Prophea^eye

The infinitely scalable

Eye Tracking Solution

Turbocharge your Human Behavior Research Lab

High Precision Eye-Tracking Analysis meets Scalable Lab Power

Break barriers with real-time, multi-subject precision. Enter the world of Prophea.X

Prophea^eye powers streamlined eye-tracking analysis for infinitely scalable eye-tracking and video observation.

With event-optimised timelines and dynamic Project-AOIs (Areas of Interest) automatically identified across all participants in 3D, Prophea^eye enables fast-track, in-depth analysis.

Instantly unify eye-tracking analysis with neuro & physio sensor signals and pair your participants with technical, performance, or device and environment data in one native framework.

An Eye looking at us representing the imense power of eye tracking technology,s i.e. in connection with autonomous vehicles, where human biophysical data thrives progress

Ergoneers_Multi-Eye-Tracker_solution_PropheaX

Gaze Analysis rethought. Advanced mobile eye-tracking analysis software using dynamic Global Aois

Access more than 30 fast-track Eye-Tracking Metrics & KPIs

Duration of First Fixation
Mean Fixation Duration
Total Fixation Duration
Number of Fixations

Number of Glances
Total Glance Time
Mean Glance Duration
Glance Rate
AOI Attention Rate
Glance Location Probability

Link Value Probability
Time to First Glance
Glance Duration of Specified Percentile
Last AOI Viewed
AOI at Interval End
Percentage Transition Time
Percentage Eyes Off AOI
Total Eyes Off AOI Time
Glance Location Probability
AOI Attention Ratio
Glance Duration of Specified Percentile

Mean Saccade Duration
Number of Saccades
Mean Peak Velocity
Minimum & Max Peak Velocity
Standard Deviation of Peak Velocity
Total Saccade Amplitude
Mean Saccade Amplitude
Minimum & Max Saccade Amplitude
Time to First Saccade

From your simulator- and behavior research-lab to realistic studies, open in the wild.

What can I do with Prophea^eye

Challenge
In research fields like behavioral science, usability testing, marketing, and driver monitoring, understanding real-time attention and gaze patterns of multiple individuals simultaneously poses significant difficulties. Traditional eye tracking solutions often fall short when:

– Multiple subjects need to be tracked in the same environment.

– Data synchronization across participants is fragmented or cumbersome.

– Researchers must spend excessive time aligning and validating cross-subject data.

This leads to inefficient workflows, loss of contextual richness, and incomplete insights, especially in dynamic group settings like control rooms and classrooms, vehicle cabins, or consumer studies.

Solution
The Prophea ^eye Module (Multi-Subject Eye Tracking) is a state-of-the-art add-on to Prophea.X that enables seamless, synchronized eye tracking across multiple participants. Key features include:

– Simultaneous tracking of several subjects in real time, with minimal calibration.

– Integration with video, audio, physiological sensors, and behavioral data—fully synchronized within Prophea.X’s unified timeline.

– Non-intrusive setup using advanced camera and sensor fusion technology, allowing for freedom of movement and natural interaction.

– Support for post-hoc analysis and live visualization, enabling immediate feedback and richer data narratives.

By leveraging Prophea.X’s modular ecosystem, the Eye module delivers effortless deployment, high accuracy, and powerful scalability—ideal for complex environments like multi-user simulators, group experiments, or in-vehicle systems.

Impact
The Prophea^eye module transforms how researchers and professionals observe, analyze, and understand attention dynamics in group settings:

Unparalleled contextual insight: See exactly where each participant is looking in shared or separate visual spaces, fostering more nuanced interpretations.

Boosted research efficiency: Streamlined multi-subject data acquisition means less time preparing and more time discovering.

Scalable human-factor insights: From automotive UX to classroom engagement to safety-critical environments, organizations can scale their studies without compromising accuracy or data integrity.

Future-ready research: With AI-ready data formats and export flexibility, insights gathered today are compatible with tomorrow’s analytical tools.

Ultimately, the Prophea^eye module empowers users to unlock the full complexity of human visual behavior—not just in isolation, but in real-world, multi-human contexts.

Challenge
Eye tracking is essential for understanding attention and cognitive behavior—but integrating it across multiple participants and syncing it with other data streams (like video, biometrics, or simulator inputs) is often technically complex and time-consuming. Traditional setups struggle to handle multi-subject scenarios reliably.

Solution
Prophea^{Data Engine} supports simultaneous multi-subject eye tracking within its unified recording architecture. Whether using Tobii screen-based or wearable systems such as Tobii Glasses Three, gaze data from multiple participants is captured, synchronized, and visualized in real time—alongside other behavioral and environmental data.

Record and analyze eye-tracking data from multiple users at once

Real-time gaze monitoring and visualization for each subject

Automatic synchronization with all other data streams (video, audio, biometrics, simulator inputs)

Scalable for collaborative or comparative studies involving teams or group interactions

Impact
Enable complex multi-user studies with synchronized eye tracking and contextual data

Analyze interpersonal dynamics, shared attention, and collaboration patterns

Reduce setup time and eliminate post-processing of multi-participant gaze data

Drive deeper insight into real-world behavior in group-based environments like control rooms, simulations, or co-piloting scenarios

The Challenge:
Manual Integration Slows Research Down
Multimodal observation relies on data from various sources—each with its own format, frequency, and synchronization demands. Beyond the complexity of triggering multiple systems, traditional workflows depend heavily on manual processes, which:

– Create delays in analysis
– Increase the risk of data misalignment
– Limit the availability of real-time insights
– Complicate studies involving dynamic, real-time interaction

The Solution:
Direct Simulator Connectivity with Prophea^{Data Engine}
Prophea^{Data Engine} enables native, direct integration with simulation environments through standardized interfaces such as TCP/IP, CAN, ROS, or proprietary SDKs. With this capability:

– Simulation data streams are captured live and automatically synchronized with behavioral and sensor data

– No more post-hoc integration or custom data parsing

– Researchers can define triggers, markers, and events in real time, based on simulator states

– Both open-loop and closed-loop testing workflows are supported

The Impact
Real-Time Insight, Richer Data, Faster Decisions
– Immediate access to fully integrated datasets accelerates iteration and validation cycles

– Enables complex scenario testing with multiple participants or dynamic machine states

– Improves data fidelity, enhancing the reliability of research findings

– Streamlines workflows and significantly reduces time-to-insight—especially critical in safety-sensitive domains like automotive, aerospace, and healthcare simulation

Challenges
Behavior research labs often rely on fragmented tools and manual processes. Managing multiple data streams—from video and audio to sensors and annotations—can be time-consuming, error-prone, and hard to replicate, limiting the reliability and speed of behavioral insights.

Coordinating across multiple users or research teams compounds these challenges, slowing progress and risking inconsistent data quality.

Solution
Prophea^{Data Engine} unifies behavior research into one integrated platform designed for multi-user environments and collaborative workflows. It supports synchronized recording and real-time monitoring across diverse data streams—including video, eye tracking, physiological sensors, and more—while enabling teams to work simultaneously and share data securely.

Centralized experiment design and control with multi-user access

Real-time annotation, event marking, and sensor synchronization across participants

Scalable from individual studies to complex, multi-subject research

Collaborative data management with customizable access rights

Immediate access to structured, export-ready datasets for all team members

Impact
Streamlined, collaborative workflows that accelerate research cycles

Consistently high-quality, synchronized data across users and sites

Reduced setup complexity and enhanced reproducibility

Empowered teams can iterate faster, driving deeper insights through shared analysis

Challenge
Behavior analysis tools often require high- performance computing and wide bandwidth. This limits portability, slows performance, and puts data integrity at risk.

Solution
Prophea^{Data Engine} runs efficiently on current standard laptops thanks to its smart, scalable architecture. It supports real-time processing over local or extended IP networks and allows full control over data access and computation—securely operating behind your firewall.

Impact
Maintain full data ownership and privacy compliance

Operate independently without external dependencies

Ensure secure, reliable performance—anywhere, anytime

All metrics will be regularly updated and enhanced as Prophea.X grows further as a leading behavioral research ecosphere.

AOI Metrics

1 Number of Glances
Count of glances towards the selected AOI during the specified time interval.

2 Number of Glances > 2s
Count of glances that are longer than two seconds in duration towards the selected AOI during the specified time interval.

3 Total Glance Time (s)
Sum of the durations of all glances towards the se-
lected AOI during the specified time interval.

4 Mean Glance Duration (s)
Average of the durations of all glances towards the selected AOI during the specified time interval.

5 Minimum Glance Duration (s)
Duration of the shortest glance towards the selected
AOI during the specified time interval.

6 Maximum Glance Duration(s)
Duration of the longest glance towards the selected AOI during the specified time interval.

7 Glance Rate (1/s)
Count of glances per second towards the selected AOI
during the specified time interval.

8 AOI Attention Ratio (%)
Percentage of time spent looking at the selected AOI
during the specified time interval.

9 Glance Location Probability (%)
Probability of a glance towards the selected AOI during the specified time interval.

10 Link Value Probability (%)
Probability of glance transitions between two AOIs during the specified time interval.

11 Time to First Glance (s) The elapsed time from the beginning of the specified time interval to the onset of the first glance towards the selected AOI.

12 Glance Duration of Specified Percentile (s)
The duration which represents the specified percentile rank of a glance towards the selected AOI during the specified time interval.

13 Last AOI Viewed Name of the AOI towards which the most recent glance was made during the specified time interval.

14 AOI at Interval End Name of the AOI towards which a glance was active at the end of the specified time interval.

15 Percentage Transition Time (%)
Percentage of time when the eyes are in transition between AOIs during the specified time interval.

16 Total Eyes Off AOI Time (s) Sum of the duration of all glances outside the selected AOI during the specified time interval.

17 Percentage Eyes Off AOI Time (%)
Percentage of time glances are not towards the selected AOI during the specified time interval.

Fixation Metrics

1 Number of Fixations
Count of all fixations during the specified time interval.

2 Total Fixation Duration (s)
Sum of the durations of all fixations during the specified time interval.

3 Mean Fixation Duration (s)
Average duration of all fixations during the specified time interval.

4 Duration of First Fixation (s)
Duration of the first fixation that occurred during the specified time interval.

Saccade Metrics

1 Number of Saccades Count of all saccades during the specified time interval.

2 Mean Saccade Duration (s)
Average duration of all saccades during the specified time interval.

3 Mean Peak Velocity (deg/s)
Average of the peak velocities of all saccades during the specified time interval.

4 Minimum Peak Velocity (deg/s)
Peak velocity of the slowest saccade during the specified time interval.

5 Maximum Peak Velocity (deg/s)
Peak velocity of the fastest saccade during the specified time interval.

6 Standard Deviation of Peak Velocity (deg/s)
Standard deviation of the peak velocities of all saccades during the specified time interval.

7 Total Saccade Amplitude (deg)
Sum of the amplitudes of all saccades during the specified time interval.

8 Mean Saccade Amplitude (deg)
Average of the amplitudes of all saccades during the specified time interval.

9 Minimum Saccade Amplitude (deg)
Amplitude of the saccade with the shortest range during the specified time interval.

10 Maximum Saccade Amplitude (deg)
Amplitude of the saccade with the longest range during the specified time interval.

11 Time to First Saccade (s)
Time until the first saccade occurs during the specified time interval.

Challenge
Behavioral research environments are rarely static. As studies grow in complexity—adding more participants, sensors, devices, or locations—most systems struggle to scale without sacrificing performance, data integrity, or manageability.

Solution
Prophea^{Data Engine} is built on a modular, scalable architecture designed to grow with your research needs. Whether you’re running a single-user lab study or a multi-site, multi-subject simulation, Prophea handles high volumes of synchronized data without bottlenecks.

Effortless scaling from single to multi-user setups

Supports distributed data acquisition across networked environments

Real-time performance even with high-density sensor and video input

Dynamic resource management and load balancing ensure system stability

Impact
Run complex studies with confidence—no compromise on speed or data quality

Expand your lab’s capabilities without re- or over-engineering your workflow

Support multiple concurrent researchers, subjects, or study locations

Future-proof your research infrastructure with a system built for growth

Challenge
Traditional eye tracking studies are often confined to labs—with rigid setups, limited environments, and artificial behaviors.

This restricts the authenticity of insights and disconnects research from real-world user experiences.

Solution
Prophea.X by Ergoneers removes these limitations.

It is a fully portable, real-time eye tracking system compatible with Tobii eye-tracking systems, that allows studies to be conducted in any environment—from retail spaces to classrooms, vehicles to simulators or manufacturing lines.

Wherever behavior happens, Prophea.X is ready.

Impact
By using Prophea.X in natural settings, researchers gain access to genuine, context-rich attention data.

No more scripted lab behavior—just real actions, real decisions, and real environments.

The result: deeper insights and more accurate conclusions that drive smarter design and innovation.

Challenge
Most eye tracking systems operate as closed black boxes—they collect data, perform calculations, and deliver metrics without revealing how those metrics were derived. This lack of transparency makes it difficult for researchers to validate findings, tailor metrics to their unique needs, or ensure scientific reproducibility.

Solution
Prophea^eye disrupts this standard by offering full access to all calculation methods. You’re not just getting results—you’re invited into the engine room. Researchers can inspect, adjust, or completely redefine the way metrics are calculated. Additionally, all raw data is exportable, enabling custom post-processing and deeper analysis in any preferred environment.

Impact
This level of control transforms Prophea^eye from a passive measurement tool into an active scientific partner. You gain:
– Total methodological transparency
– Customizable analytics to suit any experimental design
– Enhanced credibility and reproducibility in research
– Freedom to innovate beyond vendor-imposed limitations

In short, Prophea^eye empowers researchers to go beyond observation—into insight, adaptation, and innovation.

Challenge
Traditional eye-tracking systems often lock researchers into rigid ecosystems. If you’re working in an eye lab studying psychology or human behavior, you’ve likely faced the struggle: powerful hardware like Tobii, but software that limits flexibility, data integration, or multi-modal fusion. Cross-device studies become a nightmare, and real-world relevance gets lost in siloed tools.

Solution
Prophea eye breaks these chains. Designed to work seamlessly with Tobii eye trackers and beyond, it’s a hardware-agnostic eye-tracking software platform tailored for behavioral science leading to ground work in AI and human-centered research. Whether you’re decoding gaze patterns in a controlled psychology experiment or integrating eye movement with motion, speech, or biometric data — Prophea’s multi-modal capabilities make it effortless.

Impact
Empower your lab with a future-proof system. Run consistent protocols across different devices, centralize your data streams, and explore human behavior with unprecedented depth. From cognitive load analysis to user attention tracking, Prophea gives researchers the power to ask bigger questions—and get richer answers.

Precision-Driven. Purpose-Built. Universally Scalable.

Prophea.X

A woman being eye-tracked in a metro station while looking at the sign 'Way Out'. Her Gaze-path is visible as a pointed gazemap with sacaade duration represented by circle sizes of her gaze´s dwelling position.

Performance Optimized Analysis for Tobii® Glasses 3

Efficiency-optimized eye-tracking analysis even for complex settings. Imagine simultaneous group studies—enabling real-time gaze monitoring, synchronized multimodal recording, and live video synchronization on a parallel multi-subject level, using the market-leading eye tracker Tobii Glasses 3. For more information contact our product specialists

Human Interaction Analysis made easy

From ergonomic to psychological, human factors and performance analysis or training—enhance your research goals, insight quality and turnover speed with Prophea.X. Seamlessly connect multiple subjects and devices to one flexible analysis framework, decoding group dynamics, gaze behavior, and UX group interaction.

From One-on-One to Multi Subject

Prophea.X Eyetracking technology empowers complex behavior research laboratories with capabilities to trigger, monitor, record, analyze and report eye tracking, EEG and Video Signals within one simple workflow. Combine real precision eyetracking with environment and interaction data, Turn hours of data manipulation into a few clicks with Prophea.X

See the Big Picture. And Every Detail

Automatically track attention across subjects - simultaneously or sequentially using Dynamic Project AOIs^® accounting even for fast head movements
in challenging lighting situations.

Made to Integrate

For cohesive performance and behavior analysis in complex scenarios, Prophea.X allows you to directly connect simulator data to the full bandwidth of the human-centered sensor landscape. From Galvanic Skin Response (GSR)/Conductance to EEG implementation and the use of Tobii Eyetracker, analyzing behavior and cognitive load has never been more fast-forward. United in one data coding scheme, Prophea.X enhances the study of human behavior at large.

Streamline Your Lab Workflow

Using an elaborated Ethernet and Wifi Network, eye-trackers and video observation signals from USB or Ethernet - Cameras are recorded and synchronized in real time. Data connections from Biophysical Sensors are fused in Prophea Data Engine. A Project file containing Eye-tracking and Multimodal data in one framework is forwarded to Prophea Analyzer for analysis and reporting.

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Explore Eye Tracking Glasses

Eyetracking Glasses for high precision research available, compatible with Prophea.X

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