2009 to 2000 AME Powertrain Advanced Programs Industrial Engineering ManagerChrysler Group LLC Auburn Hills, MI 2007 to 2009 Powertrain Advanced Programs Industrial EngineerDaimlerChrysler Trenton, MI 2005 to 2007 Industrial Engineering ManagerDaimlerChrysler Auburn Hills, MI 2002 to 2005 Staff Industrial EngineerDaimlerChrysler Trenton, MI 1999 to 2002 Industrial EngineerWohlert Corporation Lansing, MI 1994 to 1999 Industrial Engineering Intern
Education:
Wayne State University - School of Business Administration 2006 Master of Business Administration in MarketingGMI Engineering & Management Institute / Kettering University 1999 Bachelor of Science in Industrial Engineering
Jason G. Bauman - Huntington Woods MI, US Kenan R. Rudnick - Bloomfield Hills MI, US Jody K. Harwood - Canton MI, US
Assignee:
Lear Corporation - Southfield MI
International Classification:
H04M 1/00 H04B 1/06 H04B 1/16
US Classification:
4555692, 455 6711, 4555759, 455345, 455 9, 455 99
Abstract:
A method for establishing communication between a communication protocol controller and a main controller including the steps of monitoring a communication bus using a power management device wherein the bus is electrically coupled to the protocol controller, the power management device, and the main controller residing in an initial low power mode, determining when the protocol controller is attempting to communicate with the main controller, generating a wake-up signal in response to the attempted communication, presenting the wake-up signal to the processor of the main controller, wherein the main controller enters a wake-up mode in response to the wake-up signal, reading at least one communication protocol configuration parameter from the data storage device, and initiating communication between the main controller and the protocol controller using the at least one communication protocol configuration parameter such that communication between the protocol controller and a communication protocol enabled device is maintained.
Garage Door Opener Communications Gateway Module For Enabling Communications Among Vehicles, House Devices, And Telecommunications Networks
A garage door opener (GDO) communications gateway module includes a receiver for receiving garage door signals and a transmitter for transmitting control signals to a GDO operable for opening and closing a garage door of a garage of a house. The transmitter transmits a control signal to the GDO to control the garage door upon receipt of a garage door signal by the receiver. The module includes a Bluetooth enabled first transceiver for communicating with a Bluetooth enabled appliance of a vehicle over a wireless communications path when the vehicle is located within the vicinity of the garage. The module includes a second transceiver for communicating with a device of the house over another communications path. The vehicle appliance and the house device communicate with one another over the communications paths via the transceivers. The receiver, the transmitter, and the transceivers are contained within a housing mountable to the garage.
A vehicle power management system (VPMS) controls a charging voltage of a battery in a vehicle, wherein a VPMS controller evaluates state-of-charge (SOC), battery temperature, and battery charging current to determine a charge mode. A rapid charge mode is used when the SOC is less than a first threshold, wherein the VPMS controller selects a target rapid charge voltage, compensates the target rapid charge voltage for the battery temperature, and transmits the compensated rapid charge voltage to the charging source. A normal charge mode is used when the SOC is greater than the first threshold and less than a second threshold, wherein a target normal charge voltage is selected and compensated which is less than the target rapid charge voltage. A trickle charge mode is used when the SOC is greater than the second threshold, wherein a target trickle charge voltage is less than the target normal charge voltage. The VPMS controller also enters the trickle charge mode in the event of a failure to receive the SOC, battery temperature, or battery charging current from a battery monitor.
Method And System For Communicating Vehicle Diagnostic Data To Internet Server Via Bluetooth Enabled Cell Phone For Subsequent Retrieval
Jason G. Bauman - Huntington Woods MI, US Jody K. Harwood - Plymouth MI, US Kenan R. Rudnick - Bloomfield Hills MI, US Clayton Mackey - Clarkston MI, US
Assignee:
Lear Corporation - Southfield MI
International Classification:
G01M 17/00 B60R 25/10
US Classification:
701 332, 34042615
Abstract:
A method and system for communicating vehicle diagnostic data to a vehicle service provider employs sensors for generating sensor signals indicative of the status or condition of vehicle components. A diagnostics module in the vehicle generates diagnostic data based on the sensor signals and transfers the diagnostic data to a communications module of a hands-free phone system in the vehicle. The communications module wirelessly communicates the diagnostic data to a Bluetooth enabled cell phone in the vehicle using Bluetooth communications. The cell phone communicates the diagnostic data to an Internet server via the Internet. The provider accesses the diagnostic data from the Internet server using a computer connected to the Internet to determine if any of the vehicle components are in need of repair or maintenance. The provider notifies a user of the vehicle of any vehicle component that is in need of repair or maintenance.
Jason Bauman - Huntington Woods MI, US Jody Harwood - Canton MI, US Ken Rudnick - Bloomfield Hills MI, US
International Classification:
G01C 21/26
US Classification:
701201000, 701209000, 340995230
Abstract:
A method is provided for generating a destination address in response to a plurality of oral inputs by a user. The user is prompted to orally input a primary geographical descriptor of the destination address to the in-vehicle navigation module. Primary geographical utterance data is generated in response to an oral input by the user. The primary matching voice templates stored in the in-vehicle navigation module are compared with the primary geographical utterance data. The secondary voice templates associated with the secondary geographical descriptors within the primary geographical descriptors are retrieved from the remote navigation server. The secondary geographical utterance data is generated in response an oral input by the user. The stored secondary voice templates are compared with the secondary geographical utterance data. The destination address is generated in response to matching voice templates. The destination address is provided to a remote navigation server for calculating route guidance directions.
Voice Programmable And Voice Activated Vehicle-Based Appliance Remote Control
Jason G. Bauman - Huntington Woods MI, US Jody K. Harwood - Canton MI, US Sumithra Krishnan - Canton MI, US Kenan R. Rudnick - Bloomfield Hills MI, US
Assignee:
Lear Corporation - Southfield MI
International Classification:
G05B 19/00 G10L 15/00
US Classification:
340 523, 704231, 704E15003
Abstract:
A programmable controller for activating an appliance controlled by an activation signal is voice-programmable and voice-activated. If a user verbally indicates the appliance is activated by a rolling code activation signal, the controller transmits a sequence of different rolling code activation signals until the user verbally indicates a successful rolling code transmission. The controller stores data representing the successful rolling code transmission. If the user verbally indicates the appliance is activated by a fixed code activation signal, the controller uses a fixed code word to transmit each of a sequence of different fixed code activation signals until the user verbally indicates a successful fixed code transmission. The controller then stores data representing the fixed code word and a fixed code scheme used to generate the successful fixed code transmission. In response to the user verbally identifying an activation input, the controller transmits an activation signal based on stored data.
Vehicle Gateway Module Configured To Provide Wireless Hotspot
- Southfield MI, US Jason G. Bauman - Birmingham MI, US Gerard L. Grabowski - Brownstown MI, US Stephen M. Humphrey - Livonia MI, US
International Classification:
H04W 76/02 H04L 29/08 B60R 16/023
Abstract:
A vehicle gateway module is configured to communicate over vehicle networks connected to the gateway module with vehicle devices connected to the vehicle networks. The gateway module has a cellular data link which provides a direct connection from the gateway module to the Internet and a wireless data link which provides a direct connection from the gateway module to an area within the vehicle whereby the cellular data link in conjunction with the wireless data link establish an Internet hotspot for a mobile device within the vehicle.
An electronic passive entry-passive start (ePEPS) system includes a first satellite ultra-wideband antenna, a second satellite ultra-wideband antenna, a third satellite ultra-wideband antenna, and a fourth satellite ultra-wideband antenna. A remote function actuator is in electronic communication with the first satellite ultra-wideband antenna, the second satellite ultra-wideband antenna, the third satellite ultra-wideband antenna, and the fourth satellite ultra-wideband antenna. A body control module can be in electronic communication with remote function actuator. A key fob is in wireless communication with the first satellite ultra-wideband antenna, the second satellite ultra-wideband antenna, the third satellite ultra-wideband antenna, and the fourth satellite ultra-wideband antenna such that predetermined functions in a vehicle are actuated depending on the position of a user.
I'm a Coffee Drinker, Book Reader, and Tech Enthusiast 20Something trying to find my place in a world where only one of the three is popular. I'm the oldest of three brother's and a native...
Tagline:
Tech Enthusiast, Part-Time Writer, Coffee Professional
Bragging Rights:
Experiment Child, aka the oldest of three boys. I wrote an article about G+ that +Vic Gundotra liked.
Jason Bauman
Work:
CONFINS DA TERRA
About:
" TUDO POSSO NAQUELE QUE M FORTALECE" fl3-16
Bragging Rights:
TER SIDO ESCOLHIDO POR DEUS DESDE O VENTRE DE MINHA MÃE