Robotics Testing Services: Engineering Safety & Performance for the 2026 Automation Era
As robotics transforms the global economy, Testriq ensures your autonomous systems stay ahead. We provide specialized testing to guarantee safety and compliance in even the most un-predictable environments. From industrial co-bots to service-oriented humanoids, our robotic testing methodology bridges the gap between digital simulation and physical deployment.
"Companies must analyze robotics rigorously as the industry moves toward 'Physical AI' and advanced automation. Our team of specialized robotics technicians leverages decades of experience to deliver testing solutions that satisfy both technical performance and stringent international safety standards."
Engineering Trust Across Borders
Testriq uses a strict "Compliance-First" methodology to provide robotic testing services that satisfy both technical performance and stringent international safety standards.
| Standard | Focus Area | Relevance for 2026 |
|---|---|---|
| ISO 10218-1/2:2026 | Industrial Robot Safety | Global safety requirements for co-bots & integrators. |
| ISO 13482:2014 | Service & Personal Care | Safety for robots in human-centric enviroments. |
| SOC2 Type II & GDPR | Data & Telemetry Security | Safeguarding sensor data and private telemetry. |
| IEC 61508 / 62061 | Functional Safety | Validating electrical control systems functionality. |
| UL 3100 / CE | Compliance Certification | Final audit for global market entry & safety marks. |
Navigating 2026 Global Robotics Hurdles
The complexity of robotic systems has reached a critical point where traditional software QA is no longer sufficient. Testriq addresses the five biggest global hurdles in robotics testing.
ISO 10218:2026 Compliance
Unlike traditional software QA (which follows ISO/IEC 29119), robotics has historically lacked a unified testing framework. This often leads to inconsistent validation across multi-vendor co-bot integrations. Our Fix: To ensure global compliance, we test according to ISO 10218-1:2026 (Manufacturers) and ISO 10218-2:2026 (Integrators). We provide structured test case specifications that go beyond implied safety, making functional requirements explicit and traceable.
Key Features:
- ISO 10218-1 Manufacturers QA
- ISO 10218-2 Integrators Audit
- Traceable Test Specifications
- Co-bot Multi-Vendor Integration
ISO 10218:2026 Compliance
Our Proven Robotic Testing Process
Our systematic approach ensures comprehensive robotic testing coverage, delivering reliable, safe, and high-performance robotic systems for your applications.
Step 1: Find Risks and Set Goals
We use FMEA to find hazards like crashes or battery overheating. We then finalize the required testing metrics for your project.
Key Activities:
- FMEA Hazard Identification
- Battery Thermal Profiling
- Mechanical Stress Analysis
- Project Metric Finalization
Step 2: Virtual Simulation (Digital Twin)
Testing scenarios virtually to identify hardware-software latency and AI pathing errors before physical builds.
Step 3: Proximity & Force Interaction Testing
Measuring stopping distances and contact forces to satisfy ISO 10218 collaborative safety limits.
Step 4: Verify Hardware Reliability
We test robots under extreme heat, noise, and vibration. These tests help identify early signs of wear or sensor damage.
Step 5: Ensure System Accuracy
Our team automates QA to sync sensor data with your enterprise systems. This confirms that all information is correct and consistent across your ERP and CRM.
Step 6: Audit Safety and Compliance
We conduct a final 24/7 stress test on your system. This ensures that emergency stops and power modes meet UL and CE safety standards.
Robotic Testing Workflow
Visualizing our comprehensive robotic testing methodology
Scaling the Virtual Workforce
Beyond physical robots, Testriq is a leader in RPA Testing Services. While traditional automation works at the backend (scripts/APIs), RPA mimics human-mimicking interactions at the UI level.
Automated Bot Testing
We ensure your software bots handle UI fragility and minor interface changes without breaking.
Cognitive Automation
Testing bots that use AI to process unstructured data, ensuring reliability within complex systems.
Automate Older Workflows
RPA testing to streamline tasks on legacy systems without needing deep backend changes.
Why Choose Testriq for Robotic Testing?
We combine robotic expertise with testing excellence to deliver robotic testing services that ensure reliable, safe, and high-performance robotic systems for your applications.
Specialized Robotics Technicians
Our team has decades of experience working with precision robotics and high-end automation setups, providing expert oversight for complex deployments.
Robotic Capabilities:
Sim2Real Expertise
We reduce performance drops by 40% with our Digital Twin and Physical AI-driven testing, ensuring reliability from simulation to deployment.
Robotic Capabilities:
Global Export Readiness
We ensure your products are ready for the USA and EU markets with rigorous UL 3100 and CE audits, meeting all regional safety requirements.
Robotic Capabilities:
100% Safety Compliance
Mapped to ISO 10218 and ISO 13482 for guaranteed collaborative safety and risk-free human-robot interaction.
Robotic Capabilities:
Robotic Testing Excellence Network
Robotic systems and technologies we've successfully validated
Ready to Validate Robotic Excellence?
Join 200+ companies who trust our robotic testing expertise. Get started with a comprehensive robotic system assessment and ensure your robots are reliable and safe.
The Testriq Robotics & RPA Tech Stack
We utilize a hybrid stack of physical diagnostics and digital automation to provide enterprise robotics and RPA testing services specifically designed for the 2026 automation era.
Simulators
Gazebo
3D multi-robot simulator with physics engines
NVIDIA Isaac Sim
Photorealistic Physical AI training simulator
Webots
Professional simulator for industrial & service robots
Digital Twin
Modeling environmental stress factors virtually
Middleware & Frameworks
ROS
Robot Operating System messaging middleware
ROS2
Industrial strength real-time robotics framework
Move It
Advanced motion planning for robotic arms
OpenCV
Computer vision for robotic perception systems
RPA & UI Automation Tools
UiPath
Enterprise RPA platform for business processes
Blue Prism
Robotic process automation for digital workforces
Automation Anywhere
Cognitive automation for complex UI workflows
Selenium/
Appium
Integration testing for robotic UI systems
Safety Hardware
Force-Torque Sensors
Measuring contact forces for ISO compliance
Laser Scanners
3D vision & proximity safety interlocks
Light Curtains
Opto-electronic presence sensing for safety
3D Vision Systems
Advanced environmental mapping and safety
Analyze and Diagnose Systems
Vibration Analyzers
Diagnostic tools for mechanical reliability
Joint Torque Diagnostics
Monitoring actuator performance and wear
Telemetry Dashboards
Real-time monitoring of robotic performance
FMEA Tools
Failure mode tracking and risk analysis
Custom Tool Integration
We support full-cycle testing for robotics software and can integrate with your tools or recommend best-fit frameworks, or recommend the best combination for your specific robotic testing requirements.
Frequently Asked Questions
Get answers to common questions about our robotic testing services and methodologies.
The differences between RPA and traditional test automation lie in their integration level. RPA copies human actions directly through the user interface, making it perfect for legacy systems. Traditional automation integrates directly into backend APIs and scripts for long-term stability in the SDLC.
Ready to Validate Your Robotic Systems?
Get started with comprehensive robotic testing services. Our experts are ready to help ensure your robots are safe, reliable, and perform at their best.
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(+91) 915-2929-343
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contact@testriq.com
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