Mohammed N Islam from 4845 58Th Ln APT 2, Flushing, NY 11377, age 58, Phone: (718) 786-5719

Active Remote Sensing System Using Time-Of-Flight Sensor With Applications To Cameras And Vehicle Or Airborne Platforms

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US Patent:

20220308034, Sep 29, 2022

Filed:

Jun 3, 2022

Appl. No.:

17/832340

Inventors:

- Ann Arbor MI, US
Mohammed N. ISLAM - Ann Arbor MI, US

International Classification:

G01N 33/15
G01N 21/3504
G01N 21/359
G01J 3/02
G01J 3/42
A61B 5/00
A61B 5/145
A61B 5/1455
G01J 3/10
G01J 3/28
G01J 3/453
G01N 21/3563
G01N 21/39
G01N 21/88
G01N 33/02
G01N 33/44
G01N 33/49

Abstract:

An active remote sensing system is provided with an array of laser diodes that generate light directed to an object having one or more optical wavelengths that include at least one near-infrared wavelength between 600 nanometers and 1000 nanometers. One of the laser diodes pulses at a modulation frequency between 10 Megahertz and 1 Gigahertz and has a phase associated with the modulation frequency. A detection system includes a photo-detector, a lens, a spectral filter at an input to the photo-detector, and a processor that processes digitized signals received from the photo-detector to generate an output signal. The detection system uses a lock-in technique that synchronizes pulsing the one laser diode. The active remote sensing system is configured to be mounted on a vehicle or an airborne platform to provide distance information based on a time-of-flight measurement.

Time-Of-Flight Imaging And Physiological Measurements

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US Patent:

20210137389, May 13, 2021

Filed:

Dec 28, 2020

Appl. No.:

17/135233

Inventors:

- Ann Arbor MI, US
Mohammed N. ISLAM - Ann Arbor MI, US

International Classification:

A61B 5/00
A61C 19/04
G16H 40/67
A61B 5/145
A61B 5/1455
G01J 3/02
G01J 3/10
G01J 3/14
G01J 3/28
G01J 3/42
G01J 3/453
G01N 21/35
G01N 21/3563
G01N 21/359
G01N 21/39
G01N 21/88
G01N 33/02
G01N 33/15
G01N 33/44
G01N 33/49

Abstract:

A measurement system is provided with an array of laser diodes with one or more Bragg reflectors. At least a portion of the light generated by the array is configured to penetrate tissue comprising skin. A detection system configured to: measure a phase shift, and a time-of-flight, of at least a portion of the light from the array of laser diodes reflected from the tissue relative to the portion of the light generated by the array; generate one or more images of the tissue; detect oxy- or deoxy-hemoglobin in the tissue; non-invasively measure blood in blood vessels within or below a dermis layer within the skin; measure one or more physiological parameters based at least in part on the non-invasively measured blood; and measure a variation in the blood or physiological parameter over a period of time.

Multi-Wavelength Wearable Device For Non-Invasive Blood Measurements In Tissue

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US Patent:

20210038083, Feb 11, 2021

Filed:

Oct 23, 2020

Appl. No.:

17/078771

Inventors:

- Ann Arbor MI, US
Mohammed N. ISLAM - Ann Arbor MI, US

International Classification:

A61B 5/00
A61B 5/145
A61B 5/1455
G16H 40/67
G01J 3/02
G01J 3/10
G01J 3/14
G01J 3/28
G01J 3/42
G01J 3/453
G01N 21/35
G01N 21/3563
G01N 21/359
G01N 21/39
G01N 21/88
G01N 33/02
G01N 33/15
G01N 33/44
G01N 33/49

Abstract:

A system for measuring one or more physiological parameters is provided with a wearable device that includes a light source comprising a driver and a plurality of semiconductor sources that generate an output optical light. The wearable device comprises: one or more lenses to receive at least a portion of the output optical light and to deliver a lens output light to tissue, and a detection system to receive at least a portion of the lens output light reflected from the tissue and to generate an output signal having a signal-to-noise ratio, and to be synchronized to the light source. The detection system comprises at least one analog to digital converter coupled to at least one spatially separated detector. The plurality of semiconductor sources comprises six light emitting diodes, and wherein the plurality of semiconductor sources and the plurality of spatially separated detectors are located on one or more arcs.

Non-Invasive Measurement Of Blood Within The Skin Using Array Of Laser Diodes With Bragg Reflectors And A Camera System

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US Patent:

20200333312, Oct 22, 2020

Filed:

Jun 8, 2020

Appl. No.:

16/895727

Inventors:

- Ann Arbor MI, US
Mohammed N. ISLAM - Ann Arbor MI, US

International Classification:

G01N 33/15
G01N 21/3504
G01N 21/359
G01J 3/02
G01J 3/42
A61B 5/00
A61B 5/145
A61B 5/1455
G01J 3/10
G01J 3/28
G01J 3/453
G01N 21/3563
G01N 21/39
G01N 21/88
G01N 33/02
G01N 33/44
G01N 33/49

Abstract:

A measurement system comprises a pulsed, near-infrared array of laser diodes, the laser diode array comprising Bragg reflectors, and wherein laser diode light is configured to penetrate tissue comprising skin. A detection system comprising a camera is synchronized to the laser diodes, and the camera is configured to receive some of the laser diode light reflected from the tissue. The detection system is configured to non-invasively measure blood within the skin, the detection system is configured to measure absorption of hemoglobin in the wavelength range between 700 and 1300 nanometers, and the processor is configured to compare the absorption of hemoglobin between different spatial locations of tissue and over a period of time. Physiological parameters are measured by the system. The measurement system is configured to use artificial intelligence in making decisions, and the system is further configured to use regression signal processing, multivariate data analysis, or component analysis techniques.

System For Non-Invasive Measurement Using Cameras And Time Of Flight Detection

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US Patent:

20200288982, Sep 17, 2020

Filed:

May 21, 2020

Appl. No.:

16/880095

Inventors:

- Ann Arbor MI, US
Mohammed N. ISLAM - Ann Arbor MI, US

International Classification:

A61B 5/00
G01J 3/10
G01J 3/28
G01J 3/14
G01J 3/453
G01J 3/42
G01J 3/02
G01N 21/35
G16H 40/67
G01N 21/359
A61B 5/145
G01N 33/15
G01N 33/49
G01N 21/3563
G01N 21/39
G01N 33/02
G01N 33/44
G01N 21/88
A61B 5/1455

Abstract:

A measurement system comprises a pulsed laser diode array that includes one or more Bragg reflectors, and wherein the light generated by the array penetrates tissue comprising skin. At least some of the wavelengths of light are in the near infrared. The detection system is synchronized to the laser diode array and comprises an infrared camera and a first receiver comprising a plurality of detectors. The first receiver comprises one or more detector arrays and performs a time-of-flight measurement. The measurement system generates an image, the detection system non-invasively measures blood in blood vessels within or below a dermis layer within the skin based at least in part on near-infrared diffuse reflection from the skin, and the detection system measures absorption of hemoglobin between 700 and 1300 nanometers wavelength range. A processor compares the absorption of hemoglobin between different tissue spatial locations, and the measurement system processes the time-of-flight measurement.

Time-Of-Flight Measurement Of Skin Or Blood Using Array Of Laser Diodes With Bragg Reflectors

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US Patent:

20200281477, Sep 10, 2020

Filed:

Dec 20, 2019

Appl. No.:

16/722188

Inventors:

- Ann Arbor MI, US
Mohammed N. ISLAM - Ann Arbor MI, US

International Classification:

A61B 5/00
G01N 33/49
G01N 33/44
G01N 33/15
G01N 33/02
G01N 21/88
G01N 21/39
G01N 21/3563
G01N 21/359
G01N 21/35
G01J 3/453
G01J 3/42
G01J 3/28
G01J 3/14
G01J 3/10
G01J 3/02
A61B 5/145
A61B 5/1455

Abstract:

A blood measurement system comprises an array of laser diodes, to generate light to penetrate tissue comprising skin, having one or more wavelengths, including a near-infrared wavelength, and Bragg reflector(s). At least one of the laser diodes to pulse at a pulse repetition rate between 1-100 megahertz. A detection system to measure blood in veins based at least in part on near-infrared diffuse reflection from the skin, the detection system comprising a photo-detector and a lens system coupled to the photo-detector, wherein the photo-detector is coupled to analog-to-digital converter(s) and a processor, and configured to measure absorption of hemoglobin in the near-infrared wavelength between 700-1300 nanometers, differentiate between regions in the skin with and without distinct veins, and implement pattern matching and a threshold function to correlate detected blood concentrations with a library of known concentrations to determine overlap.

Semiconductor Source Based Near Infrared Measurement Device With Improved Signal-To-Noise Ratio

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US Patent:

20200077898, Mar 12, 2020

Filed:

Oct 31, 2019

Appl. No.:

16/669794

Inventors:

- Ann Arbor MI, US
Mohammed N. ISLAM - Ann Arbor MI, US

International Classification:

A61B 5/00
G01N 33/49
G01N 33/44
G01N 33/15
G01N 33/02
G01N 21/88
G01N 21/39
G01N 21/359
G01N 21/3563
G01N 21/35
G01J 3/453
G01J 3/42
G01J 3/28
G01J 3/14
G01J 3/10
G01J 3/02
A61B 5/1455
A61B 5/145
G16H 40/67
A61C 19/04

Abstract:

A measurement system is provided with a light source that is configured to increase signal-to-noise ratio by increasing a light intensity from at least one of a plurality of semiconductor sources. An apparatus to receive a portion of the output optical beam, and deliver an analysis output beam to a sample. A receiver to: receive and process at least a portion of the analysis output beam reflected or transmitted from the sample, generate an output signal, and synchronize to the light source. A smart phone or tablet to: receive and process at least a portion of the output signal, store and display the processed output signal, and transmit at least a portion of the processed output signal. A cloud to: receive an output status comprising the at least a portion of the processed output signal, process the received output status to generate processed data, and store the processed data.

Diagnostic System With Broadband Light Source

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US Patent:

20200064189, Feb 27, 2020

Filed:

Nov 4, 2019

Appl. No.:

16/673592

Inventors:

- Ann Arbor MI, US
Mohammed N. ISLAM - Ann Arbor MI, US

International Classification:

G01J 3/10
H01S 3/067
H01S 3/30
G01B 9/02
G01J 3/02
H01S 5/00
H01S 5/10
H01S 5/14
G01J 3/42
G02B 6/293
G02F 1/365
H01S 3/094
H01S 5/40

Abstract:

A diagnostic system is provided with a plurality of semiconductor light emitters, each configured to generate an optical beam, and a beam combiner to generate a multiplexed optical beam. An optical fiber or waveguide communicates at least a portion of the multiplexed optical beam to form an output beam, wherein the output beam is pulsed. A filter, coupled to at least one of a lens and a mirror to receive at least a portion of the output beam, forms an output light. A beam splitter splits the light into a sample arm and a reference arm and directs at least a portion of the sample arm light to a sample. A detection system is configured to receive from the sample at least a portion of reflected sample light, to generate a sample detector output, and to use a lock-in technique with the pulsed output beam.

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Us Patents

Active Remote Sensing System Using Time-Of-Flight Sensor With Applications To Cameras And Vehicle Or Airborne Platforms

Time-Of-Flight Imaging And Physiological Measurements

Multi-Wavelength Wearable Device For Non-Invasive Blood Measurements In Tissue

Non-Invasive Measurement Of Blood Within The Skin Using Array Of Laser Diodes With Bragg Reflectors And A Camera System

System For Non-Invasive Measurement Using Cameras And Time Of Flight Detection

Time-Of-Flight Measurement Of Skin Or Blood Using Array Of Laser Diodes With Bragg Reflectors

Semiconductor Source Based Near Infrared Measurement Device With Improved Signal-To-Noise Ratio

Diagnostic System With Broadband Light Source