Paul Eric Dietrich, 65Seiad Valley, CA

6335172, Jan 1, 2002

Oct 21, 1999

09/425043

Stephen Gregory Delgado - San Francisco CA
Paul Shartzer Dietrich - Palo Alto CA
Linda Marie Fish - La Honda CA
Ronald Charles Herman - Sunnyvale CA
Lakshmi Sangameswaran - San Jose CA

Syntex (U.S.A.) LLC - Palo Alto CA

C07K 14705

435 71, 435 72, 436507, 530350

DNA encoding for a voltage-gated, TTX-sensitive sodium channel is isolated. Also disclosed are polypeptide products of recombinant expression of these DNA sequences, expression vectors comprising the DNA sequences, and host cells transformed with these expression vectors. Other aspects of this invention are peptides whose sequences are based on the amino acid sequences deduced from these DNA sequences, antibodies specific for such proteins and peptides, procedures for detection and quantitation of such proteins, and nucleic acids related thereto. Another aspect of this invention is the use of this voltage-gated, tetrodotoxin-sensitive sodium channel as a therapeutic target for compounds.

6589787, Jul 8, 2003

Aug 23, 2001

09/935541

Paul Shartzer Dietrich - Palo Alto CA
Joseph Gerrard McGivern - Mountain View CA

Syntex (U.S.A.) LLC - Palo Alto CA

C12N 500

435375, 435 691, 4353201, 435325, 435335, 536 231, 536 235, 530350, 530351

The invention provides TCCV-1 or TCCV-2 from human, reagents related thereto including polynucleotides encoding TCCV-1 or TCCV-2, purified polypeptides, and specific antibodies. Methods of making and using these reagents, in particular, methods for screening compounds which modulate TCCV-1 or TCCV-2 activity are provided. Also provided are methods of diagnosis and kits.

6893842, May 17, 2005

Apr 29, 2003

10/425800

Paul Shartzer Dietrich - Palo Alto CA, US
Joseph Gerrard McGivern - Mountain View CA, US

Syntex (U.S.A.) LLC - Palo Alto CA

C12P021/04
C12N005/00
C12N015/63
C07H021/02
C07K001/00

435 691, 4353201, 435325, 435455, 536 231, 536 235, 530350

The invention provides TCCV-1 or TCCV-2 from human, reagents related thereto including polynucleotides encoding TCCV-1 or TCCV-2, purified polypeptides, and specific antibodies. Methods of making and using these reagents, in particular, methods for screening compounds which modulate TCCV-1 or TCCV-2 activity are provided. Also provided are methods of diagnosis and kits.

7047014, May 16, 2006

Nov 5, 2004

10/982153

Robert J. Friday - Los Gatos CA, US
Paul F. Dietrich - Seattle WA, US
Gregg Scott Davi - Milpitas CA, US

Airespace, Inc. - San Jose CA

H04Q 7/20

455446, 455 632, 455418, 382113, 382165, 382177, 345581, 345619, 345625

Methods, apparatuses and systems directed to optimizing vector models for use in modeling RF propagation in desired physical environments. In one embodiment, the present invention can operate on pre-existing vector models. In other implementations, the present invention facilitates the conversion of raster images of buildings and other physical locations to vector formats for use in connection with the computational modeling of radio-frequency (RF) propagation. According to certain embodiments, the present invention is implemented within the context of a location diagram editing application that supports a line recognition filter, a snap filter and a merge filter which a user may individually select and configure. As discussed more fully below, the line recognition filter operates on the vector objects to adjust near-vertical lines (as defined by a configurable threshold angle) to vertical, and near-horizontal lines to horizontal. In some configuration modes, the line recognition filter may also delete lines that are oriented at an angle greater than a threshold from the x-axis and y-axis to, for example, clean up vector objects corresponding to text and other elements that are usually analytically irrelevant to modeling RF propagation.

7205938, Apr 17, 2007

Mar 5, 2004

10/794842

Gregg Scott Davi - Milpitas CA, US
Paul F. Dietrich - Seattle WA, US
Alexander H. Hills - Palmer AK, US

Airespace, Inc. - San Jose CA

G01S 3/02

342451, 342458

A wireless node location mechanism that dynamically adapts to changes to a surrounding physical environment that affect the propagation of radio signals. The wireless node location mechanism assesses radio signals from transmitters associated with a wireless node location infrastructure to adjust one or more parameters used to estimate location of a wireless node. In one implementation, path loss exponents are re-computed based on the signals transmitted between infrastructure radio transceivers. These path loss exponents are used, in one implementation, to compute the distance between a wireless node and a given infrastructure radio transceiver and, ultimately, to determine the location of the wireless node based on triangulation. In one implementation, path loss exponents are computed on demand based on the signals observed between infrastructure radios that detect the wireless node whose location is to be estimated.

7260408, Aug 21, 2007

Feb 20, 2004

10/783186

Robert J. Friday - Los Gatos CA, US
Paul F. Dietrich - Seattle WA, US

Airespace, Inc. - San Jose CA

H04Q 7/20

4554561, 4554042, 34235702

A wireless node RF Fingerprinting location mechanism that uses multiple antenna patterns to enhance the accuracy of wireless node location in an RF environment. In one implementation, substantially non-overlapping antenna pattern diversity is used to provide a degree of sectorization in computing the estimated location of a wireless node.

7327697, Feb 5, 2008

Jun 25, 2002

10/183704

Robert J. Friday - Los Gatos CA, US
Patrice R. Calhoun - Pleasanton CA, US
Alexander H. Hills - Palmer AK, US
Paul F. Dietrich - Mountain View CA, US

Airespace, Inc. - San Jose CA

H04B 7/005

370278, 370252, 370328, 370230, 709228

In a fixed channel wireless network system with a limited number of channels, assignment of the fixed channels between remote client elements and access elements is made systematically according to a set of criteria accounting for network loading and interference, then channel assignments are dynamically updated according to a priority to maintain optimal network performance with changing conditions of load and interference. The channel utilization problem is address at a system level rather than at a local level by treating the system as a three dimensional color mapping problem. All noise is treated as having a source in virtual access elements with an appropriate performance metric. The performance metric is used to select a channel set that minimize chances of interference and maximize user performance. Specifically, there are several parameter matrices which are managed and updated by a central resource management element, namely signal strength between elements, interference, and load. These matrices are used to find the optimal channel assignments for a predetermined limited set of assignable channels.

7336670, Feb 26, 2008

Oct 24, 2003

10/692699

Patrice R. Calhoun - Pleasanton CA, US
Robert J. Friday - Los Gatos CA, US
Brett Galloway - Los Altos CA, US
David Anthony Frascone - Terrell TX, US
Paul F. Dietrich - Seattle WA, US
Sudhir Kumar Jain - Fremont CA, US

Airespace, Inc. - San Jose CA

H04L 12/28

370401, 370252, 370469

Methods, apparatuses and systems facilitating location or containment of rogue or unauthorized access points on wireless computer network environments. Embodiments of the present invention support one to a plurality of rogue containment methodologies. A first rogue containment type involves identification of the physical connection of the rogue access point to the wired network infrastructure and, thus, allows for disabling of that physical connection to contain the rogue access point. Other rogue containment methods involve wireless techniques for containing the effect of rogue access points. In some embodiments, the present invention provides methods, apparatuses and systems facilitating network location of rogue access points to determine whether one or more rogue containment methodologies should be applied. As discussed below, the rogue location and containment functionality described herein can be applied to a wide variety of wireless network system architectures.