We innovate next-generation products while continuously advancing design processes, methods, and tools for excellence. SaniaX drives solutions that enhance performance, safety, robustness, and efficiency while minimizing environmental impact across industries.
At SaniaX, we empower multi-industry projects with cutting-edge systems engineering expertise, transforming complexity into seamless, high-performance solutions. Our approach ensures the intelligent integration and interoperability of all system components, delivering efficiency, reliability, and scalability.
From initial concept to end-of-life recycling, we provide a holistic framework for managing product lifecycles, optimizing technical performance, cost efficiency, and sustainability. With a rigorous focus on requirements traceability, we leverage state-of-the-art tools like 3DX, DNG, RTC, and RQM to streamline design data, development processes, and collaborative workflows.
With SaniaX, innovation meets precision—turning vision into reality through smart, systematic engineering.
At SaniaX, our Innovation Department (DIN) is more than just a support function—it’s a catalyst for ground-breaking advancements. We collaborate as a true innovation partner, leveraging cutting-edge methodologies to tackle the complexities of modern systems engineering.
Through our Smart Design research program, we push the boundaries of technology, integrating Model-Based Systems Engineering (MBSE), Multi-Disciplinary Analysis and Optimization (MDAO), Microsoft Baseline Security Analyzer (MBSA), and MB testing to create smarter, more efficient systems.
Our expert teams work closely with both industry leaders and disruptive start-up’s, driving Multifunctional Design, Co-Engineering, Automated Inspections, Advanced Repair Methodologies, Circular Economy Integration, and AI-driven Traceability. We bridge the gap between MBSE and MBSA, ensuring seamless integration and optimization across the entire system lifecycle.
Beyond traditional engineering, our DIN pioneers transformative concepts like the SRM (Smart Requirement Modelling) Factory, automated Verification & Validation (V&V), traceability by design, and embedded health monitoring—delivering future-proof solutions that redefine industry standards.
As systems grow in complexity and technologies converge, SaniaX brings the multidisciplinary expertise needed to design, optimize, and deliver high-performance, next-generation systems—from concept to completion. Let’s engineer the future, together.
With deep expertise in complex architectures built over years of experience, SaniaX ensures seamless certification, optimization, and evolution of your systems—no matter how diverse the technologies involved. From avionics and hydraulics to electrical and beyond, we bring cross-domain mastery to tackle even the most intricate challenges.
Our commitment to innovation extends globally, exemplified by the development of a multi-technology nearshore system design center in Spain, accelerating high-performance engineering for our partners. Whether upgrading legacy systems or pioneering next-generation solutions, SaniaX transforms complexity into precision-engineered success.
We specialize in the design, specification, and integration of complex, multi-site, and multi-program systems, ensuring optimal cost, quality, and timeline management in full compliance with industry standards.
From concept to launch, we engineer, validate, and optimize every component of your system. Our expertise extends to test planning, simulation, and real-equipment validation, ensuring flawless integration across diverse platforms.
In the space sector, we collaborate with major industrial leaders and agencies like CNES, driving end-to-end Assembly, Integration & Testing (AIT) for satellite systems. Through a Franco-American partnership, we support satellite component integration, covering everything from procedure definition and subsystem verification to final performance validation—right up to launch.
With multidisciplinary expertise and cutting-edge methodologies, SaniaX transforms complexity into innovation, delivering high-performance systems built for the future.
