Movidius Myriad 1 Vision Processor Powers Google Tango

Google Tango: Movidius Myriad 1 Vision Processor Powers Googles Tango

Google Tango was a platform that enabled mobile devices to perceive and interact with the world in a way that was previously impossible. It combined advanced sensors and software to give devices the ability to understand their surroundings in 3D, track their movement precisely, and create detailed maps of their environment. This technology opened up a new world of possibilities for mobile applications, ranging from immersive gaming and virtual reality to augmented reality experiences and robotics.

Depth Perception

Tango devices were equipped with a specialized camera system that captured depth information, allowing them to perceive the world in three dimensions. This was achieved through a combination of techniques, including structured light and motion parallax. Structured light involves projecting a pattern of light onto the scene and analyzing how the pattern deforms, while motion parallax uses the difference in perspective between multiple cameras to calculate depth.

Motion Tracking

Tango’s motion tracking capabilities enabled devices to track their position and orientation in space with high accuracy. This was achieved through a combination of sensors, including inertial measurement units (IMUs) and cameras. IMUs measure acceleration and rotation, while cameras provide visual information that helps refine the tracking. This precise tracking allowed for a variety of applications, such as virtual reality experiences where the user’s movements are seamlessly translated into the virtual world.

Spatial Mapping, Movidius myriad 1 vision processor powers googles tango

One of the most powerful features of Tango was its ability to create detailed 3D maps of the environment. This was accomplished by combining depth perception and motion tracking data. As the device moved through the environment, it continuously captured depth information and tracked its position, allowing it to build a point cloud representation of the space. This point cloud could then be used to create a detailed 3D mesh of the environment, which could be used for a variety of applications, such as navigation, object recognition, and augmented reality experiences.

Movidius Myriad 1

The Movidius Myriad 1 vision processor played a crucial role in powering Google Tango. This specialized chip was designed for efficient processing of visual information, particularly in real-time applications. The Myriad 1 was responsible for handling the computationally intensive tasks involved in depth perception, motion tracking, and spatial mapping.

The Movidius Myriad 1 was particularly well-suited for these tasks due to its low power consumption and high performance. Its architecture allowed for parallel processing of image data, enabling it to perform complex calculations in real time. This allowed Tango devices to deliver a smooth and responsive user experience while conserving battery life.

Applications and Devices

Google Tango was used in a variety of applications and devices, showcasing the potential of this innovative technology. Some notable examples include:

• Lenovo Phab 2 Pro: This was the first commercially available smartphone to feature Google Tango technology. It enabled users to experience augmented reality games and applications, as well as explore virtual environments.
• ASUS ZenFone AR: Another Tango-enabled smartphone, the ASUS ZenFone AR, offered similar capabilities as the Lenovo Phab 2 Pro, including immersive gaming and augmented reality experiences.
• Project Tango Tablet: Google developed a dedicated tablet device for Tango, which served as a platform for developers to experiment with and explore the capabilities of the technology.
• Industrial applications: Tango was also used in industrial settings, such as warehouse management and manufacturing. It enabled robots to navigate complex environments, recognize objects, and perform tasks more efficiently.

Movidius myriad 1 vision processor powers googles tango – The partnership between Movidius and Google Tango marked a significant leap forward in the field of computer vision. This technology, with its ability to bridge the gap between the digital and physical worlds, opened up a vast array of applications across diverse industries. As we move into the future, the legacy of the Myriad 1 and Tango continues to inspire innovation, paving the way for even more advanced and immersive experiences.

Remember the Movidius Myriad 1 vision processor that powered Google Tango, bringing depth perception to mobile devices? Well, it seems even cutting-edge tech isn’t immune to the occasional hiccup, just like the recent outage that hit the iTunes and App Store. While those outages might have been frustrating, at least they didn’t affect our ability to navigate the real world with the help of the Movidius Myriad 1, right?