EZCap - Effortless Motion Capture & Biomechanics

Research & Publications

Clinical Biomechanics 2025

Feasibility of automatic knee kinematic feature learning for discriminating between individuals with and without a history of an anterior cruciate ligament reconstruction

BR Butler, B Gholami, BZW Low, Q Mei, D Hollinger, Z Altai, DW Evans, et al. Innovative machine learning approach for automatic detection of ACL reconstruction history using knee kinematic features.

Read Paper

Frontiers in Bioengineering and Biotechnology 2025

Self-supervised learning enhances accuracy and data efficiency in lower-limb joint moment estimation from gait kinematics

Y Li, J He, B Liew, DS Hollinger, Q Mei, B Gholami, M Fasli, et al. Advanced self-supervised learning techniques improving joint moment estimation accuracy and reducing data requirements for gait analysis.

Read Paper

5G4PHealth Project - Funded by Innovate UK 2023-2026

5G-Enabled Remote Healthcare Monitoring and AI-Powered Motion Analysis

Ongoing research developing infrastructure and protocols for real-time motion analysis in telehealth applications using 5G networks, machine learning, and computer vision technologies for clinical assessment.

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Published Papers

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Citations

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Collaborating Institutions

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Research Funding

Meet Our Team

World-class researchers and engineers pushing the boundaries of healthcare technology

Dr. Xiaojun Zhai

Reader & Principal Investigator

University of Essex

Lead Expert in AI and PI of the Embedded Intelligent Systems (EIS) Laboratory at the School of Computer Science and Electronic Engineering (CSEE).

Dr. Bernard Liew

Senior Lecturer

University of Essex

School of Sport, Rehabilitation and Exercise Sciences. Physiotherapist and biomechanist with expertise at the intersection of rehabilitation, movement science, and machine learning.

Dr. David Hollinger

Senior Research Officer

University of Essex

Expert in AI, biomechanics, and wearable technology with extensive research in motion analysis and healthcare applications.

Behnam Gholami

PhD Student

University of Essex

School of Sport, Rehabilitation, and Exercise Sciences. Specializes in AI deployment and data curation and management of large biomechanical datasets.

EZBatch - Batch Video Analysis

Process multiple videos at once with our desktop application

Analyze Multiple Videos Effortlessly

Desktop application for bulk video processing • Simple drag-and-drop • Automatic CSV export

Prefer not to download ZIP? Use in-browser drag-and-drop batch analysis.

Open Web Batch (Drag & Drop)

Free • No installation required • Works offline

Lightning Fast

Process dozens of videos in minutes, not hours

Drag & Drop

No complex setup - just drag your videos and go

CSV Export

Automatic export ready for Excel or statistical analysis

How to Use EZBatch

1

Open the Application

Download pose_extractor-1.0.0-windows.zip, extract it, then run pose_extractor.exe from the extracted folder.

Tip: Windows may show a security warning - click "Run anyway"

2

Select Video Files

Click "Select Videos" or drag and drop your video files directly into the application window. Select multiple files at once.

Tip: Supports MP4, AVI, MOV, and WebM formats

3

Choose Output Folder

Select where you want to save the results. CSV files will be automatically created - one for each video analyzed.

Tip: CSV files include frame-by-frame joint angles & confidence scores

That's it! Click "Start Analysis" and watch the progress

Processing videos...

System Requirements

Operating System: Windows 10 or later

RAM: 4GB minimum (8GB recommended)

Storage: 500MB free space

Processor: Intel Core i3 or equivalent

Frequently Asked Questions

Is my video data uploaded anywhere?

No! EZBatch processes everything locally on your computer. Your videos never leave your device, ensuring complete privacy and GDPR compliance.

How many videos can I process at once?

There's no hard limit! You can select as many videos as you want. Processing time depends on your computer's performance and video file sizes. Each video is processed sequentially.

What data is included in the CSV files?

Each CSV contains: frame number, timestamp, joint angles (hip, knee, ankle, elbow, shoulder), keypoint coordinates (x, y), and confidence scores for each detection. Perfect for biomechanical analysis!

Do I need an internet connection?

No internet required! Once downloaded, EZBatch works completely offline. Process videos anywhere - in the lab, clinic, or field.

Secure • Privacy-first • Free forever

SHA256: ECE5706DCB93253DD8708A4EBB627C043014109ACA35E6BEF5A0590225BFE1C4

Verify after download with PowerShell: Get-FileHash .\pose_extractor.exe -Algorithm SHA256

Download checksum file (SHA256SUMS.txt)

User Reviews & Feedback

Share your experience with EZCap

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FAQ: Single-Camera Markerless Motion Analysis

Answers to practical and technical questions about using EZCap in clinic, research, and remote settings.

Best Use

Screening and trend tracking with consistent protocols.

Key Limitation

Single-view capture is sensitive to angle and occlusion.

Clinical Position

Decision support, not a standalone diagnostic replacement.

Data Quality

Interpret outputs alongside confidence and protocol consistency.

What is a single-camera markerless system?

It estimates body keypoints from standard video without reflective markers or multi-camera lab hardware. EZCap uses AI models to convert that video into biomechanical features.

Is EZCap a replacement for full 3D motion labs?

No. EZCap improves accessibility and scale for many use cases, but high-precision volumetric biomechanics still favors dedicated multi-camera laboratory setups.

What is EZCap best suited for?

Repeated functional assessment, remote follow-up, and trend monitoring over time when setup is standardized between sessions.

How accurate are one-camera joint angle outputs?

Accuracy varies with camera angle, movement plane, lighting, clothing, and occlusion. In-plane movements are generally more robust than out-of-plane rotations.

Why do repeated trials sometimes differ?

Small setup changes in distance, height, framing, speed, and subject orientation can change keypoint estimates. Use the same protocol each session.

Should I prioritize absolute values or trends?

In most practical workflows, trends over time are more reliable than one-off absolute values, unless setup conditions are tightly controlled.

What camera setup is recommended?

Use a stable mount, keep full body regions of interest visible, align camera to the main movement plane, and avoid hand-held recording.

How much do lighting and clothing matter?

A lot. Even lighting and fitted clothing usually improve tracking confidence. Backlighting, shadows, and loose garments can degrade measurements.

Can assistive devices or occlusion affect results?

Yes. Canes, walkers, braces, or limb overlap may obscure landmarks and lower confidence. Document these conditions and compare like-for-like sessions.

How many trials should be collected?

Typically 2 to 3 clean trials per task. If variability is high, collect more and use confidence-based filtering before interpretation.

Can EZCap be used for remote monitoring?

Yes. Remote use is a key strength, but data quality depends on clear participant setup guidance and repeatable test conditions.

Is EZCap a diagnostic device?

No. It is a decision-support tool and should be interpreted alongside history, examination, and established clinical measures.

How should privacy and governance be handled?

Follow your organization policies for consent, retention, storage location, access controls, and compliance workflows. Governance is deployment-specific.

Important: For high-stakes decisions, corroborate EZCap outputs with standard clinical assessments and professional judgment.

Research Context

Butler BR et al., Clinical Biomechanics (2025): automatic knee kinematic feature learning for ACL reconstruction history discrimination.
Li Y et al., Frontiers in Bioengineering and Biotechnology (2025): self-supervised learning for lower-limb joint moment estimation from gait kinematics.
5G4PHealth Project (2023-2026): remote healthcare monitoring and AI-powered motion analysis infrastructure.

EZCAS

Personalized treatment recommendations powered by the deployed R Shiny app

About the CASINO Study and How This Recommender Works

This app was developed from the CASINO study, which investigated outcomes of surgical versus conservative treatment in patients with cervical radiculopathy. In collaboration with Yunlong Liang, University of Essex Institute of Social & Economic Research (ISER), we created personalized treatment effect models using baseline demographic, clinical, and MRI characteristics.

The models estimate whether an individual patient is more likely to benefit from surgery or conservative care, generating patient-specific benefit scores for neck-related disability, neck pain intensity, and arm pain intensity at 52 weeks and 104 weeks.

1. Enter baseline information

Demographic, clinical, and MRI characteristics are used to personalize predictions.

2. Compare likely benefits

See treatment benefit scores by outcome at both 52 and 104 weeks.

3. Explore recommendations

Review outcome-specific recommendations and visualize how benefit differs across patients.

Current status: This is a preliminary version of the app, intended to demonstrate the modelling approach and support further development.

App source: dholling4.shinyapps.io/cas_shiny

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About EZcap

We're revolutionizing healthcare through cutting-edge motion analysis technology, making advanced biomechanical assessment accessible to clinicians worldwide.

Funded by Innovate UK, our platform combines state-of-the-art computer vision, machine learning, and clinical expertise to deliver precise, real-time motion analysis. From gait assessment to hand function evaluation, we provide healthcare professionals with the tools they need to make better clinical decisions.

Musculoskeletal Disease Prevalence

1.71 billion people worldwide affected by musculoskeletal conditions (WHO, 2023)

Global Burden of Disease

Leading cause of disability globally - 149 million DALYs lost annually (WHO)

AI-Powered Solution

Accessible, validated technology enabling early detection and remote monitoring of movement disorders

Powered By

JavaScript

TensorFlow

OpenCV

WebGL

5G Networks

WebRTC

Ready to Transform Your Practice?

Join leading healthcare institutions using our motion analysis platform

General Inquiries

Ask anything about EZCap, clinical use, research, pricing, or custom builds. We keep this simple and reply directly.

Want your custom application?

Tell us what you want to measure, who it is for, and the workflow you need. We can discuss a tailored EZCap experience.

Book a demo

Location

University of Essex
Wivenhoe Park
Colchester, CO4 3SQ
United Kingdom

Email

dh25587@essex.ac.uk

Phone

+44 (0)1206 873333

Fastest way to reach us

Send a general question

Your message goes to dh25587@essex.ac.uk.

EZCap Effortless Motion Capture in Three Clicks

What Can You Do With EZCap?

Gait & Movement

Hand & Wrist

Trunk Control

Clinical Protocols

Instant Feedback

Try Example Videos

Global User Distribution

Research & Publications

Feasibility of automatic knee kinematic feature learning for discriminating between individuals with and without a history of an anterior cruciate ligament reconstruction

Self-supervised learning enhances accuracy and data efficiency in lower-limb joint moment estimation from gait kinematics

5G-Enabled Remote Healthcare Monitoring and AI-Powered Motion Analysis

0

0

0

0

Meet Our Team

Dr. Xiaojun Zhai

Dr. Bernard Liew

Dr. David Hollinger

Behnam Gholami

EZBatch - Batch Video Analysis

Analyze Multiple Videos Effortlessly

Lightning Fast

Drag & Drop

CSV Export

How to Use EZBatch

Open the Application

Select Video Files

Choose Output Folder

System Requirements

Frequently Asked Questions

User Reviews & Feedback

Leave Your Review

What Users Are Saying

FAQ: Single-Camera Markerless Motion Analysis

Best Use

Key Limitation

Clinical Position

Data Quality

Research Context

EZCAS

About EZcap

Musculoskeletal Disease Prevalence

Global Burden of Disease

AI-Powered Solution

Powered By

Ready to Transform Your Practice?

General Inquiries

Want your custom application?

Location

Email

Phone

Send a general question

EZCap
Effortless Motion Capture in Three Clicks