Skills & Services
Explore my diverse range
of professional services.
PLC Programming
Specialized in Siemens S7
Automation & Process Control
(Rare obsolete brands and also new generation brands)
In 2025, PLCs remain the robust backbone of industrial control, but their role is evolving. AI no longer operates in a separate silo; it now empowers PLC systems with predictive maintenance, real-time optimization, and advanced anomaly detection. My expertise bridges this gap, leveraging AI-driven insights to write smarter, more efficient ladder logic and control strategies that preempt failures and maximize productivity.
PLC Automation now is smarter and more proactive. The core principles of reliable, deterministic control are more critical than ever, but they are now augmented by an AI co-pilot.
I design and program systems where PLCs handle the real-time execution, while AI analyzes operational data to predict equipment wear, optimize setpoints on-the-fly, and identify subtle inefficiencies invisible to traditional programming. This fusion creates a resilient, self-optimizing, and highly competitive automated environment.
Mechanical Engineering
3D design & production of simple & complex parts (Stainless Steel / Coper / PTFE / etc..)
Conventional Lathing/Milling
CNC Programming (7 axis)
The 2025 mechanical engineering workflow is deeply augmented by AI. My process involves using AI-driven generative design and topology optimization to create high-performance, novel parts that meet strict load and weight constraints. For manufacturing, I utilize AI software that automatically generates efficient, collision-free toolpaths for complex multi-axis CNC operations, optimizing for material usage, tool wear, and cycle time, while seamlessly integrating with conventional methods for cost-effective solutions.
Mechanical engineering in 2025 is no longer just about designing for manufacturability; it's about designing for validated and optimized manufacturability. AI acts as a collaborative partner, using advanced structure analysis to rapidly predict real-world performance and identify potential failures before prototyping. My expertise ensures that a part designed in CAD is not just a 3D model, but a rigorously tested, data-rich blueprint ready for an AI-driven manufacturing cell, bridging the digital and physical with maximum efficiency and reliability from concept to CNC-milled component.
Electric & Electronic Works
LV/HV electric field operations
CNC & Conventional Lathing & Milling (7 axis)
The 2025 EE landscape is defined by the co-design of hardware and embedded intelligence. I utilize AI-driven Electronic Design Automation (EDA) software for tasks like component selection, thermal management simulation, and predicting electromagnetic interference. At the system level, my work focuses on creating the sensor and power infrastructure that feeds real-world data to edge-AI models, enabling devices to make localized, intelligent decisions without constant cloud dependency.
Electrical and electronic systems in 2025 are the central nervous system of any smart product or facility. AI is no longer an afterthought but a primary design constraint. My expertise lies in architecting these systems—from power distribution to embedded PCBs—with AI in mind. This means designing robust data acquisition pathways, ensuring clean power for sensitive AI chips, and implementing hardware that can adapt its behavior based on machine learning insights, creating truly responsive and evolving electro-mechanical ecosystems.
Industrial & Medical
ABB - Endress+Hauser - Rosemount - KROHNE - SarcoSpyrax & others
In 2025, instrumentation is the critical bridge between physical processes and intelligent decision-making. My expertise extends beyond selecting and calibrating sensors to integrating them into systems where their data is the lifeblood for AI. This enables predictive maintenance in industrial settings and empowers diagnostic support and patient monitoring in medical devices, transforming raw measurements into actionable, intelligent insights.
In the modern industrial plant, instrumentation is the foundation of the digital twin. My focus is on deploying smart sensors and control loops that feed real-time data on flow, pressure, and temperature to AI models. These models predict equipment failures, optimize energy consumption, and ensure product quality, transforming a reactive control system into a proactive, self-optimizing asset.
Instrumentation
Medical instrumentation is about creating clinically intelligent devices. My expertise lies in designing systems that go beyond accurate measurement—they interpret. By integrating AI, devices can analyze complex biosignals in real-time, providing clinicians with early warnings of patient deterioration or assisting in diagnostic interpretation. This shifts the role of instrumentation from passive monitoring to active, life-saving partnership.
Metal Structure
TIG / MIG / WIG / ATEX Welding
In 2025, creating robust metal structures is a fully integrated digital-to-physical process. I leverage AI-driven analysis in SolidWorks to simulate stresses and optimize material use before fabrication. This digital intelligence directly informs the welding phase, where my mastery of TIG, MIG, and ATEX processes ensures that the physical structure embodies the calculated strength and integrity of the design, built to perform reliably in any environment.
My workflow utilizes AI-powered FEA modules within SolidWorks to perform rapid iterative analysis, predicting failure points and suggesting optimal gusset and brace placement. This data-driven design is then executed with precision welding, where procedures can be informed by AI that recommends parameters for specific joints and materials, ensuring maximum strength and compliance, especially for critical ATEX applications.
Metal structure is born from data. My expertise connects AI-optimized design with master-level welding execution. I use tools that allow AI to guide the design toward ideal weight-to-strength ratios and then physically realize those designs with a welder's skill. In an era of automation, this combination of digital analysis and hands-on craftsmanship—especially for specialized ATEX environments—is how we build structures that are smarter, safer, and more efficient by design.
3D Design & Welding
Network Engineering
Expertise in lathing and milling on CNC machines.
Software Engineering
Specialized in Siemens S7 for various industries.
Pharmaceutical Instrumentation
Mecanical & Hydraulic Works
Software Engineering
All Food & Dairy Peocess
Medical Instrumentation
Metal Structure 3D Design
Industrial Cooling Systems
Quarry & Crusher Works
On Deep Sea Maritime Works
Network Engineering
Industrial Process Instrumentation
Expertise in lathing and milling on CNC machines.
Expertise in lathing and milling on CNC machines.
Expertise in lathing and milling on CNC machines.
Expertise in lathing and milling on CNC machines.
FAQ
What services offered?
I provide process design and automation.
How to contact you?
You can reach me via my website contact form.
What industries do you serve?
I serve various industries including oil, gas, and pharmaceuticals.
Do you offer training sessions?
Yes, I conduct training and community talks.
What is your expertise?
I specialize in PLC programming and process design.
Are you available for consultations?
Yes, I offer consultations for various projects and needs.
Locations
Explore our various service locations across industries.
Main
Maroua, Noth-far Cameroon
Branch
9 AM
Office
Kelemat - N'Djamena - Chad
Support
5 PM
24/7
Lab & WorkShop
Oum-Rguibe, N'Djamena - Chad