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  • Research & Academia

Advanced Robotic Platforms for Scientific Discovery

Modular, open-architecture robotic systems designed for experimental automation, human-robot interaction studies, and AI research. Accelerate discovery with 24/7 reproducible experimentation.
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Research Platform Capabilities

Technical specifications for advanced robotics research
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±0.1mm

Positioning Accuracy

1kHz

Control Frequency

ROS 2.0

Native Integration

API First

Design Philosophy

Research Challenges

Modern logistics operations face unprecedented demands that require intelligent automation

Experimental Consistency

Manual experimental procedures introduce variability that affects reproducibility and statistical significance, especially in long-term studies.
±15% manual variance
24/7 operation needed

Data Collection Burden

Manual data collection limits experiment scale and frequency, while introducing recording errors and limiting real-time analysis capabilities.
1000+ data points/hour
Automated logging

Platform Integration

Research often requires integrating multiple sensors, actuators, and software systems with incompatible interfaces and protocols.
ROS/ROS2 compatible
API-first design

Human-Robot Interaction

Studying natural human-robot interaction requires platforms that can safely operate in shared spaces with adaptive behavior.
ISO/TS 15066 compliant
Real-time adaptation

Research Platforms

Modular robotic systems engineered for scientific research and development
ROS 2.0 Native

MRP-1000 Modular Research Platform

Fully modular research robot with interchangeable end-effectors, sensor suites, and compute modules. Designed for experimental automation and human-robot interaction studies.

Swarm Ready

SRK-200 Swarm Robotics Kit

Compact, affordable robotic platforms for multi-agent and swarm robotics research. Includes development SDK, simulation environment, and fleet management tools.
HRI Focused

HRI-3000 Interaction Platform

Advanced humanoid platform designed specifically for human-robot interaction research. Features expressive face, natural gesture capabilities, and safe operation in shared spaces.

Open Architecture & API Access

Our research platforms provide full API access and native ROS/ROS2 compatibility, allowing seamless integration with existing research software, simulation environments, and data analysis pipelines.
ROS 1
ROS 2
Python API
REST API
Gazebo
MATLAB

Full API Documentation GitHub Repository Available

Research Grant Support

Specialized support for research funding applications and grant proposals

Proposal Support​

Technical documentation and support letters for NSF, NIH, ERC, and other grant applications.

Academic Discounts

Substantial discounts for universities and research institutions, with flexible payment terms.

Research Partnerships

Collaborative research opportunities and co-authorship support for groundbreaking studies.

Research Impact Calculator

Estimate the acceleration of discovery and research efficiency gains

Input Your Parameters

40 hours

Your Estimated Research Impact

Time to Discovery
-42%

Reduction in study duration through automated experimentation

Data Quality Improvement
+97%

Improvement in data consistency and reproducibility

Staff Efficiency
+65%

Increase in research output per FTE through automation

Publication Acceleration
2.3x

Accelerated publication timeline through continuous operation

Research Case Studies

Real-world research applications of our robotic platforms

Biomedical Research Automation

University Research Lab | Drug Discovery Pipeline

The Challenge

Manual cell culture and drug screening procedures limited throughput to 96 samples per week with 85% consistency, creating bottlenecks in early-stage drug discovery.

The Solution

Deployed MRP-1000 modular research platforms with custom end-effectors for automated cell culture, drug dispensing, and high-content imaging in biosafety cabinet environments.

10x

Throughput increase

99.5%

Protocol consistency

24/7

Operation capability

3

Publications supported

Human-Robot Interaction Research

Psychology Department | Social Robotics Study

 

The Challenge

Limited robotic platforms with natural interaction capabilities for studying human responses to robot behavior in social contexts, requiring custom development for each study.

The Solution

Implemented HRI-3000 platforms with programmable social behaviors, natural language interaction, and ethical oversight systems for longitudinal HRI studies.

500+

Study participants

12

Experimental conditions

95%

Data completeness

2

Journal publications

Research Platform Integration

Our structured approach to deploying robotic systems in research environments

1

Research Workflow Analysis

Our research specialists work with your team to analyze experimental protocols, data collection requirements, and integration needs with existing laboratory equipment and software systems.

2

Platform Customization & Simulation

We customize robotic platforms with appropriate sensors, end-effectors, and safety systems for your specific research domain. Digital twin simulations validate protocols before physical deployment.

3

API Integration & Training

Our engineers integrate platforms with your research software (ROS, MATLAB, LabVIEW, etc.) and provide comprehensive training on API usage, protocol programming, and data management.

4

Ongoing Support & Collaboration

We provide continuous technical support, software updates, and research collaboration opportunities. Our team assists with experimental design, data analysis, and publication support.

Advance Your Research with Robotic Platforms

Contact our research specialists to discuss your experimental requirements and design a customized robotic solution for your laboratory.
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Featured resources

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UNS Robotics

Intelligent robotics and AI systems integration for industrial transformation.

Location: London, United Kingdom
Email: sales@unsrobotics.com
Phone: +44-7405-01-7351
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© 2025 UNS Robotics. All rights reserved. UNS Robotics is a registered company in England & Wales.

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