atlanticocean.dev
#Atlantic Ocean Development Meta
#Atlantic Ocean | The second-largest ocean, | Covering ca. 85.1 million dwuare km (32.9 million square miles) | Constitutes ca. 17% of earth surface | Max depth 8,380 meters (27,490 feet) in Puerto Rico Trench | Separates Americas from Europe and Africa | Gulf Stream | Mid-Atlantic Ridge
#Transatlantic Communication Routes
#Petroleum Exploration
#Yacht Sensing System
#Ocean Thermo Power Plant
#Decarbonization
#Blue Ammonia
#Climate Financing
#Gas Fields
#Offshore Robotics
#Ocean Cleaning
#Ocean Surveillance
#Aquaculture
#Ocean Communication
#Atlantic Lab
#Blue Economy
#Artificial Intelligence
#Acoustic Sensor
#Seismic Recorder
#Satellite Surveillance
#Subsea Imaging Techonology
#Controls For Race Boat
#Underwater Robotics
#Unmanned Underwater Vehicle
#Remote Access Sampler
#Biochemical Sensor
#Scientific Research Vessel
#Floating Wind Farms
#Offshore Wind Energy Auction
#Monitoring System
#Offshore Wind Installation
#Extended Continental Shelf
#Transatlantic Transportation
#DigitalTwin of Atlantic Ocean
#1550nm LiDAR | Advantages: safety, range, and performance in various environmental conditions | Enhanced Eye Safety: absorbed more efficiently by cornea and lens of eye, preventing light from reaching sensitive retina | Longer Detection Range | Improved Performance in Adverse Weather Conditions such as as fog, rain, or dust | Reduced Interference from Sunlight and Other Light Sources | More expensive due to complexity and lower production volumes of their components
#Prompt adherence
#Undersea infrastructure, subsea cable systems
#Cable-landing stations | Points, where subsea cables connect to terrestrial networks
#Hyperscalers | Large-scale cloud providers | Google | Meta
#Undersea infrastructure protection technology
#ROS 2 | The second version of the Robot Operating System | Communication, compatibility with other operating systems | Authentication and encryption mechanisms | Works natively on Linux, Windows, and macOS | Fast RTPS based on DDS (Data Distribution Service) | Programming languages: C++, Python, Rust
#Dexterous robot | Manipulate objects with precision, adaptability, and efficiency | Dexterity involves 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 is crucial in: manufacturing, healthcare, logistics | Dexterity enables automation in tasks that traditionally require human-like precision
#Agentic AI | Artificial intelligence systems with a degree of autonomy, enabling them to make decisions, take actions, and learn from experiences to achieve specific goals, often with minimal human intervention | Agentic AI systems are designed to operate independently, unlike traditional AI models that rely on predefined instructions or prompts | Reinforcement learning (RL) | Deep neural network (DNN) | Multi-agent system (MAS) | Goal-setting algorithm | Adaptive learning algorithm | Agentic agents focus on autonomy and real-time decision-making in complex scenarios | Ability to determine intent and outcome of processes | Planning and adapting to changes | Ability to self-refine and update instructions without outside intervention | Full autonomy requires creativity and ability to anticipate changing needs before they occur proactively | Agentic AI benefits Industry 4.0 facilities monitoring machinery in real time, predicting failures, scheduling maintenance, reducing downtime, and optimizing asset availability, enabling continuous process optimization, minimizing waste, and enhancing operational efficiency