Xue Yang

US Patent:

8270342, Sep 18, 2012

Filed:

Jun 24, 2009

Appl. No.:

12/456888

Inventors:

Xue Yang - Arcadia CA, US
Mathijs C. Walma - Hillsboro OR, US
Shlomo Avital - Jerusalem, IL

Assignee:

Intel Corporation - Santa Clara CA

International Classification:

H04B 7/212
H04W 4/00
H04J 3/06

US Classification:

370324, 370338, 370350, 370503, 370509, 370512

Abstract:

In a multi-radio platform that operates in two networks, both the announced beacon intervals and the actual beacon intervals in one network may be periodically increased and decreased in defined amounts so that the beacons will not overlap scheduled communications with the other network. The determination of how much and how often to adjust these beacon intervals may be based, at least partially, on the minimum increments in which the beacons intervals are permitted to be adjusted, and on the scheduled communications intervals of the other network.

US Patent:

8553592, Oct 8, 2013

Filed:

Apr 17, 2009

Appl. No.:

12/425795

Inventors:

Xue Yang - Arcadia CA, US

Assignee:

Intel Corporation - Santa Clara CA

International Classification:

H04J 1/00

US Classification:

370281

Abstract:

Embodiments of a multi-radio communication device and method for enabling coexistence between a Bluetooth transceiver and a broadband wireless access network (BWAN) transceiver are generally described herein. In some embodiments, the BWAN transceiver is configured to transmit a reservation request to a BWAN base station to reserve an amount of time during which no uplink transmissions are scheduled. The reservation request is configured to allow the Bluetooth transceiver to receive packets from a Bluetooth device without interference from transmissions by the BWAN transceiver.

US Patent:

8605689, Dec 10, 2013

Filed:

Jun 26, 2012

Appl. No.:

13/533916

Inventors:

Xue Yang - Arcadia CA, US
Ryan Shin - Daegu, KR
Xingang Guo - Portland OR, US

Assignee:

Intel Corporation - Santa Clara CA

International Classification:

H04W 72/04
H04B 1/38

US Classification:

370336, 4555531

Abstract:

A first radio in a wireless network may request a transmit opportunity (TXOP) of a certain duration, with the duration being based a likelihood that a TXOP of that duration would cause interference with a co-located second radio. The duration may be dynamically adjusted based on the likelihood of such interference.

US Patent:

20110321042, Dec 29, 2011

Filed:

Dec 25, 2010

Appl. No.:

12/978555

Inventors:

Xue Yang - Arcadia CA, US
Praveen Gopalakrishnan - Hillsboro OR, US
Sebastian Schoenberg - Hillsboro OR, US
Sanjay Kumar - Hillsboro OR, US

International Classification:

G06F 9/455

US Classification:

718 1

Abstract:

Methods and systems to permit multiple virtual machines (VMs) to separately configure and access a physical resource, substantially outside of a virtual machine monitor (VMM) that hosts the VMs. Each of a plurality of virtual machines (VMs) may access and configure the physical device through corresponding instances of a device driver that exposes controllable functions of the physical device within the VMs. VM-specific configuration parameters and connection information may be maintained for each of the VMs, outside of a VMM, to reconfigure or virtualize the physical device for each of the VMs with the corresponding VM-specific configuration parameters and connection information. Physical device virtualization augmentation features may be implemented within a combination of a physical device controller and a host device driver that executes outside of the VM.

US Patent:

20120120944, May 17, 2012

Filed:

Nov 15, 2010

Appl. No.:

12/946606

Inventors:

Xue Yang - Arcadia CA, US
Shlomo Avital - Jerusalem, IL
Xingang Guo - Portland OR, US

International Classification:

H04J 3/06

US Classification:

370350

Abstract:

A method for coexistence radio communication systems is presented. In one embodiment, the method includes receiving a realtime frame synchronization signal and receiving one or more frame parameters. The method further includes determining, based at least on the frame synchronization signal and the frame parameters, estimated frame timing information and scheduling transmission based on the estimated frame timing information to avoid collision of the transmission and reception.

US Patent:

20130288741, Oct 31, 2013

Filed:

Dec 9, 2011

Appl. No.:

13/995915

Inventors:

Xue Yang - Arcadia CA, US
Praveen Gopalakrishnan - Beaverton OR, US

Assignee:

INTEL CORPORATION - Santa Clara CA

International Classification:

H04W 88/06

US Classification:

4555521

Abstract:

Embodiments of the present disclosure describe methods, apparatuses, and systems related to a user equipment having virtual mobile terminals. Other embodiments may be described and/or claimed.

US Patent:

20200009439, Jan 9, 2020

Filed:

Aug 27, 2019

Appl. No.:

16/552968

Inventors:

- Santa Clara CA, US
Xue Yang - Arcadia CA, US
Suresh V. Golwalkar - Phoenix AZ, US
Mahanth Gowda - Urbana IL, US
Romit Roy Choudhury - Urbana IL, US

International Classification:

A63B 69/36
G09B 9/00
G09B 19/00
G01P 15/08
A63B 24/00
A63B 69/00
A63B 43/00

Abstract:

Systems and techniques for sensor-derived object flight performance tracking are described herein. A set of magnetometer readings may be obtained from a magnetometer included with an object. A local rotation axis of the object may be determined at a time using the set of magnetometer readings. The local rotation axis may describe rotation of the object around a local magnetic target. A global rotation axis may be calculated based on an initial orientation of the object. The global rotation axis may describe a fixed rotation axis of the object during flight in a global coordinate frame, wherein an angle between the global rotation axis and magnetic north remains constant during the flight. An orientation of the object may be determined for the time using the global rotation axis and the local rotation axis of the object at the time.

US Patent:

20170108575, Apr 20, 2017

Filed:

Jun 30, 2014

Appl. No.:

15/301201

Inventors:

Xue Yang - Arcadia CA, US
Lei Yang - Hillsboro OR, US
Xiaoyong Pan - Shanghai, CN

International Classification:

G01S 5/02
H04W 4/02
H04L 29/08
H04B 17/318

Abstract:

Embodiments herein relate to determining the location of a device using hybrid localization techniques. For example, a first technique such as trilateration may be used to determine an approximate location of the device. An error associated with the approximate location may also be implemented to increase the likelihood of locating the device upon applying a second localization technique, such as fingerprinting. Fingerprinting, when applied to the approximate location determined from trilateration, may determine the location of the device, or a more precise location than that determined from trilateration, such that reduced power consumption by the device may be achieved without sacrificing location accuracy.