2000 M96Ls power hull No. 1
#SmartGyro | Gyro stabilization technology company | Smartgyro stabilizers effectively reduce boat roll through force created by spinning of flywheel inside vacuum-enclosed sphere, which is then transferred into hull structure to counteract wave motion | Gyroscope is spinning wheel (flywheel) or disk that maintains its orientation and resists changes in its axis of rotation | Gyroscopic effect | The law of conservation of angular momentum | Precession motion | Moment of inertia | Gyro stabilizers are mounted in such a way that force that disturbs axis of orientation of flywheel is (mainly) force caused by rolling | When vessel rolls due to wave motion, on-board gyroscope responds by generating forces that oppose these movements | Antiroll effect can be increased by installing more gyros | Precession motion must always be carefully controlled, continuously adjusting and synchronizing its amplitude and its time correlation with incoming sea waves | Motion control system takes care of this important task by means of hardware computing platform, and series of sensors distributed on different parts of machine | Based on data acquired by sensors, (including boat state - roll, pitch and precession rotation angle), algorithms precisely regulate braking effect of hydraulic pistons mounted on side of sphere containing flywheel, and ultimately, synchronize precession motion with rolling wave | Control system is capable of responding to different, ever changing sea conditions rapidly, and maximum antiroll torque is always generated, whatever sea state | Smartgyro modular approach splits stabilizer into smaller, easy-to-handle components | Modular design allows for opening of sphere containing flywheel, to inspect, extract or replace internal components
#Seakeeper | Marine motion control technology | Anti-roll gyro | No outside appendages | Flywheel spins at speeds up to 557 miles per hour generating enough force to stop a boat from rolling | Vacuum encapsulation enables flywheel to spin roughly three times faster, cuts flywheel weight by two-thirds, and halves power requirements | Critical components (flywheel, bearings, and motor) are sealed in a vacuum | Cooling system removes heat from within vacuum enclosure and dissipates it through a glycol/seawater combination | Active control works as smart technology, automatically gauging sea state and reacting instantaneously | Inside vacuum encapsulation, flywheel spins at speeds of up to 9,750 rpm | When boat rolls, gyro tilts fore and aft (precesses), producing powerful gyroscopic torque to port and starboard that counteracts boat roll | Seakeeper 40: yachts 85 feet and up (up to 115 tons), field replaceable bearings (FRB) | Seakeeper 26: vessels ~70-85 feet, up to ~75 tons | Seakeeper 18: crafted for ~60-75 foot boats, up to 56 tons | Seakeeper 3: Specially designed to eliminate roll on ~35-41 foot boats