Imaging array with directional response

Organization Name

apple inc.

Inventor(s)

Roei Remez of Tel Aviv (IL)

Brian Mccall of San Jose CA (US)

Milan Maksimovic of Sunnyvale CA (US)

Maoz Ovadia of Kiryat Ono (IL)

[[:Category:Arnaud Laflaqui�re of Paris (FR)|Arnaud Laflaqui�re of Paris (FR)]][[Category:Arnaud Laflaqui�re of Paris (FR)]]

Gershon Rosenblum of Fremont CA (US)

Noah D. Bedard of Los Gatos CA (US)

Omer Korech of Pardes Hanna Karkur (IL)

Emanuel Mordechai of Mishmarot (IL)

Keith Lyon of San Jose CA (US)

Refael Della Pergola of Jerusalem (IL)

Niv Gilboa of Tel Aviv (IL)

Imaging array with directional response - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240089569 titled 'Imaging array with directional response

Simplified Explanation

The image sensing device described in the patent application includes a detector assembly with optical sensing elements, optical apertures, and objective optics. Here are the key points of the innovation:

• Detector assembly with a matrix of optical sensing elements
• Each optical sensing element has an active area with a width less than 90% of the pitch
• Array of optical apertures aligned with optical sensing elements
• Optical apertures positioned at a distance from sensing elements at least twice the width of the active area
• Objective optics focus light from a scene onto the detector assembly

Potential Applications

The technology could be used in:

• Digital cameras
• Surveillance systems
• Medical imaging devices

Problems Solved

• Improved image quality
• Enhanced sensitivity to light
• Reduction of noise in captured images

Benefits

• Higher resolution images
• Better low-light performance
• Increased accuracy in image capture

Potential Commercial Applications

• Consumer electronics
• Security systems
• Medical imaging equipment

Possible Prior Art

One possible prior art could be the use of similar optical sensing elements in digital cameras or other imaging devices.

Unanswered Questions

How does this technology compare to existing image sensing devices in terms of cost?

The cost implications of implementing this technology compared to traditional image sensing devices are not addressed in the abstract. Further research or analysis would be needed to determine the cost-effectiveness of this innovation.

What are the power consumption requirements of this image sensing device?

The abstract does not mention anything about the power consumption of the device. Understanding the power requirements of this technology is crucial for assessing its practicality and potential limitations.

Original Abstract Submitted

an image sensing device includes a detector assembly, which includes a matrix of optical sensing elements having a predefined pitch. each optical sensing element includes an active area having a width that is less than 90% of the pitch. an array of optical apertures are respectively aligned with the optical sensing elements such that each optical aperture is positioned at a distance from a respective optical sensing element that is no less than twice the width of the active area. objective optics are configured to focus light from a scene onto the detector assembly.