Bing Lin

age ~65

from Princeton, NJ

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Also known as:

Lin Bing
Li N Bing
Tiezhong Li
Li Tiezhong

Phone and address:: 55 Sayre Dr, Princeton, NJ 08540

Connected to:

Bing Lin Phones & Addresses

55 Sayre Dr, Princeton, NJ 08540
209 Richter Ln, Yorktown, VA 23693
Poquoson, VA
Williamsburg, VA
1802 Calm Branch Ct, Newport News, VA 23602 • 7578902933

Resumes

Ph.d Student

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Location:

Princeton, NJ

Work:

Princeton University
Ph.d Student

Education:

Princeton University 2019 - 2024
Doctorates, Doctor of Philosophy

Bing Lin

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Bing Lin

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Bing Lin

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Industry:

Non-Profit Organization Management

Bing Lin

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Scientist At Nasa Langley Research Center

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Position:

Scientist at NASA Langley Research Center

Location:

Norfolk, Virginia Area

Industry:

Aviation & Aerospace

Work:

NASA Langley Research Center
Scientist

Name / Title

Company / Classification

Phones & Addresses

Mr. Bing Lin
President

Stone Computer, Inc.
Stone Network Services
Computers - Dealers. Computers - Service & Repair. Computers Software & Services

5525 Coldwater Rd, Ste D, Fort Wayne, IN 46825-5434
2604719989, 2604718727

Bing Jing Lin

DOUBLE DRAGON BUFFET, INC

Us Patents

Binary Phase Shift Keying (Bpsk) On Orthogonal Carriers For Multi-Channel Im-Cw Co2 Absorption Or Lidar/Radar/Sonar Mapping Applications
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US Patent:

20170038464, Feb 9, 2017
Filed:

Aug 4, 2015
Appl. No.:

14/817843
Inventors:

- Washington DC, US
Bing Lin - Yorktown VA, US
Amin R. Nehrir - Yorktown VA, US
International Classification:

G01S 13/32
G01S 17/32
G01S 15/32
Abstract:

Systems, methods, and devices of the present invention use a single Pseudo Noise (PN) code to modulate multiple orthogonal carriers by Binary Phase Shift Keying (BPSK) modulation. The various embodiments enable closely spaced carriers to be modulated with the same periodic PN sequence using BPSK modulation. In this manner, even though the carriers may almost entirely share bandwidth, orthogonality of the carriers may not be lost, enabling the various embodiments to be used with limited bandwidth Intensity Modulated Continuous Wave (IM-CW) Light detection and ranging (Lidar), Radio detection and ranging (Radar), or Sound Navigation and Ranging (Sonar) systems. Additionally, by using orthogonal carriers the various embodiments enable measurements to be made simultaneously, thereby reducing the error compared to systems that require sequential measurements, such as pulsed Lidar systems.

Hyperfine Interpolated Range Finding For Cw Lidar, Radar, And Sonar Using Repeating Waveforms And Fourier Transform Reordering
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US Patent:

20160047891, Feb 18, 2016
Filed:

Aug 4, 2015
Appl. No.:

14/817805
Inventors:

- Washington DC, US
Bing Lin - Yorktown VA, US
Amin R. Nehrir - Yorktown VA, US
International Classification:

G01S 7/00
Abstract:

Systems, methods, and devices may enhance the apparent sample rate of data collected using Nyquist sampling from a system, such as Continuous Wave (CW) Light detection and ranging (“Lidar”), Radio detection and ranging (“Radar”), or Sound Navigation and Ranging (“Sonar”), that has been modulated with a repeating waveform, such as linear swept frequency, by reordering of the data in the frequency domain. The enhancement of the apparent sample rate may result in a highly interpolated range profile where the data resolution may be enhanced by a factor equal to the number of repeats in the signal being processed, and may result in a highly detained range measurement with a high precision. The various embodiments may combine data from multiple modulation repeats into a single highly interpolated pulse, which may result in a real-time finer range measurement from CW Lidar, Radar, or Sonar systems.