Wei Hsieh Yu

US Patent:

6358498, Mar 19, 2002

Filed:

Aug 18, 2000

Appl. No.:

09/642489

Inventors:

Wei H. Yu - Montclair NJ
Rupali A. Kulkarni - Bridgewater NJ
Ralph Macchio - Sparta NJ
Salvatore J. Barone - Staten Island NY
Antonietta Corrigan - Somerville NJ

Assignee:

Coty B.V. - Haarlem

International Classification:

A16K 600

US Classification:

424 64, 424401

Abstract:

A new personal care product in the form of a free-standing stick comprises an inner core with cosmetic ingredients and an solid outer shell adhering to the inner core, in which the outer shell is wax-free and contains at least solid proteins, liquid polyols or solutions of polyols, solid polyols, emollients and additional cosmetic auxiliary materials and active ingredients. The outer surface does not transfer pigment through brief contact with the skin and is also not sticky.

US Patent:

7611254, Nov 3, 2009

Filed:

Feb 25, 2009

Appl. No.:

12/379557

Inventors:

Wei Hung Yu - Irvine CA, US
Connie Wang - Irvine CA, US

International Classification:

F21V 33/00

US Classification:

362102, 362 96, 362101, 362318, 362577

Abstract:

This invention is a light baton for use in aquatic games, comprising a translucent baton body, end inserts at both ends of the baton body, an end insert connected to an inserted light-emitting module, holes in the translucent baton body, and arcuate convex protuberances on the outer surface of the translucent baton body; the holes in the translucent baton body allow water to flow in and surround the light-emitting module, with the change in air and water density causing the baton to sink in water, while the liquid has a refractive effect on the colorful lights from the light-emitting module; the colorful beams of light pass through and are refracted by the ripples in the liquid within the baton body to produce illumination, making the baton ideal for having fun in water.

US Patent:

7845815, Dec 7, 2010

Filed:

Feb 25, 2009

Appl. No.:

12/379558

Inventors:

Wei Hung Yu - Irvine CA, US
Connie Wang - Irvine CA, US

International Classification:

F21V 33/00
F21S 8/00
F47G 21/18
A61J 15/00
A47G 19/22

US Classification:

362101, 239 18, 239 33, 220710

Abstract:

The present invention relates to a straw cup with variable lights, primarily comprising of a set of light-emitting diodes surrounding the inside of the cup's straw, a circuit controller board, and power switch; when the power is activated, the liquid inside the straw's cup refracts and directs light, increasing the variation and brilliance of the twinkling lights and thus further increasing the variation of the straw cup's multicolored lights.

US Patent:

D666342, Aug 28, 2012

Filed:

Oct 18, 2011

Appl. No.:

29/404244

Inventors:

Connie Wang - Irvine CA, US
Wei Hung Yu - Irvine CA, US

International Classification:

2602

US Classification:

D26 38

US Patent:

20110204825, Aug 25, 2011

Filed:

Feb 22, 2010

Appl. No.:

12/656954

Inventors:

Wei Hung Yu - Irvine CA, US
Connie Wang - Irvine CA, US

International Classification:

H05B 39/00

US Classification:

315313

Abstract:

This invention is a light stick with a dazzling effect, comprising a handle, a dazzle layer and a transparent tube; on the upper part of the handle there is an illuminated body with a number of light-emitting diodes (LEDs); the body of the handle has a battery and a number of on/off switch; the dazzle layer is fitted inside the transparent tube which is then placed over the illuminated body, then joined together with the handle; in this way a light stick with a changing dazzling effect is provided.

US Patent:

20210060512, Mar 4, 2021

Filed:

Oct 29, 2020

Appl. No.:

17/083686

Inventors:

- New York NY, US
Qiao LIN - New York NY, US
Dongyang WANG - New York NY, US
Wei YU - New York NY, US
Ming GAO - New York NY, US
Guanhe RIM - New York NY, US
Tony FERIC - New York NY, US

Assignee:

THE TRUSTEES OF COLUMBIA UNIVERSITY IN THE CITY OF NEW YORK - New York NY

International Classification:

B01J 13/14
B01J 13/20
B01J 20/28
B01J 20/22
B01J 20/26
B01J 20/30

Abstract:

An apparatus for encapsulating a material includes a first channel in fluid communication with a source of a material for encapsulation, at least one second channel in fluid communication with a source of a photopolymerizable compound, and at least one third channel in fluid communication with a source of an encapsulating fluid. Flow of the photopolymerizable compound into the first channel produces sheath flow in the first channel such that the material is within the polymerizable compound. Addition of the encapsulating fluid produces encapsulation precursors. Upon irradiation via a UV-radiation source, the photopolymerizable compound in the encapsulation precursor forms a polymer shell encapsulating the material for encapsulation. Materials such as nanoparticle organic hybrid materials (NOHMs) and a metal-organic frameworks (MOFs) can be thus encapsulated as carbon sequestration micro particles, as the polymer shell is permeable by gases such as carbon dioxide but selectively rejects other compounds such as water.

US Patent:

20140177682, Jun 26, 2014

Filed:

Dec 20, 2012

Appl. No.:

13/721864

Inventors:

- Moline IL, US
Wei Yu - Torrance CA, US

Assignee:

DEERE & COMPANY - Moline IL

International Classification:

H04B 1/7097

US Classification:

375148

Abstract:

Methods and apparatus are disclosed for ameliorating signal reception. An example method disclosed herein includes receiving a composite satellite signal comprising a desired signal component and an interference signal component, converting the received composite satellite signal to a digital received composite signal, receiving a first group of samples from the digital received composite signal, generating an interference estimate of the interference signal component based on the first group of samples, combining the interference estimate and a second sample belonging to a second group of samples to remove, partially or entirely, the interference signal component from the composite satellite signal, the first group of samples received prior to the sample belonging to the second group of samples, wherein the removal is generally independent of the code chip rate of the desired signal component and substantially retains the undistorted chip edge characteristics of the desired signal component.