Framework Robotics Introduces Flexible Ocean Technology Platform
Framework Robotics has pioneered an innovative approach to underwater vehicle design, departing from traditional rigid and costly single-solution systems commonly found in marine technology. Instead, Framework developed a universal construction kit specifically tailored for ocean technologies combining modular 3D printed hardware, adaptive software applications and power electronics components into one package.
This platform fills an important niche in marine technology by providing customizable, high-quality ocean technology solutions that can be deployed rapidly and cost-effectively. This approach represents a paradigm shift in how underwater systems are engineered and deployed - leading to faster delivery times as well as sustainable manufacturing practices.
Diverse Fleet Configurations to Meet Diverse Marine Applications
Framework Robotics offers four basic structural configurations that can be modified to meet any operational requirement. Their fleet includes remotely operated vehicles (ROVs) designed for underwater maintenance, offshore observation, port infrastructure surveys, scientific exploration and more.
Modular design philosophy enables operators to select and configure systems based on their specific mission requirements, eliminating costly custom-built solutions. This flexibility extends from initial consultation through assembly, testing, and delivery; with options for renting or purchasing systems depending on operational needs.
Market Recognition and Industry Positioning
Framework Robotics has earned widespread acclaim within the robotics and additive manufacturing industries for their innovative use of 3D printing technology for underwater applications, marking an innovative step forward in marine equipment production and deployment. By employing advanced manufacturing techniques with modular design principles, Framework Robotics has solidified itself as an innovator of next-generation ocean technologies.
Framework Robotics' commitment to sustainability, cost-effectiveness and rapid customization reflects industry trends toward more efficient marine operations. Their emphasis has attracted widespread acclaim among both additive manufacturing and robotics communities and cemented Framework Robotics' position as an innovator in underwater vehicle design.