Haowei Bai from Phoenix, AZ, age 48

Resumes

The Wharton School

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Location:

Phoenix, AZ

Industry:

Aviation & Aerospace

Work:

The Wharton School

Education:

The Wharton School 2010 - 2012
Master of Business Administration, Masters University of Minnesota - Twin Cities
University of Minnesota
Doctorates, Doctor of Philosophy, Computer Engineering

Skills:

Strategy
Mergers and Acquisitions
Start Ups
Business Process Improvement
Program Management
Strategic Partnerships
Strategic Planning
Product Management
Business Development
Organizational Leadership
Engineering Management
Project Management
Systems Engineering
Corporate Finance
Product Development
R&D
Software Development
Cost Accounting
Proposal Writing
Cross Functional Team Leadership
Leadership
Product Marketing
Six Sigma
System Architecture
Quality Assurance
New Technology R&D
Strategic Alliance For Growth
Avionics
Competitive Analysis
Earned Value Management
Bid and Proposal
Integrated Avionics Architecture
Embedded Systems
Software Engineering
Systems Design
Management
Integration
Aerospace
Business Strategy
Engineering
Process Improvement

Interests:

Product Marketing
Organization Restructure and Development
Operation
Venture Capital
Strategy of Growth In Emerging Economies
Merger and Acquisition
Corporate Finance

Languages:

English
Mandarin

Us Patents

Ieee 1394 Network For Deterministic And/Or Fault-Tolerant Communication
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US Patent:

7990898, Aug 2, 2011
Filed:

Oct 27, 2005
Appl. No.:

11/260818
Inventors:

Haowei Bai - Burnsville MN, US
Allalaghatta Pavan - Minneapolis MN, US
Brian VanVoorst - Minneapolis MN, US
Vicraj T. Thomas - Golden Valley MN, US
Assignee:

Honeywell International Inc. - Morristown NJ
International Classification:

H04L 12/28
US Classification:

370257, 370466
Abstract:

In one embodiment, a system comprises a plurality of nodes and an IEEE 1394 bus. Each of the plurality of nodes comprises at least one IEEE 1394 interface for communicating over the IEEE 1394 bus. The plurality of nodes communicates over the IEEE 1394 bus in accordance with a rooted, half-binary tree topology. In another embodiment, a node comprises an IEEE 1394 interface to communicate over an IEEE 1394 bus. The node encapsulates logical data packets into IEEE 1394 data packets and maps a traffic class associated with each logical data packet to an IEEE 1394 class of service for the IEEE 1394 data packet into which that logical data packet is encapsulated.

Distributed Network Vibration Isolation System And Vibration Isolators Useful Therein
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US Patent:

8002233, Aug 23, 2011
Filed:

Sep 24, 2007
Appl. No.:

11/860339
Inventors:

Brett M. McMickell - Scottsdale AZ, US
Haowei Bai - Glendale AZ, US
Thomas R. Kreider - Peoria AZ, US
Assignee:

Honeywell International Inc. - Morristown NJ
International Classification:

F16M 11/00
F16M 13/00
US Classification:

248638, 248550, 267136
Abstract:

A distributed network vibration isolation system includes several vibration isolation nodes distributed throughout a structure. The nodes wirelessly intercommunicate and include a passive structural isolation device and an active structural isolation device. The nodes work together via wireless communication to isolate a payload from a disturbance source.

Ieee 1394 Gateway For Fault-Tolerant Communication
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US Patent:

8077603, Dec 13, 2011
Filed:

Oct 27, 2005
Appl. No.:

11/260332
Inventors:

Haowei Bai - Burnsville MN, US
Brian VanVoorst - Minneapolis MN, US
Allalaghatta Pavan - Minneapolis MN, US
Vicraj T. Thomas - Golden Valley MN, US
Assignee:

Honeywell International Inc. - Morristown NJ
International Classification:

H04J 1/00
US Classification:

370218, 370401, 714 2
Abstract:

In one embodiment, a node comprises a plurality of IEEE 1394 subnet interfaces for communicating over a plurality of IEEE 1394 buses. Each of the plurality of IEEE 1394 subnet interfaces comprises a respective IEEE 1394 physical layer and IEEE 1394 link layer for communicating over a respective one of the plurality of IEEE 1394 buses. At least the IEEE 1394 physical layers for the plurality of subnet interfaces do not share hardware. The node further comprises at least one programmable processor that executes software that comprises common network layer functionality that interacts with all of the plurality of IEEE 1394 subnet interfaces and routes IEEE 1394 data packets among the plurality of IEEE 1394 buses.

Adaptive Multi-Channel Integrated Wireless Network System Architecture
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US Patent:

8472499, Jun 25, 2013
Filed:

Dec 18, 2007
Appl. No.:

11/958835
Inventors:

Haowei Bai - Glendale AZ, US
Randall H. Black - Glendale AZ, US
Blaine B. Shelton - Peoria AZ, US
Allalaghatta Pavan - Minneapolis MN, US
Assignee:

Honeywell International Inc. - Morristown NJ
International Classification:

H04B 1/00
US Classification:

375134, 375132, 375133, 375135, 375 E1033, 375 E1036, 375 E1037, 375 E1035, 375 E1034, 370465, 370335, 370342, 370441, 370515, 370356, 370392
Abstract:

An adaptive multi-channel architecture for a wireless network is provided. A frequency hopping sequence generator module is compliant with a frequency hopping spread spectrum (FHSS) communications protocol. The frequency hopping sequence generator module is capable of performing FHSS concurrently on a plurality of communications channels. A frequency replacement module is coupled to the frequency hopping sequence generator module. The frequency replacement module is configured to receive feedback data over a feedback channel and adaptively select a transmission channel from the plurality of communications channels using the feedback data.

Aircraft Engine Sensor Network Using Wireless Sensor Communication Modules
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US Patent:

20050213548, Sep 29, 2005
Filed:

Mar 24, 2004
Appl. No.:

10/808630
Inventors:

Dwayne Benson - Chandler AZ, US
Haowei Bai - Burnsville MN, US
International Classification:

H04B007/00
US Classification:

370338000
Abstract:

A wireless communication module is used to implement an ad-hoc wireless sensor network. The wireless communication module is configured to interface with numerous and varied types of sensors and, in one particular embodiment, is used to implement an ad-hoc wireless sensor network for an aircraft engine. The modules are also configured to implement various functions to optimize ad-hoc network functionality and to minimize the electrical power dissipated by each module in the ad-hoc network.

Speculative Congestion Control System And Cross-Layer Architecture For Use In Lossy Computer Networks
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US Patent:

20080239948, Oct 2, 2008
Filed:

Mar 28, 2007
Appl. No.:

11/692731
Inventors:

Haowei Bai - Glendale AZ, US
David J. Lilja - Maplewood MN, US
Assignee:

HONEYWELL INTERNATIONAL, INC. - Morristown NJ
International Classification:

H04L 12/56
US Classification:

370230
Abstract:

Methods and apparatus are provided to improve data throughput in a wireless, wireline or a combination wireless and wireline communication system. A congestion control manager selects between an assumption based congestion control algorithm and a speculation based congestion control algorithm. The selected algorithm generates data recovery instructions including instructions for resizing, or not, congestion window sizing for the communication gateways. By making the selection between the assumption based congestion control algorithm and the speculation based congestion control algorithm based upon network information, data recovery and throughput is optimized for networks having lossy data links.

Method And Apparatus For Minimizing Congestion In Gateways
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US Patent:

20080239953, Oct 2, 2008
Filed:

Mar 28, 2007
Appl. No.:

11/692758
Inventors:

Haowei Bai - Glendale AZ, US
David J. Lilja - Maplewood MN, US
Assignee:

HONEYWELL INTERNATIONAL, INC. - Morristown NJ
International Classification:

H04L 12/56
US Classification:

370231
Abstract:

Methods and apparatus are provided to reduce data congestion and thus improve data throughput in gateways used in a wireless, wireline or a combination wireless and wireline communication system. The congestion management system optimally resizes, or not, congestion window (or buffer) sizing and threshold for the communication gateways based upon mathematical models. Application of the inventive congestion management method optimizes data recovery and throughput in communication networks, particularly those networks having lossy data links.

Multi-Streaming Multi-Homing Delay Tolerant Network Protocol
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US Patent:

20120327847, Dec 27, 2012
Filed:

Jun 23, 2011
Appl. No.:

13/167111
Inventors:

Ronald Rundquist - Glendale AZ, US
Pablo Bandera - Avondale AZ, US
Yunjung Yi - Glendale AZ, US
Haowei Bai - Glendale AZ, US
Assignee:

HONEYWELL INTERNATIONAL INC. - Morristown NJ
International Classification:

H04W 72/10
H04W 88/04
US Classification:

370316
Abstract:

One exemplary embodiment is directed to a method for deep space communication. The method comprises generating a first packet, assigning a first priority level to the first packet, and selecting at least one communication link from a plurality of communication links for transmission of the first packet. Selecting is a function of a rule specifying which one or more communication links a packet of the first priority level is to be transmitted over. The method also includes transmitting the first packet over the at least one communication link

Haowei Bai

Haowei Bai Phones & Addresses

Work

Education

Skills

Languages

Interests

Industries

Resumes

The Wharton School

Us Patents

Ieee 1394 Network For Deterministic And/Or Fault-Tolerant Communication

Distributed Network Vibration Isolation System And Vibration Isolators Useful Therein

Ieee 1394 Gateway For Fault-Tolerant Communication

Adaptive Multi-Channel Integrated Wireless Network System Architecture

Aircraft Engine Sensor Network Using Wireless Sensor Communication Modules

Speculative Congestion Control System And Cross-Layer Architecture For Use In Lossy Computer Networks

Method And Apparatus For Minimizing Congestion In Gateways

Multi-Streaming Multi-Homing Delay Tolerant Network Protocol