Karl Leodler
Founder and CEO
Innovation at Dynamic Dimension Technologies isn't just about technology; it's about creating a safer, sustainable future for all.
WESTMINSTER, United States
Aerospace, Defense & Security, Maritime
Innovation at Dynamic Dimension Technologies isn't just about technology; it's about creating a safer, sustainable future for all.
Dynamic Dimension Technologies (DDT) builds VxSIM—an applied digital-twin and autonomy testbed that links design, training, and production. We help naval and manufacturing teams rehearse sea states, comms, procedures, and shop-floor automation before deployment. Focus: Next-Gen Naval Design Tools (trade studies, baseline safety/survivability), design-for-manufacturing, robotic cells/arms with controller/PLC bridges, and multi-sensor safety (cameras/LiDAR/radar/light curtains). We deliver scoped pilots with hard metrics that de-risk integration early and translate cleanly to partner delivery.
What we do
• VxSIM platform: physics-grounded sim + controller/PLC bridges + live sensors for naval & manufacturing programs.
• Next-Gen Naval Design Tools: early trade studies, baseline survivability/safety checks, mission-profile rehearsal (radios/controls-in-loop).
• Design for Manufacturing (DfM): link CAD, routing, and cell layout to existing control stacks (PLC-driven cells, vendor motion controllers, EtherCAT/CAN/DDS/Modbus/OPC UA, OEM SDKs).
• Robotic arms & cells: reach/clearance, path planning, cycle-time; validate interlocks in sim first.
• Multi-sensor shop-floor safety: cameras, LiDAR, radar, light curtains into Safe/Slow/Stop logic; test edge cases before install.
• Training & workforce: hands-on twin environments aligned to real tools.
Checkout www.vxsim.net and our STEM tab for sample scenarios
For naval and uncrewed systems, our VxSIM product enables trade studies, baseline survivability/safety checks, and mission-profile rehearsal—with radios and controls in the loop to surface integration issues early. For manufacturers and shipyards, VxSIM supports Design for Manufacturing (DfM) and production readiness: linking CAD and process routing to existing control stacks—PLC-driven cells, vendor motion controllers, EtherCAT/CAN/DDS/Modbus/OPC UA, and OEM SDKs—plus robotic arms (reach/clearance, path planning, cycle-time). Our safety workflows fuse cameras, LiDAR, radar, and light curtains with multi-zone logic (Safe / Slow / Stop) to validate layouts and interlocks before the line goes live.
Outcome: fewer surprises, faster training cycles, and clearer go/no-go decisions. We favor scoped pilots that answer concrete questions—“Is this ship/hull design stable?”, “Can this arm finish the weld with current fixtures?”, “Do our safety zones catch edge cases?”—then scale.
Current projects & proof points
• Naval: mission-profile rehearsal for USV/ACV concepts; exercise radios/controls in loop to surface integration issues early.
• NG-NDT: toolkit for rapid design trades and baseline safety/survivability checks tied to field use.
• Manufacturing/Shipyards: DfM and robotic cells with controller/PLC bridges; validate multi-sensor safety zones before the line goes live.
• Cyber/Human factors: role-based operator surrogates to test procedures/training with realistic timing and comms discipline.
Dynamic Dimension Technologies (DDT) builds VxSIM—an applied digital-twin and autonomy testbed that links design, training, and production. We help naval and manufacturing teams rehearse sea states, comms, procedures, and shop-floor automation before deployment. Focus: Next-Gen Naval Design Tools (trade studies, baseline safety/survivability), design-for-manufacturing, robotic cells/arms with controller/PLC bridges, and multi-sensor safety (cameras/LiDAR/radar/light curtains). We deliver scoped pilots with hard metrics that de-risk integration early and translate cleanly to partner delivery.
What we do
• VxSIM platform: physics-grounded sim + controller/PLC bridges + live sensors for naval & manufacturing programs.
• Next-Gen Naval Design Tools: early trade studies, baseline survivability/safety checks, mission-profile rehearsal (radios/controls-in-loop).
• Design for Manufacturing (DfM): link CAD, routing, and cell layout to existing control stacks (PLC-driven cells, vendor motion controllers, EtherCAT/CAN/DDS/Modbus/OPC UA, OEM SDKs).
• Robotic arms & cells: reach/clearance, path planning, cycle-time; validate interlocks in sim first.
• Multi-sensor shop-floor safety: cameras, LiDAR, radar, light curtains into Safe/Slow/Stop logic; test edge cases before install.
• Training & workforce: hands-on twin environments aligned to real tools.
Checkout www.vxsim.net and our STEM tab for sample scenarios
For naval and uncrewed systems, our VxSIM product enables trade studies, baseline survivability/safety checks, and mission-profile rehearsal—with radios and controls in the loop to surface integration issues early. For manufacturers and shipyards, VxSIM supports Design for Manufacturing (DfM) and production readiness: linking CAD and process routing to existing control stacks—PLC-driven cells, vendor motion controllers, EtherCAT/CAN/DDS/Modbus/OPC UA, and OEM SDKs—plus robotic arms (reach/clearance, path planning, cycle-time). Our safety workflows fuse cameras, LiDAR, radar, and light curtains with multi-zone logic (Safe / Slow / Stop) to validate layouts and interlocks before the line goes live.
Outcome: fewer surprises, faster training cycles, and clearer go/no-go decisions. We favor scoped pilots that answer concrete questions—“Is this ship/hull design stable?”, “Can this arm finish the weld with current fixtures?”, “Do our safety zones catch edge cases?”—then scale.
Current projects & proof points
• Naval: mission-profile rehearsal for USV/ACV concepts; exercise radios/controls in loop to surface integration issues early.
• NG-NDT: toolkit for rapid design trades and baseline safety/survivability checks tied to field use.
• Manufacturing/Shipyards: DfM and robotic cells with controller/PLC bridges; validate multi-sensor safety zones before the line goes live.
• Cyber/Human factors: role-based operator surrogates to test procedures/training with realistic timing and comms discipline.
