Cheng Liu

US Patent:

6346101, Feb 12, 2002

Filed:

Jun 4, 1997

Appl. No.:

08/887196

Inventors:

Robert R. Alfano - Bronx NY
Cheng Hui Liu - Flushing NY

Assignee:

Research Foundation of City College of New York - New York NY

International Classification:

A61B 1818

US Classification:

606 15, 606 1, 606 10, 606 13, 606 17, 604 19, 604 20, 128898

Abstract:

A photon-mediated technique for introducing biological materials into cells and/or cellular components. The technique may be used to introduce nucleic acids, such as DNA and RNA, proteins or other biological materials into mammalian cells (as well as into other animal and plant cells), which materials may then flow into the nuclei of the cells. The technique uses picosecond or femtosecond light pulses propagating in the UV, visible and near infrared wavelength regions with powers on the order of 1Ã10 W/cm. In practice, the desired biological materials are coated on the end of the inner core of a single mode fiber or the ring core of a fiber in a fiber array. Each fiber is sized to correspond to one cell, with the core size ranging from 2 to 10, and the cladding ranging from 10 to 30. The laser pulse travels through a fiber core which is coated with the materials and ablates a portion of a targeted cell or cellular component membrane. In addition, as the laser pulse exits the fiber, it imparts energy and momentum to the materials applied to the end of the fiber.

US Patent:

20140031049, Jan 30, 2014

Filed:

Jul 25, 2013

Appl. No.:

13/951396

Inventors:

Cheng Liu - Princeton NJ, US
Mustafa Arslan - Princeton NJ, US
Meilong Jiang - Princeton NJ, US
Sampath Rangarajan - Princeton NJ, US

Assignee:

NEC Laboratories America, Inc. - Princeton NJ

International Classification:

H04W 16/02
H04W 84/04

US Classification:

455447, 455446

Abstract:

A wireless communications system is disclosed. The system comprises a baseband processing unit (BBU) pool including one or more baseband processing units (BBUs), and a plurality of remote radio heads (RRHs) connected to the BBU pool through a front-haul network, wherein the wireless communications system has a plurality of sectors, each of which includes one or more small cells, each of which is deployed by one of the plurality of RRHs, wherein a BBUs is mapped to two or more RRHs in a sector in a one-to-many configuration, and a BBU is mapped to a single RRH in a sector in a one-to-one configuration, and wherein a combination of the one-to-one configuration and the one-to-many configuration is applied to each sector. Other systems, apparatuses, and methods also are disclosed.

US Patent:

52614107, Nov 16, 1993

Filed:

Feb 7, 1991

Appl. No.:

7/651449

Inventors:

Robert R. Alfano - Bronx NY
Cheng H. Liu - Flushing NY
Wenling S. Glassman - Bronx NY

International Classification:

A61B 600

US Classification:

128664

Abstract:

A method for determining if a tissue is a malignant tumor tissue, a benign tumor tissue, or a normal or benign tissue. The present method is based on the discovery that, when irradiated with a beam of infrared, monochromatic light, malignant tumor tissue, benign tumor tissue, and normal or benign tissue produce distinguishable Raman spectra. For human breast tissue, some salient differences in the respective Raman spectra are the presence of four Raman bands at a Raman shift of about 1078, 1300, 1445, and 1651 cm. sup. -1 for normal or benign tissue, the presence of three Raman bands at a Raman shift of about 1240, 1445, and 1659 cm. sup. -1 for benign tumor tissue, and the presence of two Raman bands at a Raman shift of about 1445 and 1651 cm. sup. -1 for malignant tumor tissue. In addition, it was discovered that for human breast tissue the ratio of intensities of the Raman bands at a Raman shift of about 1445 and 1659 cm. sup.

US Patent:

52938727, Mar 15, 1994

Filed:

Apr 3, 1991

Appl. No.:

7/678637

Inventors:

Robert R. Alfano - Bronx NY
Cheng H. Liu - Flushing NY

International Classification:

A61B 600

US Classification:

128664

Abstract:

A method for distinguishing between calcified atherosclerotic tissue and either fibrous atherosclerotic tissue or normal cardiovascular tissue. The present method is based on the discovery that, when irradiated with a beam of monochromatic infrared light, calcified atherosclerotic human aortic tissue produces a Fourier Transform Raman spectrum which is distinguishable from analagous spectra obtained from fibrous atherosclerotic human aortic tissue and normal human aortic tissue. Some salient differences in the respective Raman spectra are the presence of five Raman bands at Raman shifts of 957, 1071, 1262-1300, 1445, and 1659 cm. sup. -1 (. +-. 4 cm. sup. -1 for all shifts) for the calcified tissue as compared to three Raman bands at Raman shifts of 1247-1270, 1453 and 1659 cm. sup. -1 (. +-. 4 cm. sup. -1 for all shifts) for the fibrous tissue and three Raman bands at Raman shifts of 1247-1270, 1449 and 1651 cm. sup. -1 (. +-. 4 cm. sup. -1 for all shifts) for the normal tissue.

US Patent:

56568100, Aug 12, 1997

Filed:

Nov 22, 1993

Appl. No.:

8/155450

Inventors:

Robert R. Alfano - Bronx NY
Cheng H. Liu - Flushing NY

Assignee:

The Research Foundation of City College of New York

International Classification:

G01N 2164

US Classification:

250301

Abstract:

A method and apparatus for evaluating the composition of an oil sample. The method and apparatus are premised on the discovery that spectral differences can be observed in the luminescence, excitation, light scattering and absorption spectra in the near UV, visible and near IR regions for various crude oil components, such as asphaltenes, deasphalted crude oil and organic solid residues. Accordingly, in one preferred embodiment the method comprises illuminating an oil sample with light of a suitable excitation wavelength, measuring the resultant fluorescence therefrom and comparing the resultant fluorescence to appropriate standards derived from known components of crude oil.

US Patent:

56354029, Jun 3, 1997

Filed:

Apr 29, 1994

Appl. No.:

8/236861

Inventors:

Robert R. Alfano - Bronx NY
Cheng H. Liu - Flushing NY
Wei L. Sha - New York NY
Yury Budansky - Oakland NJ

International Classification:

G01N 2164
G01N 3352

US Classification:

436 63

Abstract:

A technique for determining whether a cell is malignant as opposed to non-malignant using extrinsic fluorescence spectroscopy. The technique is premised on the principle that certain fluorescent dyes preferentially stain malignant cells as opposed to non-malignant cells. Accordingly, by exposing a cell to the fluorescent dye, irradiating the cell with light of such a wavelength as to cause the dye to fluoresce, measuring the intensity of fluorescence at a wavelength indicative of fluorescence of the dye, and comparing the fluorescence intensity to standards obtained from malignant cells and non-malignant cells, it is possible for one to accurately classify the cell as being either malignant or non-malignant. The present invention also relates to an automated system which applies the principles of the aforementioned technique to depict the spatial distribution of cells within an area of a Pap smear-type sample and to characterize each of the cells as being malignant or non-malignant.

US Patent:

20200115470, Apr 16, 2020

Filed:

Oct 28, 2019

Appl. No.:

16/665708

Inventors:

- New York NY, US
- Emeryville CA, US
Andres Lopez-Albaitero - New York NY, US
Cheng Liu - Emeryville CA, US
Su Yan - State College PA, US
Jingyi Xiang - Walnut Creek CA, US
Hong Liu - El Sobrante CA, US

International Classification:

C07K 16/46
G01N 33/68
C07K 16/28
C07K 16/08

Abstract:

Described herein are antibodies, fragments thereof and multi-specific binding agents that bind an Epstein-Barr virus (EBV) latent membrane protein 2 (LMP2) peptide presented by HLA class I molecules, in particular, HLA-A02. Also provided herein are methods of using the same or compositions thereof for the detection, prevention and/or therapeutic treatment of diseases characterized by expression of an EBV-LMP2 peptide presented by HLA-A02, in particular, Burkit's lymphoma, Hodgkin's lymphoma and nasopharyngeal carcinoma.

US Patent:

20190098603, Mar 28, 2019

Filed:

Nov 21, 2018

Appl. No.:

16/198148

Inventors:

- Atlanta GA, US
Yung Shirley Choi-Grogan - Issaquah WA, US
Cheng P. Liu - Johns Creek GA, US
David Orloff - Sammamish WA, US

International Classification:

H04W 64/00
H04W 4/90
H04W 4/30
H04W 4/02

Abstract:

Performing user equipment (UE) assisted indoor small cell location determination is presented herein. A method can include in response to sending, by an access point device, a request directed to a mobile device to obtain mobile device location data representing a user equipment location of the mobile device, receiving, by the access point device, the mobile device location data from the mobile device; and based on the mobile device location data, determining, by the access point device, access point location data representing an access point location of the access point device. In an example, the mobile device location data can include coordinates of the mobile device comprising latitude of the mobile device and longitude of the mobile device, and a time stamp representing a time of generation of the coordinates. In another example, the mobile device location data can include an altitude of the mobile device.