Today we can offer development of complex mechatronic and hardware systems:
From the first sketch to a profitable, commercial product

'Turnkey' engineering solutions that eliminate integration risk.
We combine mechanical engineering, advanced electronics and reliable software under one roof – ensuring protection of your intellectual property, fast time‑to‑market and scalability without hidden iteration costs.

Engineering design, technology and procedures aligned with industry expectations:

• • NASA RASSOR Challenge
• • Go2Space Hub
• • Ohio Aerospace Institute
• • University of Belgrade – Faculty of Mechanical Engineering

Problem & Solution

The development of physical products does not forgive mistakes. We design systems that fully anticipate and eliminate them.

Investing capital into the development of physical machines, electronics and smart devices brings specific and expensive challenges. The traditional, fragmented development cycle leaves key phases to disconnected teams – designers, mechanical engineers, programmers and factories. The result of fragmentation is the notorious "hardware startup death valley":

• 1. Information loss at interfaces: Software that doesn't communicate properly with sensors due to poorly aligned specifications.
• 2. Missed deadlines (Time‑to‑Market): Multiple, costly prototype iterations caused by errors in early design.
• 3. Manufacturing unviability: Brilliant prototypes that are economically and technically unfeasible for serial production in thousands of units (lack of DFM – Design for Manufacturing).

Our technological approach fundamentally changes this risky paradigm. Relying on concepts of concurrent engineering and rigorous manufacturing‑process methodologies, we guarantee that your product works flawlessly, is protected by patents, and is fully optimized for reliable and profitable serial production.

Our Process ("Turnkey" engineering)

Total responsibility for the product lifecycle. One vision. One execution team.

We provide multidisciplinary engineering support through all key steps – assuming the technical risk on your behalf.

• 1. Architecture, Research and Proof of Concept (PoC): We develop a complete system architecture that merges machining, embedded electronics and control software requirements into a cohesive vision.
• 2. Intellectual property protection (IP): Development is conducted with proactive creation of patentable solutions and formation of a technological "economic trench" that shields your investment from competitors and copying.
• 3. Holistic engineering and design: Our team works in parallel on complex 3D CAD models, PCB schematics and control software.
• 4. Rapid prototyping: Internal manufacturing capabilities allow us to quickly turn designs into real, tangible machines.
• 5. Rigorous testing and validation (EVT & DVT engineering): We subject devices to extreme stress conditions, ensuring compliance with international regulatory standards and certifications.
• 6. Serial production and supply‑chain optimization: From establishing a stable Hardware Bill of Materials (HBOM) to scaling production lines, we turn a prototype into a profitable commercial product.

Case Studies

How we solve seemingly unsolvable engineering challenges – case studies

Trust is not earned by words, but by work on projects. Victor Production delivers results where linear engineering approaches fail.

Project 1: mGuard (Mobile Bodyguard)

• Domain: IoT, sensorics, mobile software integration.
• Challenge: The market required a reliable security system capable of instantaneous autonomous response without visual interaction with the screen.
• Solution: We developed a commercial Android application that intercepts hardware logic and translates physical inputs into an automatic communication sequence. The "Power is Panic Button" feature collects GPS data, sends an SMS, and initiates a hands‑free call to emergency services.

Project 2: SvetoLet – 4‑in‑1 Modular VTOL Aircraft

• Domain: Mechanical engineering, fluid dynamics, IP development, safety mechanisms.
• Challenge: Develop an innovative, patentable vertical‑takeoff‑and‑landing aircraft concept.
• Solution: We designed a modular concept with the hovering agility of a helicopter and the cruise speed of an airplane. The design integrates an instant ballistic parachute on the aircraft and pilot suit for operations at critically low altitudes.

Project 3: NASA RASSOR mission equipment optimization

• Domain: Spatial optimization, precision machining.
• Challenge: Redesign a robot's rotary bucket‑drum system for lunar regolith excavation under extreme weight and volume constraints.
• Solution: Our "VPR 21" configuration successfully reduced the working length to 300 mm (well below NASA's 360 mm limit). With a measured 24.09 liters, VPR 21 achieved a working capacity nearly 37 % above the stated NASA minimum.

Risk Management

How do we structurally de‑risk your projects and capital investments?

An innovative product without commercial and manufacturing stability is just a risky experiment.

• 1. Legal and technical transparency: Every line of code and CAD sketch is created within a protected IP framework, ensuring clean ownership free of third‑party copyright claims.
• 2. Supply‑chain continuity (HBOM): We design electronics using components resistant to market shocks and shortages.
• 3. Test resilience (DVT/PVT Design and Production Validation – analytics): Through FMEA methodology we proactively eradicate weaknesses in mechanical stress points before mass production begins.

Conclusion:

Ready to turn vision into materialised success?

Don't let technical complications jeopardize the profitability and commercialization of your idea. Entrust us with solving engineering and logistical risks while you focus on scaling the business.