Our Technology
Ulisse is a hyper-modular platform that combines various 3D sensing technologies such as LIDAR, TOF, radar, and traditional RGB cameras to create a 3D dynamic image of the environment. This technology enables Ulisse to provide insightful analytics on people flows, enabling businesses to optimize their physical space for better customer experiences and increased operational efficiency.
Ulisse’s hyper-modular architecture makes it easy to integrate and customize different modules according to specific business requirements. Users can add or remove modules without affecting the overall functionality of the platform, making it a highly flexible solution that can be adapted to a range of use cases
In addition, the 3D dynamic image generated by Ulisse provides unprecedented levels of detail, making it possible to track the movement of individuals and objects in real-time. This technology can be used for a variety of applications, including people counting, heat mapping, and occupancy tracking.
Ulisse’s technology is designed to be highly scalable, allowing it to be used in a range of different environments, from small retail stores to large public spaces like airports and stadiums. The platform is also highly secure, with advanced encryption protocols and access controls to ensure that sensitive data is protected.
In summary, Ulisse’s hyper-modular platform, combined with its advanced 3D sensing technology, provides businesses with a powerful tool for optimizing their physical space and improving their operational efficiency. With its real-time data and advanced analytics, Ulisse is the ideal platform for businesses looking to gain a competitive edge in the rapidly evolving world of physical space analytics.
Ulisse is a hyper-modular platform that combines various 3D sensing technologies such as LIDAR, TOF, radar, and traditional RGB cameras to create a 3D dynamic image of the environment. This technology enables Ulisse to provide insightful analytics on people flows, enabling businesses to optimize their physical space for better customer experiences and increased operational efficiency.
At the core of Ulisse’s technology is its ability to generate real-time data about the movement of people, objects, and vehicles within a space. This data is captured by the various sensors integrated into the Ulisse platform and processed by advanced algorithms to provide a comprehensive view of the environment.
Lidar+Radar
Lidar and radar technologies have complementary strengths when it comes to physical space analytics in the retail and smart building markets. Combining them can provide a more comprehensive and accurate understanding of the environment.
Some advantages of combining lidar and radar technologies for physical space analytics include:
Improved object recognition: Lidar is better suited for detecting and identifying smaller, stationary objects, while radar is better suited for detecting larger, moving objects. By combining the two, it’s possible to identify a wider range of objects in the environment, including people, vehicles, and merchandise.
Greater coverage: Radar can penetrate certain materials like walls and floors, making it useful for detecting objects in areas that are not visible to the lidar. By combining the two technologies, it’s possible to cover a larger area of the physical space.
More accurate distance measurements: Lidar is highly accurate at measuring distances, while radar is better suited for measuring velocities. By combining the two, it’s possible to get more accurate distance measurements of objects in the environment.
Improved safety and security: By combining lidar and radar, it’s possible to create a more comprehensive safety and security system. For example, a system could use lidar to detect the presence of people and radar to detect any moving vehicles, allowing for more effective surveillance and response.
Better energy efficiency: By combining the two technologies, it’s possible to create a more energy-efficient system. For example, a system could use radar to detect movement in a room and then activate the lidar to get a more detailed understanding of the objects present. This could save energy by only using the lidar when necessary.
Overall, combining lidar and radar technologies can provide a more comprehensive understanding of the physical space, leading to better decision-making and improved efficiency in the retail and smart building markets.
Future-proof
3D sensing
Privacy friendly
Camera-free
x20 more space coverage compared to traditional techs
Setup in 5 minutes
4G embedded
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Start now understanding customer flow in your physical stores. By collecting and analyzing data on how customers move through your stores gain valuable insights that can help you optimize store layout, improve the customer experience, and increase sales.
3D sensing. Why?
3D sensing technologies are unobtrusive compared to traditional camera technologies because they do not require a physical lens to capture an image. Instead, 3D sensing technologies use a variety of methods to detect and analyze the distance and depth of objects in their field of view, such as structured light, time-of-flight, or stereoscopic vision.
For example, structured light uses a pattern of projected light to create a 3D model of the object, while time-of-flight uses infrared sensors to measure the time it takes for light to bounce off the object and return to the sensor. Stereoscopic vision involves using two or more cameras to capture multiple images that can be analyzed to determine depth and distance.
These methods allow 3D sensing technologies to capture images and data about a scene or object without the need for a physical lens. This makes them unobtrusive because they are not as visible or prominent as traditional camera technologies, which often require a large lens that can be easily noticed.
In addition, 3D sensing technologies are often used in applications where traditional cameras may not be practical, such as in low-light or noisy environments. For example, time-of-flight sensors can work in complete darkness, and structured light sensors can overcome interference from ambient light.
Overall, 3D sensing technologies provide a less intrusive way to capture images and data, making them useful for a wide range of applications where traditional camera technologies may be limited or impractical.
Less intrusive
Unprecedented space coverage
More accurate
Adapt to different environments
Lidar in action
Ulisse solid-state lidar technology offers several benefits over traditional mechanical lidar systems. Some of the benefits include:
Greater Range and Resolution: can detect objects at longer ranges and with higher resolution than traditional mechanical lidar systems. This is because the solid-state system uses a phased array of laser emitters that can be dynamically controlled to steer the laser beam, allowing for more precise targeting of objects.
Faster Scanning Speeds: Because solid-state lidar doesn’t rely on mechanical parts to steer the laser beam, it can scan its environment much faster than traditional mechanical lidar systems. This makes it better suited for high-speed applications.
Lower Cost: Traditional mechanical lidar systems are complex and expensive to manufacture. Ulisse’s solid-state lidar, on the other hand, uses fewer components and can be manufactured using standard semiconductor fabrication techniques. This makes it more cost-effective to produce and could help bring down the cost of lidar systems overall.
More Robust: Because Ulisse’s solid-state lidar doesn’t have any moving parts, it is less prone to wear and tear than traditional mechanical lidar systems. This means it could have a longer lifespan and require less maintenance.
Radar in action
Using the Ulisse mmWave (millimeter-wave) radar sensing device for tracking people in buildings can offer several benefits:
Accurate and Reliable: mmWave radar technology can accurately and reliably track people in buildings, even in challenging environments such as low-light conditions or through walls and obstacles. This is because mmWave radar operates on a higher frequency than other types of radar, allowing for more precise sensing and measurement.
Non-invasive: mmWave radar sensing is non-invasive, meaning it doesn’t require any physical contact with the people being tracked. This makes it a more practical and acceptable method of tracking people in buildings, particularly in areas where privacy concerns may be an issue.
Low Cost: mmWave radar technology is becoming increasingly affordable and widely available, making it a more accessible option for tracking people in buildings. This could make it a more practical solution for a range of applications, from building security and surveillance to indoor navigation and wayfinding.
Real-time Monitoring: mmWave radar sensing can provide real-time monitoring of people in buildings, allowing for immediate detection of any security or safety concerns. This can help security personnel or building managers respond quickly to any incidents, helping to prevent potential harm to people or property.
Customizable: mmWave radar sensing devices can be customized to meet specific needs or requirements for tracking people in buildings. This includes adjusting the sensing range, field of view, and data output to meet the needs of different applications.
Using the Ulisse mmWave radar sensing device for tracking people in buildings offers several benefits, including accuracy, non-invasiveness, low cost, real-time monitoring, and customization.
