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Every great machine starts with a great idea. We dive deep into your challenge — conducting feasibility studies, market research, and R&D to fully understand what’s needed.
Our certified engineers then translate that understanding into detailed mechanical designs, software architecture, and system integration strategies that set the foundation for success.
We don’t just solve problems — we anticipate them, ensuring every design decision is validated before a single part is manufactured.
This is where concepts become reality. From rapid prototyping and iterative testing to building production-ready machines, we handle the full spectrum — mechanical assemblies, electronics, control systems, and custom software.
Everything is developed and integrated under one roof, ensuring seamless communication between every component and discipline.
By keeping all expertise in-house, we eliminate delays and deliver higher quality results in less time.
Your machine is only as good as its performance in the field. We manage deployment, installation, and commissioning on-site, then stay by your side with ongoing maintenance, lifecycle management, and real-time data monitoring.
Our goal is to keep your production line running at peak efficiency, long after handover.
Through predictive maintenance and continuous performance analysis, we help you minimize downtime and maximize the return on your investment.
A fully integrated software ecosystem for industrial 3D printer fleet management.
MD MESH is a cloud-based SaaS platform that provides centralized control over your entire print operation — from automated job distribution and queue management to invoicing and user permissions.
Paired with MD EDGE, our custom Klipper-based operating system running directly on the printer hardware, the two systems form a seamless bridge between your production floor and the cloud.
A web-based SaaS application for centralized 3D printer fleet management.
Control your entire production operation from a single dashboard — manage print queues, distribute jobs automatically, track maintenance schedules, generate invoices based on printed items, and configure granular user permissions.
A custom operating system built on Klipper, running directly on the 3D printer hardware.
MD EDGE provides a dedicated GUI through the printer’s LCD panel for local control, while maintaining a persistent connection to MD MESH for remote fleet orchestration and telemetry.
Full-stack application development from backend architecture to frontend interfaces. We build cloud-based fleet management platforms, real-time monitoring dashboards, and production management tools using modern frameworks. Our software scales from a single connected machine to fleets of hundreds of devices across multiple locations — with role-based access control, automated job distribution, and live telemetry built in. We handle the complete development lifecycle: requirements analysis, UX design, API development, database architecture, CI/CD pipelines, and long-term maintenance.
Deployment of 6-axis and SCARA robotic systems for high-speed pick, place, and assembly operations. We design and manufacture custom end-of-arm tooling in-house, tailored to each application — covering the full integration cycle from cell layout and safety analysis to programming and commissioning.
Sub-pixel defect detection and optical metrology systems for inline quality assurance. We design and integrate camera-based inspection pipelines that catch dimensional deviations and surface defects in real time, keeping reject rates near zero.
Dark-mode operator interfaces designed for rapid cognitive processing and minimal error. We build intuitive touchscreen dashboards that give operators real-time insight into machine state, production metrics, and alarm conditions on the factory floor.
Deterministic control structures built in structured text, ladder logic, and function block diagram. We develop safety-rated programs from simple I/O sequencing to complex multi-station coordination with full documentation and validation.
Custom machines and assemblies designed from the ground up. Every component is engineered in-house using SolidWorks and validated through FEA simulation, with manufacturing outsourced to our trusted network of specialist suppliers. We manage the full lifecycle from initial concept and detailed design through procurement, assembly, testing, and final commissioning at your facility.
High-torque servo synchronization and multi-axis interpolation for complex motion trajectories. From linear gantry systems to coordinated multi-robot cells, we design profiles that maximize throughput with sub-millimeter positioning accuracy.
Structural analysis and finite element simulations to validate designs before manufacturing. We use Altair Inspire, SimSolid, and SolidWorks Simulation to optimize for strength, weight, and fatigue life — catching potential failures at the design stage.
High-end responsive websites and web applications built with performance and aesthetics in mind. We create distinctive digital experiences from corporate sites and product showcases to complex interactive configurators — all optimized for speed, SEO, and conversion. Our designs are fully multilingual, accessible, and built to work seamlessly across desktop, tablet, and mobile.
Wais Abawi is a software engineer with a background in aeronautical engineering and over 15 years of experience across aerospace, high-tech, and industrial automation.
Before joining Motion Dynamics, he spent five years at Lely Industries leading embedded software development for autonomous agricultural systems — from architecture and real-time control to CI/CD pipelines and product ownership.
With earlier experience at ALE Delft building PLC-based machine control software, and aerospace contributions to programs like the Airbus A380 and NH90, Wais brings a rare combination of embedded systems expertise, agile leadership, and a deep understanding of what it takes to ship reliable software in demanding environments.
Faris Saad is a mechanical engineer with a background in aeronautical engineering and over 15 years of experience in machine design, product development, and industrial automation.
After holding leadership roles — including CTO and COO — at ALE Delft, where he scaled a prototype production plant into a full industrial operation, he founded his own engineering firm in 2015.
Today, as Founder and CTO of Motion Dynamics, he leads a multidisciplinary team that designs, builds, and deploys custom machines and automation systems for clients across Europe. A certified SolidWorks Professional and named inventor on four patents, Faris combines deep technical expertise with a hands-on, pragmatic approach to engineering.
