DR. WENDY BICK-LING WONG, MD
Medical Practice at Samaritan Dr, San Jose, CA

2006009, May 11, 2006

Sep 20, 2005

11/231537

Subir Varma - San Jose CA, US
Joseph Hakim - Sunnyvale CA, US
Wendy Wong - San Jose CA, US

Aperto Networks, Inc. - Milpitas CA

H04J 1/16

370252000

A system that adapts wireless link parameters for a wireless communication link. A measure is determined of errors occurring in communication over a wireless link. In a case that the measure of errors corresponds to more errors than a first predetermined threshold, communication changes from a first set of wireless link parameters to a second set of wireless link parameters. The second set of wireless link parameters corresponds to higher error tolerance than the first set of wireless link parameters. In a case that the measure of errors corresponds to fewer errors than a second predetermined threshold, communication changes from the first set of wireless link parameters to a third set of wireless link parameters. The third set of wireless link parameters corresponds to lower error tolerance than the first set of wireless link parameters. Preferably, the measure of errors is determined by monitoring a number of NACK messages and a number of ACK messages that occur. It is determined that the measure of errors corresponds to more errors than the first predetermined threshold when more than a predetermined number of NACK messages occur in succession. It is determined that the measure of errors corresponds to fewer errors than the second predetermined threshold when more than a predetermined number of ACK messages occur in succession.

8169925, May 1, 2012

Oct 24, 2007

11/923586

Wendy C. Wong - San Jose CA, US
Jaroslaw J. Sydir - San Jose CA, US
Hyunjeong Hannah Lee - Hillsboro OR, US
Kerstin Johnsson - Palo Alto CA, US

Intel Corporation - Santa Clara CA

H04L 12/28

370252, 370310

FCH locations are mapped to preamble sequence sets to allow more than three stations to transmit their FCHs with minimized or reduced interference. A lower interference environment may be provided to transmit the FCH within each DL relay phase when the number of stations within the phase is less than the number (L) of distinct FCH locations. With more than L stations in a DL relay phase, a reduced interference environment for FCH transmission may be achieved by assigning the same FCH location to RSs that are far away from each other.

2004013, Jul 8, 2004

Nov 3, 2003

10/700352

Subir Varma - San Jose CA, US
Joseph Hakim - Sunnyvale CA, US
Wendy Wong - San Jose CA, US

Aperto Networks, Inc., a California corporation - Milpitas CA

H04L001/18, H03M013/00

714/749000, 714/760000

A system that adapts wireless link parameters for a wireless communication link. A measure is determined of errors occurring in communication over a wireless link. In a case that the measure of errors corresponds to more errors than a first predetermined threshold, communication changes from a first set of wireless link parameters to a second set of wireless link parameters. The second set of wireless link parameters corresponds to higher error tolerance than the first set of wireless link parameters. In a case that the measure of errors corresponds to fewer errors than a second predetermined threshold, communication changes from the first set of wireless link parameters to a third set of wireless link parameters. The third set of wireless link parameters corresponds to lower error tolerance than the first set of wireless link parameters. Preferably, the measure of errors is determined by monitoring a number of NACK messages and a number of ACK messages that occur. It is determined that the measure of errors corresponds to more errors than the first predetermined threshold when more than a predetermined number of NACK messages occur in succession. It is determined that the measure of errors corresponds to fewer errors than the second predetermined threshold when more than a predetermined number of ACK messages occur in succession.

8150399, Apr 3, 2012

Dec 21, 2007

11/963445

Wendy C. Wong - San Jose CA, US
Shilpa Talwar - Santa Clara CA, US

Intel Corporation - Santa Clara CA

H04W 36/00

455443, 455 631, 455 6713, 455522, 455525, 3703102, 370328, 370329, 370331

Techniques involving beamforming are disclosed. For example, For instance an apparatus may select a first mobile station served by a first base station and a second mobile station served by a second base station. Based on this selection, a quality metric may be determined that is based on a strength of a user link and a strength of an interfering link. The user link is associated with service of the first mobile station and the interfering link is associated with service of the second mobile station. When the quality metric is greater than a predetermined threshold, the apparatus may designate the first and second mobile stations as suitable for beamforming service in a same resource allocation. Also, techniques are disclosed for determining whether a mobile station is a cell edge mobile station.

8582493, Nov 12, 2013

May 17, 2010

12/781472

Qinghua Li - San Ramon CA, US
Ozgur Oyman - San Jose CA, US
Wendy C. Wong - San Jose CA, US
Yuan Zhu - Beijing, CN
Hujun Yin - Saratoga CA, US

Intel Corporation - Santa Clara CA

H04B 7/14, H04B 15/00, H04J 1/16, H04L 1/00, H04W 4/00

370315, 370235, 370236, 370327, 370328, 455522

Disclosed in some examples is a method performed by a relay station, the method including receiving at a relay station a data packet transmitted from a base station to a subscriber station; receiving a non-acknowledgement (NACK) message transmitted from the subscriber station to the base station in response to the data packet; receiving resource allocation information transmitted from the base station to the subscriber station; and transmitting, in response to the received NACK message at the transmission time, the data packet to the subscriber station in a resource allocation allocated for a retransmission of the data packet from the base station to the subscriber station, wherein the resource allocation is determined from the resource allocation information.

2012013, May 31, 2012

Dec 18, 2009

13/389252

Wendy C. Wong - San Jose CA, US
Meiyuan Zhao - Santa Clara CA, US

H04L 12/56, H04L 29/06

370392, 370400

In some embodiments, the invention involves information routing in networks, and, more specifically, to defining a framework using swarm intelligence and utilization of the defined framework for routing information in the network, especially for cloud computing applications. In an embodiment, information about available information/services is pushed to network nodes using information packets (ants). Nodes requiring services send query packets (ants) and a node may send a response to a query ant when information is available. Ants may be forwarded throughout the network based on popularity of nodes, freshness of information/requests, routing table information, and requests or interest by consumer nodes captured in information routing table. Other embodiments are described and claimed.

8145929, Mar 27, 2012

Jul 1, 2011

13/175416

Wendy C. Wong - San Jose CA, US
Eve M. Schooler - Portola Valley CA, US
Shivani A. Sud - Santa Clara CA, US

Intel Corporation - Santa Clara CA

G06F 1/32, G06F 1/00

713320, 713300, 713310

Embodiments of the present disclosure describe methods, computer-readable media and system configurations for stochastic power management of one or more computer systems. A method may include ascertaining a workload of a plurality of computer systems (e. g. , a data center). Additionally or alternatively, a method may include initiating, by a control module operated by a processor of a first of the plurality of computer systems, a stochastic power management process to manage power consumption of the first of the plurality of computer systems. The stochastic power management process may be conditionally initiated based at least in part on the ascertained workload of the plurality of computer systems. The stochastic power management process may include a plurality of virtual machine management actions having corresponding probabilities being taken, one or more of which may result in power savings. Other embodiments may be described and/or claimed.

2012024, Sep 27, 2012

Feb 15, 2012

13/397416

Jesus Ching - San Jose CA, US
Ronald Chang - Redwood City CA, US
Douglas Dority - Mill Valley CA, US
Jian Ping Zhang - Moraga CA, US
James Jian Quan Wang - Fremont CA, US
Wendy Wingkei Wong - Mountain View CA, US
Kendra Lara Paul - Santa Clara CA, US
Reuel Van Atta - Palo Alto CA, US

Cephied - Sunnyvale CA

G01N 21/64, C12P 19/34, C12Q 1/68

435 611, 435 612, 435 912

The invention is directed to systems, methods, and apparatus for carrying out multi-stage amplification reactions, especially under fluidly closed conditions. In one aspect, methods of the invention are carried out in a fluidly closed reaction system that permits the isolation of a portion of a first (or prior) reaction mixture and its use as a sample or specimen in a second (or subsequent) reaction mixture, thereby substantially avoiding interfering effects that first reaction components may have in the second reaction if both reaction mixtures were simply combined together. In this aspect, systems, methods, and apparatus of the invention may be used with any amplification reaction that permits multiple stages of amplification based on the use of nested primers.

2012016, Jun 28, 2012

Dec 25, 2010

12/978560

Feng Xue - Newbury Park CA, US
Qinghua Li - San Ramon CA, US
Wendy C. Wong - San Jose CA, US

H04L 12/26

370241

Embodiments may comprise logic such as hardware and/or code to enable coexistence of high-density and low-density transmissions with a modified CSMA protocol. Embodiments include a self-CTS (self clear to send) packet transmission prior to transmission of a ready to send (RTS) signal when initiating a high density transmission amidst legacy devices. In many embodiments, the self-CTS or the RTS includes a network allocation vector (NAV) having a value for the duration of the transmission. In some embodiments, the self-CTS may include a flag or bit to indicate the Shading Transmission Starts (STS).