Fedor I Dimov

20120170090, Jul 5, 2012

Dec 29, 2011

13/339942

Fedor Dimov - Redondo Beach CA, US
Khin Swe Yin (a/k/a Lillian Yin) - Alhambra CA, US
Kevin Yu - Temple City CA, US
Engin Arik - Moonpark CA, US
Dmitry Voloschenko - Torrance CA, US

Luminit LLC - Torrance CA

G02B 5/32

359 15

A collimator can be made of a compound holographic optical element made of three holographic optical elements. The first reflection holographic optical element will have recorded within it continuous lens configured to receive light from a diffuse light beam and diffract the received light as a first collimated light beam. The second reflection holographic optical element will have recorded within it a regular hologram that is configured to permit the light from the diffuse light source to transmit through it to reach the first reflection holographic element, the second reflection holographic element having within it a second holographically reflective structure configured to receive the first collimated light beam and diffract the first collimated light beam as a second collimated light beam. The third transmission holographic optical element is configured to receive the second collimated light beam and diffract it as a third holographic light beam.

20120188791, Jul 26, 2012

Dec 29, 2011

13/339923

Dmitry VOLOSCHENKO - Torrance CA, US
Fedor Dimov - Redondo Beach CA, US
Kevin Yu - Temple City CA, US
Engin Arik - Moorpark CA, US

Luminit LLC. - Torrance CA

F21V 8/00
G02B 5/32

362606, 359 15

A substrate-guided holographic diffuser has a light-guide section configured to in-couple light and transmit the light within itself via total internal reflection. It can also have a brightness enhancement section that recycles non-diffracted light within the light-guide section. A hologram section that receives light from the light-guide section has a holographic structure defining acceptance conditions and is positioned relative to the internally reflected light such that the internally reflected light meets the acceptance conditions of the holographic structure. The internally reflected light is out-coupled by the holographic structure as a projected image of light scattered from a diffuser.

20100157400, Jun 24, 2010

Nov 17, 2009

12/620538

Fedor Dimov - Redondo Beach CA, US
Tin Aye - Mission Viejo CA, US
Kevin Yu - Temple City CA, US
Svetlana Soboleva - Torrance CA, US
Khin Swe Yin - Alhambra CA, US
Myo Kyaw - Rosemead CA, US
Dmitry Voloschenko - Torrance CA, US

G03H 1/04
G02B 5/32
G03H 1/22

359 13, 359 19

A holographic substrate-guided wave-based see-through display can has a microdisplay, capable of emitting light in the form of an image. The microdisplay directs its output to a holographic lens, capable of accepting the light in the form of an image from the microdisplay, and capable of transmitting the accepted light in the form of an image. The holographic lens couples its output to an elongate transparent substrate, capable of accepting the light in the form of an image from the holographic lens at a first location, and transmitting the light in the form of an image along a length of the substrate by total internal reflection to a second location spaced from the first location, the elongate substrate being capable of transmitting the accepted light in the form of an image at the second location. The substrate couples out what it receives to a transparent holographic grating, capable of accepting the light transmitted from the elongate substrate and transmitting it to a location outside of the holographic grating as a viewable image.

20210302731, Sep 30, 2021

Mar 31, 2020

16/835630

- TORRANCE CA, US
FEDOR DIMOV - TORRANCE CA, US

G02B 27/01
H04N 9/31

This application is directed to a compact, lightweight, low power, front-lit monochrome or full-color LCOS display assembly featuring a volume substrate-guided hologram (SGH) optic based on thin and transparent holographic components (THC) with laser-based illumination.

20210263319, Aug 26, 2021

Nov 6, 2020

17/091493

- Torrance CA, US
FEDOR DIMOV - TORRANCE CA, US

G02B 27/01
G02B 27/42

This application relates to a see-through head-mounted display using recorded substrate-guided holographic continuous lens (SGHCL) and a scanning laser beam that creates an image on a diffuser or a microdisplay with laser illumination. The high diffraction efficiency of the volume SGHCL creates very high luminance of the virtual image.

20200378725, Dec 3, 2020

May 7, 2019

16/405494

- Torrance CA, US
Fedor Dimov - Torrance CA, US
Russell Kurtz - Torrance CA, US
Emmanuel Gorce - Torrance CA, US

F41G 7/22
G02B 5/32
G02B 19/00
G03H 1/00

The Compound Eye Laser Illumination Seeker (CELIS) is a tracking system used to guide items to point at a laser-illuminated target, with the illumination being either pulsed or modulated at either a specific rate or within a range of rates. The CELIS, comprising a multiaperture compound receiver optics (MACRO) to collect the signal, a set of light guides to combine the received light into light representing individual angular sectors and redirect it to detectors whose output represents the illumination signal in that quadrant, a spectral filter, an angle filter, the set of detectors, and processing electronics. The output is an electronic signal indicating the angular difference between the pointing direction of the signal and the pointing direction of the tracking device.

20200142106, May 7, 2020

Nov 26, 2019

16/696699

- Torrance CA, US
Fedor DIMOV - Torrance CA, US
Kevin YU - Torrance CA, US
Engin ARIK - Torrance CA, US

G02B 5/02
G03H 1/04
G02F 1/13357
F21V 8/00

A substrate-guided holographic diffuser has a light-guide section configured to in-couple light and transmit the light within itself via total internal reflection. It can also have a brightness enhancement section that recycles non-diffracted light within the light-guide section. A hologram section that receives light from the light-guide section has a holographic structure defining acceptance conditions and is positioned relative to the internally reflected light such that the internally reflected light meets the acceptance conditions of the holographic structure. The internally reflected light is out-coupled by the holographic structure as a projected image of light scattered from a diffuser.

20200018883, Jan 16, 2020

Sep 12, 2019

16/568764

- TORRANCE CA, US
ENGIN B. ARIK - MOORPARK CA, US
FEDOR DIMOV - REDONDO BEACH CA, US
KEVIN YU - TEMPLE CITY CA, US
NEVEN RAKULJIC - SANTA ANA CA, US

G02B 5/32
G03H 1/04
G02B 23/26
G02B 23/24
G02B 27/01
F41G 1/30

A method for design and fabrication of holographic optical elements for a compact holographic sight is proposed. The method includes use of ray-trace software to design holographic elements having optical power using an intermediate hologram with parameters obtained through minimization of the merit function defining image quality.