PacMar Technologies is a world leader in helping customers take a concept to product, lending assistance every step of the way. Our agility ensures that we deliver research and development quickly. We lead innovation in modeling, simulation, design, and construction of novel systems for the Department of Defense and other partners.

Vigorous performance prediction and prototype field testing results in a wide-range of innovative concepts across multiple domains – land, sea, and air. Our software expertise allows us to rapidly design and model, from idea to prototype demonstration, complex mechanical systems in relevant environment.

Ships, Small Craft, and Unmanned Vehicles

PacMar Technologies has a strong heritage designing cutting-edge marine vehicles that draw upon our world-class and multi-disciplinary engineering expertise spanning naval architecture, marine, mechanical, and systems engineering. PacMar Technologies has all the capability needed to design, analyze, prototype and test novel marine vehicles for customers in the Department of Defense and commercial sectors. Our expertise spans high-performance small craft, naval surface combatants, and unmanned vehicles – both surface and undersea (USVs and UUVs). PacMar Technologies repeatedly develops vehicles to meet demanding specifications and achieve never-before-seen capability. Our capabilities also include the design of launch, recovery, recharging, and refueling technology for sustaining unmanned systems from legacy host platforms and autonomous sustainment.

Large-scale Rapid Prototyping & Test

Rapidly developing from an idea to a prototype or demonstrator in relevant environments is core to our business and culture. Every PacMar Technologies facility has fabrication and experimentation capacity for marine, ground, and aerial systems prototyping. We also frequently work with a network of partner shipyards and test sites to achieve ambitious program schedules.

Unmanned Amphibious and Ground Vehicles

PacMar Technologies is uniquely positioned to provide system design, integration, and testing for amphibious vehicles that can operate in challenging littoral conditions. Our engineers design vehicles capable of transiting through surf and rugged shoreline conditions to seamlessly connect between ships operating at stand-off distances at sea and maneuver forces inland.

Modeling & Simulation

Our ability to rapidly prototype advanced systems is powered by industry-leading modeling and simulation expertise. PacMar Technologies engineers use virtual environments, physics-based simulations, and high-performance computing to explore a broad trade space for novel systems and validate performance specifications. Modeling and simulation enable PacMar Technologies culture and process of rapid prototyping and innovation.

We develop digital twins of systems and subsystems on DoD platforms, for hull structural health monitoring, self-healing autonomous machinery, and smart electrical grids. Our unique understanding of artificial intelligence and machine learning is applied to the development of efficient and accurate virtual worlds. Methods to test and train unmanned systems in all domains ensures resiliency of these technologies and systems.

Autonomy Development Unmanned Systems

PacMar Technologies develops autonomy solutions for aerial, ground, amphibious, surface, and undersea vehicles in dynamic and uncertain environments. Our core expertise involves cognitive systems approaches for A.I.-based autonomy that enables the vehicle to perform higher-level reasoning and adapt to unexpected events. This contrasts with the state of most of today’s unmanned systems that follow scripted missions that require intense operator cognitive workload to program. PacMar Technologies autonomy research aims to invert the unmanned vehicle-operator paradigm by embedding greater intelligence and reasoning on the vehicle, thereby enabling one operator to manage multiple unmanned vehicles. By inverting that paradigm, unmanned systems become true force multipliers.

Industry 4.0, Digital Twin, and the Industrial Internet of Things

Industry 4.0, also known as the Industrial Internet of Things, is revolutionizing how nearly every commercial industry is achieving increased automation and resiliency with ‘smart’ machines that can monitor themselves and correct issues without human intervention. PacMar Technologies is collaborating with the Office of Naval Research and a network of universities to develop resilient, autonomous machinery for Navy ships that will reduce manning, lower lifecycle cost, and increase long duration operation of the hull, mechanical, and electrical (HM&E) systems that ships depend on to function. Digital Twins are key enabling technology in Martin Defense Group’s approach to creating ‘smart’ ship HM&E systems.

Certification & Trust

A significant barrier to wider adoption of autonomous systems for military applications is a lack of operator trust and rigorous methods to validate that autonomous systems will perform as intended. PacMar Technologies’ researchers are on the cutting-edge of methods for certifying autonomous system performance in dynamic environments and when subjected to novel or unpredicted conditions. Our researchers are solving fundamental challenges of how one can adequately test a system when exhaustive testing is either impractical or provably intractable.

Electric and hybrid-electric propulsion systems for small craft, amphibious vehicles, and unmanned aircraft is a new frontier for PacMar Technologies’ model and simulation, control systems, and power electronics. Innovative propulsion concepts rely on energy efficient platforms and harvesting concepts for general system electrification. Using advance power architecture and power management enables long-duration operations for a variety of military and commercial applications.

Hybrid and All-Electric Propulsion Systems

PacMar Technologies engineers are collaborating with the Office of Naval Research to develop hybrid and all-electric propulsion systems for Navy craft that maximize energy efficiency and reduce the vessel’s signatures, making them safer for the warfighter to operate in contested environments. PacMar Technologies is also performing research to advance the maturity of next-generation integrated power and energy systems (IPES) for Navy combatants that can adaptively route power from a ship’s propulsion system to meet the demands of directed energy weapons.

Energy Harvesting

PacMar Technologies is at the forefront of developing technology that can harvest energy from the ocean environment to power nearby installations or recharge unmanned vehicles, keeping them on station and performing their mission longer. Previous and ongoing work includes harvesting from the sun, waves, and ocean currents. Our capabilities in this area span system design, power takeoff mechanism design, energy feasibility analysis, and prototyping construction.

Systems Engineering and Integration for Advanced Power Architectures

The electrification of military vehicles is steadily increasing as more mission systems and payload require electrical power, energy efficiency, and resiliency. PacMar Technologies power systems and electrical engineering experts are collaborating with the Navy and Army to design new architectures for compact and resilient power systems with applications for integration.

Power management controls for long-duration USV operations

The Navy is on a path to acquiring medium and large unmanned surface vessels that are expected to operate in the open ocean for long periods. PacMar Technologies power systems researchers are tackling a core limitation of these USVs – how to maintain stable electrical power for 30 days or more without human intervention. Our experts are researching new power management controls and redundant power architectures with the goal of providing these ships with resilient electrical power.

PacMar Technologies is the only producer of Berry Amendment-compliant Drop-Stitch fabric. This fabric combined with unique coating processes creates novel inflatable technologies. Studying and applying inflatables – supplemented with lightweight composites structures – opens a new frontier of applications for hybrid structures. Computer models of these hybrid structures allow us to tailor designs for new applications.

Expandable structures and inflatables

PacMar Technologies engineers expandable and inflatable structures with low size and weight (‘SWaP’). They offer compact transport and storage, and a predictable shape and strength when deployed, making them an ideal technology for expeditionary applications where space and weight are at a premium. One of our core technologies is ‘drop stitch’ inflatable textiles, which enables PacMar Technologies to design inflatable structures with tight tolerances on shape and strength. PacMar Technologies rapidly prototypes and tests large expandable structures using drop stitch composite textiles, using a company-owned loom capable of limited-production runs of custom textile that is ideally suited for research & development efforts.

Structural analysis

PacMar Technologies’ multi-disciplinary engineering team includes subject matter experts in structural design and analysis. PacMar Technologies routinely uses a variety of commercially available finite element analysis (FEA) software to evaluate trade-offs and optimize structures spanning ships, vehicle chassis, and airframes. Our expertise go beyond static stress-strain type of analyses, and include custom-built proprietary software to solve for the dynamic (time-domain) deformations of structures subject to the action of wave and air flow, coupled thermal effects, and hydro-elastic effects needed to predict the performance of cutting-edge military systems with high confidence. PacMar Technologies has also collaborated with Naval Undersea Warfare Center (NUWC), Newport, to develop a first-of-kind, validated FEA capability for drop stitch textiles and other inflatable structures.

Additive manufacturing & large-scale 3D printing

PacMar Technologies is pushing the boundaries of what is possible to 3D print. Together with the University of Maine, PacMar Technologies 3D printed the entirety of a 25 foot planing hull suitable for immediate outfitting – the largest structure ever 3D printed at the time. PacMar Technologies is continuing to pioneer advanced manufacturing techniques blending 3D printing with new materials, composite designs, and printing processes to create even larger and stronger structures, with the capability to embed sensors and distributed systems – electrical power, cooling, and more – during the printing process.

Soft robotics

PacMar Technologies is using existing capability in expandable structures and inflatables to forge a path in soft robotics. Using our knowledge of system integration and materials, PacMar Technologies is exploring the use of soft robotics for UUV Launch and Recovery applications. To continue to push the boundaries, PacMar Technologies is pursuing research in technologies that will help grow the next generation of soft robotic applications.