Empower Your Vision with Cutting-Edge Technology : The Smart Eye solution
Welcome to our research-driven company. We are dedicated to developing innovative solutions that help individuals and organizations enhance their visual capabilities through advanced technologies. Our team of experts is passionate about exploring the latest breakthroughs in computer vision, artificial intelligence, and machine learning to create smart eye products that meet the needs of our clients.
At our core, we believe in the power of research to drive progress and enable new discoveries. That's why we invest heavily in R&D to ensure that our smart eye solutions are cutting-edge and at the forefront of the industry. We work closely with universities, research institutions, and industry partners to stay ahead of the curve and push the boundaries of what's possible.
Our commitment to research is matched only by our dedication to our clients. We strive to understand their unique needs and challenges and tailor our solutions to meet them. Whether you're an individual looking to enhance your vision or an organization seeking to improve your operations, we're here to help.
Thank you for visiting our website. We invite you to explore our smart eye solutions and learn more about how we can help you achieve your goals.
Our company has a rich history of innovation and expertise in the field of inovation. Founded by a small group of electrical engineers and teachers, with over 10 years of experience in universities and companies from different areas such as image processing, camera specialists, and intelligent algorithm calculations, was officially established in 2021.
Driven by a passion for pushing the boundaries of what's possible, our team came together with a shared vision of creating cutting-edge smart eye solutions that would empower individuals and organizations to enhance their visual capabilities.
Drawing on their extensive knowledge and expertise, our founders began developing sophisticated technologies that combine computer vision, artificial intelligence, and machine learning to deliver smart eye solutions that are truly ahead of the curve.
Over the years, we've grown into a world-renowned research-driven company that is dedicated to advancing the field of smart eye solutions. We've worked with top universities, research institutions, and industry partners to develop groundbreaking products that have transformed the way people see the world around them.
As we continue to push the boundaries of what's possible, we remain committed to our founding principles of innovation, expertise, and a passion for research. We believe that by staying true to these values, we can continue to pioneer new breakthroughs in the field of smart eye solutions and help people and organizations around the world achieve their full visual potential
wave iot team
WaveIoT is deriving its solution from basic physic and define following basic thermology
Gaze: Refers to the direction of the eyes. In eye tracking, gaze is often represented as the point where the eyes converge.
Fixation: A period of time where the eyes are stationary and focused on a specific point or object of interest.
Saccade: A rapid eye movement that jumps from one fixation point to another.
Smooth Pursuit: A type of eye movement that tracks a moving object smoothly and accurately.
Perceptual Span: Refers to the area that a person can perceive or read without moving their eyes.
Visualization: The process of representing data or information visually, such as through graphs, charts, or heatmaps.
Gaze Trail: A visual representation of a person's eye movements over time, often displayed as a line or series of dots connecting fixation points.
Heatmap: A type of visualization that uses colors to represent the density or frequency of eye fixations or gaze data within a specific area.
Area of Interest (AOI): Refers to a specific region or object that is of interest in a given task or scenario. AOIs can be defined as static or dynamic, and are often used to analyze where participants look or focus their attention during an eye tracking study.
By collecting and analyzing parameters in real-time, the WAVE IoT solution can provide valuable insights into user behavior and cognitive processes, enabling organizations to optimize operations and enhance the user experience.
WAVE IoT solution can provide real-time data on various eye-related parameters, depending on the application
These parameters are include
Eye gaze: the direction in which the eyes are pointed
Gaze intersections: the point at which the gaze intersects with a specific object or location
Eye position: the position of the eyes within the eye sockets
Blinking/eye opening: the frequency and duration of blinks or the opening and closing of the eyes
Head position and rotation: the orientation and position of the head
Pupillometry: the size and location of the pupils, which can be used to estimate factors such as visual attention and arousal
Calculated data: derived metrics based on the raw eye data, such as measures of saccades and fixations
Drowsiness: an estimate of the level of drowsiness based on factors such as blink rate and head position
Workload: an estimate of the level of cognitive workload based on factors such as gaze patterns and pupil size
Sampling rate: the rate at which eye data is sampled, typically ranging from 30Hz to higher frequencies such as 120Hz or 240Hz.
The parameters and solutions for a specific application that utilizes WAVE IoT technology can include a range of standard visualizations and analysis techniques.
The parameters and solutions provided by the WAVE IoT technology can be customized depending on the specific application and the insights that the organization wishes to gain into user behavior and cognitive processes.
For example, the specific areas of interest can be defined and customized to suit the particular application, and the frequency of data sampling can be adjusted to provide the necessary level of detail while also minimizing data storage requirements.
Additionally, the types of visualizations used to display the eye data can be tailored to the specific needs of the organization, with different types of heat maps, gaze plots, and other graphical representations used to provide the necessary insights.
Finally, the WAVE IoT technology can be integrated with other systems and technologies as needed to provide a complete solution for the organization's specific application. For example, it could be integrated with a virtual reality headset to analyze user behavior in a simulated environment, or with a physical interface to track user interaction with a device or product.
Overall, the flexibility and customization provided by the WAVE IoT technology enables organizations to tailor the solution to their specific needs and gain the insights necessary to optimize operations and enhance the user experience.
The following parameter can be costumized depend on customer application
Gaze trail: a graphical representation of the path that the user's gaze follows over time
Fixation: a period of time during which the user's gaze remains relatively still on a specific point of interest
Head map: a visualization of the user's head position and orientation over time
Areas of interest (AOI): predefined regions of interest that can be either static or dynamic, with gaze data analyzed within these regions
Time to first fixation: the amount of time it takes for the user to first fixate on a specific AOI or point of interest
Time spent: the total amount of time that the user spends looking at a specific AOI or point of interest
Ratio of respondents: the proportion of users who exhibit a specific gaze behavior or characteristic
Revisits: the number of times the user returns to a specific AOI or point of interest
Fixation count: the total number of fixations made by the user during a given period of time
Data recording/logging & playback: the ability to record and save eye data for later analysis or playback
Graphical representations and overlays: a variety of graphical representations and overlays can be used to display eye data, including heat maps, gaze plots, and AOI overlays
Gaze overlay using Sense CAM or screen grabbing: the ability to overlay eye data onto a live camera feed or screen recording
Multi-subject studies: the ability to collect eye data from multiple subjects simultaneously for group analysis and comparison.
Gaze Trail and Fixation
Fixation refers to a period of time where the eyes are stationary and focused on a specific point or object of interest. By analyzing fixation data, eye-tracking technology can determine when and where a person is looking, and for how long they maintain their visual gaze on a particular location.
Similarly, gaze trail or gaze path refers to the path that a person's eyes take as they move from one fixation point to another. This data can be collected and analyzed by eye-tracking technology to provide insights into how a person interacts with visual stimuli and where their attention is focused.
By combining fixation and gaze trail data, eye-tracking technology can provide a detailed understanding of a person's visual attention and behavior, and can be used to optimize user interfaces, advertising, and other visual media for maximum impact and effectiveness.
Heatmap
Custmer can collect and graph fixation data over time, often using a color code to indicate the duration and location of fixations. This data can be analyzed for a single subject, or for multiple subjects in aggregate, allowing researchers to compare and contrast how different individuals interact with visual stimuli.
By aggregating fixation data from multiple subjects, researchers can identify patterns and trends in visual behavior, and gain insights into how different groups of people respond to various visual stimuli. This can be particularly useful in fields such as marketing, where understanding how consumers interact with advertisements and other visual media is essential for developing effective marketing strategies.
Overall, the ability to collect and analyze fixation data from multiple subjects over time is a powerful tool for gaining insights into human visual behavior, and can be used to optimize user interfaces, marketing campaigns, and other visual media for maximum effectiveness.
Areas of interest
areas of interest (AOIs) are specific regions or elements within a visual stimulus that are of interest to a subject or researcher. These AOIs can be defined and customized based on the specific research question or application, and can include anything from text, images, and videos to specific regions within an image or video.
By defining AOIs, researchers can gain more detailed insights into how subjects interact with different elements within a visual stimulus, and can compare and contrast how different groups of people respond to specific AOIs. This can be particularly useful in fields such as marketing, where understanding how consumers interact with specific elements within an advertisement can help to optimize its effectiveness.
Overall, defining areas of interest is an important step in eye-tracking research, as it allows researchers to focus their analysis on specific elements within a visual stimulus, and gain deeper insights into human visual behavior