When the digital transformation is getting upstream, laser technologies rank first for their cross-functionality and high-grade solutions for different industrial sectors and spheres of life. One of the soundest examples of LiDAR tech applications is the new camera developed by Intel.

The main idea is that the manufacturer decided to expand the viewing field with the help of microelectronic & mechanical systems together with laser beam projecting. The MEMs scanning mirror became the main feature of the launching item. Namely, micro-mirrors convert the view of vision from the limited to expanded one.

Why Particularly LiDAR and MEMs?

It is worth noting that both laser detecting & ranging technology and micro-mirrors are considered the most demandable tech solutions nowadays in the context of robotic units and autonomously working mechanisms. With the help of the laser beam projecting hardware that becomes available in compact format due to using MEM systems, there is an opportunity to create more powerful solutions including AI-based innovations and VR gadgets.

For example, the Intel corporation decided to use LiDAR together with MEMs scanning mirrors for enhancing their camera based on computer vision. Laser detecting and ranging technology and scanning micro-mirrors provide an improved viewing field together with other perks to take into consideration:

  • The higher resolution of the camera;
  • The compact size of the laser projecting and scanning device;
  • Cross-functionality of the solution.

It is worth mentioning that micro-mirror scanning systems are considered the smallest ones in today’s tech market. This way all the technological improvements that can be undertaken in the robotic sector, retail industry, 3D scanning sphere, other industrial and routine applications will become easier, more budget-friendly, and more mobile.

All the Spheres of LiDAR and MEMS Application

Intel is not the only company that is interested in laser projecting and scanning technologies. Other corporations combine LiDAR and MEMS for robotic innovations and the creation of autonomous equipment for various industries. For example, high-resolution imagery provided by the micro-scanning mirror systems and laser beam solutions can be used for:

  • 3D scanning and picture capturing;
  • Robotic hardware and equipment (bin picking);
  • Autonomous logistic operations;
  • Different measurements (like volumetric ones).

What Else to Expect After Intel LiDAR-Based Camera?

Speaking about the high-resolution Intel camera based on LiDAR, MEMS, and computer vision, this is a happy blend of innovative technologies. The device is expected to be only 61 mm in diameter. Its height will be about 25 mm. The field of viewing will be expanded significantly with the help of the microelectronics and DAC solution to unite all the operations and reduce the risk of the timeout.

This way the camera linking up conception is also improved while enhancing the vision parameters takes place as well. More precise light projecting and scanning options will bring desired results to the Intel team. It is expected to have a more than 9-meter camera range with less than 14 mm accuracy depth rates.

Right after the launch of the innovative Intel camera based on the combination of the most promising laser and scanning technologies today, we can predict the rise of demand for LiDAR and MEMS solutions. These technologies are about the compactness of the tech units, precise information, the highest resolution for high-quality computer vision, and extremely high speeds of the camera, robotic items, and autonomous vehicle performance.