Jun 2012 to 2000 General Labor WorkerWarehouse Teammate Lynnwood, WA Mar 2013 to Sep 2014 Delivery DriverAerotek/Nintendo North Bend, WA Oct 2011 to Dec 2011 Swing Shift Distribution/ShippingDepot Group Duvall, WA Jun 2011 to Sep 2011 Farm WorkerLowe's Lynnwood, WA Sep 2009 to Feb 2011 Unload AssociateGoodwill Industries Easter Seals KS, Inc Wichita, KS Jun 2006 to Apr 2008 Program SpecialistDepartment on Aging Wichita, KS Aug 2005 to May 2006 PracticumAmerican Red Cross Wichita, KS Sep 2005 to Jan 2006 Incidental ExperienceSocial Rehabilitation Services Wichita, KS Mar 2005 to May 2005 Intern
Education:
Wichita State University Wichita, KS May 2006 Bachelor of Liberal Arts and Science in Social WorkIndependence Community College Independence, KS May 2004 Associate of Science in Psychology
Dr. Decker graduated from the Texas A & M University Health Science Center Colle of Medicine in 1998. He works in Pearland, TX and specializes in Pediatrics and Adolescent Medicine. Dr. Decker is affiliated with CHI St Lukes Health The Vintage Hospital, Memorial Hermann Southeast Hospital, Texas Childrens Hospital and The Womans Hospital Of Texas.
- Wichita KS, US Frank Joseph Rowe - Wichita KS, US Jason Michael Decker - Wichita KS, US Matthew Robert Harrell - Wichita KS, US
International Classification:
B64D 11/06
Abstract:
A multi-function credenza includes at least one cabinet with a first top surface and a seat adjacent the cabinet. The seat has a convertible seat back for converting to a second top surface adjacent to the first top surface when the seat is stowed. A multi-function credenza in an aircraft cabin includes a first cabinet that has a first inboard panel and a first top surface, a second cabinet that has a second inboard panel and a second top surface, and a stowable seat located between the first cabinet and the second cabinet. A stowable seat includes a seat back that has a first side adapted for seating in a first mode and a second side adapted as a working surface in a second mode. The seat back articulates between the first mode and the second mode for deploying and stowing the seat, respectively.
The invention described herein provides a flight crew with an easier, more intuitive, system and method to create a flight plan. A flight planning system is presented for navigation of an aircraft utilizing a touch screen display device mounted in an aircraft cockpit spanning the width and height of the instrument panel. The system provides navigational views, an interactive map, charts, a radio frequency component, a weather component, and a virtual flight plan. A flight planning method is presented that uses an interactive map on a touch screen device in an aircraft cockpit. The method accepts user inputs and displays a desired flight plan on the map. A method for providing a chart on a touch screen device is presented that includes presenting a list of menu options on a touch screen mounted in an aircraft cockpit. The method provides the flight crew with heads-up operation, providing greater situational awareness.
The invention described herein provides a flight crew with an easier, more intuitive, system and method to create a flight plan. A flight planning system is presented for navigation of an aircraft utilizing a touch screen display device mounted in an aircraft cockpit spanning the width and height of the instrument panel. The system provides navigational views, an interactive map, charts, a radio frequency component, a weather component, and a virtual flight plan. A flight planning method is presented that uses an interactive map on a touch screen device in an aircraft cockpit. The method accepts user inputs and displays a desired flight plan on the map. A method for providing a chart on a touch screen device is presented that includes presenting a list of menu options on a touch screen mounted in an aircraft cockpit. The method provides the flight crew with heads-up operation, providing greater situational awareness.
Systems, methods and computer-storage media are provided for displaying a real-time image in a cockpit of an aircraft. Use of a synthetic vision application is provided with a gradient-type feature such that a level of synthetic enhancements applied to an image may be adjusted to a synthetic vision application value that is less than 100 percent. The synthetic vision enhancement may be overlaid with the original image, according to the synthetic vision application value, to generate a modified image. Additional information may overlay the original image with the synthetic vision application such as a three-dimensional weather representation. The synthetic vision application may be used in conjunction with a high-definition camera to generate the original image. The modified image may be updated in real-time such that an updated view is continuously modified with an updated synthetic vision enhancement to provide accurate real-time views.
The invention described herein provides a flight crew with an easier and more intuitive way to control and monitor flight-control surfaces. Specifically, the invention displays all flight-control surfaces on a touch-screen display device located in an aircraft cockpit. The invention includes graphical and numerical position indicators to continuously display actual position information for flight-control surfaces. Additionally, the invention allows a flight crew to make flight-control surface adjustments through the touch-screen device. The invention further includes an engine performance indicator and a mode controller configured to display autopilot modes and to receive autopilot mode selections. A method is presented for controlling an aircraft flight-control surface via a touch screen device. The method includes receiving an indication of a flight-control surface and enabling selection of a position change. Based on the position change selection, the method includes verifying a corresponding movement and displaying an actual position of the flight-control surface.
- Wichita KS, US Jason Michael Decker - Wichita KS, US Isaac Wayne Stanfield - Wichita KS, US
International Classification:
G06F 3/041 G06F 3/0481
Abstract:
Systems and methods are described for controlling an aircraft. The systems and methods utilize a touch screen instrument panel to display information to pilots or other users, and to receive input from the user for controlling the aircraft and its components. The systems and methods include synoptic user interface panels that provide graphical or symbolic representations of the aircraft, its components, and subsystems, and display information regarding their configuration, condition, and status. The users may interact with the synoptic user interface panels through the touch screen instrument panel to control the various components of the aircraft.
- Wichita KS, US Jason Michael Decker - Wichita KS, US Isaac Wayne Stanfield - Wichita KS, US
International Classification:
B60K 35/00
Abstract:
Systems, methods and computer-storage media are provided for displaying a real-time image in a cockpit of an aircraft. Use of a synthetic vision application is provided with a gradient-type feature such that a level of synthetic enhancements applied to an image may be adjusted to a synthetic vision application value that is less than 100 percent. The synthetic vision enhancement may be overlaid with the original image, according to the synthetic vision application value, to generate a modified image. Additional information may overlay the original image with the synthetic vision application such as a three-dimensional weather representation. The synthetic vision application may be used in conjunction with a high-definition camera to generate the original image. The modified image may be updated in real-time such that an updated view is continuously modified with an updated synthetic vision enhancement to provide accurate real-time views.
- Wichita KS, US John Robert Lanier - Wichita KS, US Jason Michael Decker - Wichita KS, US
International Classification:
G08G 5/00
Abstract:
The invention described herein provides a flight crew with an easier, more intuitive, system and method to create a flight plan. A flight planning system is presented for navigation of an aircraft utilizing a touch screen display device mounted in an aircraft cockpit spanning the width and height of the instrument panel. The system provides navigational views, an interactive map, charts, a radio frequency component, a weather component, and a virtual flight plan. A flight planning method is presented that uses an interactive map on a touch screen device in an aircraft cockpit. The method accepts user inputs and displays a desired flight plan on the map. A method for providing a chart on a touch screen device is presented that includes presenting a list of menu options on a touch screen mounted in an aircraft cockpit. The method provides the flight crew with heads-up operation, providing greater situational awareness.
Name / Title
Company / Classification
Phones & Addresses
Jason Decker Principal
Passage Inc Boatbuilding/Repairing
1720 75 St SW, Everett, WA 98203 4257435600
Jason P. Decker Shareholder, Secretary, Treasurer, Vice President
Jason Decker, a boyfriend of a relative, says that Bledsoe's husband, Ed, was at the store Thursday when his 5-year-old grandson, James Roberts, called to say he needed to come right home because the fire was close.