Andrew John Odlivak

20050073578, Apr 7, 2005

May 14, 2004

10/846253

Andrew Odlivak - Oakdale NY, US
Philip Pearson - Sea Cliff NY, US
Marc Shapiro - Dix Hills NY, US
Deepak Agarwal - Hicksville NY, US
Aaron Divinsky - Sayville NY, US
Peter Cotton - Mt. Pleasant SC, US

H04N007/18

348065000

A system and method for enabling the automatic setting of a mask for displaying live endoscopic images on a monitor device. An imaging node processor selects a pre-determined mask setting based on an automatically detected solid state imager (CCD) type when connected to the video processor, and a selected magnifying ratio. Based on this information, a mask pattern is automatically generated in a main memory. A merge function enables the mask to be displayed with cutout portions where information including, live or frozen image, thumbnail image associated with a static image capture, and patient demographic information is displayed. The user may select the frame coordinate locations corresponding to the corners of the live viewable area, captured image display and other system and demographic information to be displayed. Further, while the system is configured to include pre-defined masks, users are additionally able to create additional masks or modify the system-defined masks. The user can associate a mask to one or more scopes or video chip (imager) types.

20050075535, Apr 7, 2005

May 14, 2004

10/846254

Marc Shapiro - Dix Hills NY, US
Andrew Odlivak - Oakdale NY, US
Philip Pearson - Sea Cliff NY, US
Deepak Agarwal - Hicksville NY, US
Michael Cohen - Flushing NY, US
Aaron Divinsky - Sayville NY, US
Peter Cotton - Mt. Pleasant SC, US

A61B001/00

600101000

A method and system for capturing patient related data in an endoscopic system comprising an imaging node adapted to capture and display endoscopic images during the course of an endoscopic examination. The patient data capture system and method includes a display device that provides an interface to enable a user to enter data relating to a patient examined during the examination, including patient vital sign information at various phases of care relating to the endoscopic examination and, further including individual graphic controls for enabling entry of values relating to the patient's vitals information. The entered patients vitals information is associated with a timestamp. The patient vitals information and associated timestamps are stored in a database record associated with the patient. Further data capable of being entered into the system includes medications administered, Aldrete scores and intraprocedural assessments.

20050075544, Apr 7, 2005

May 14, 2004

10/846245

Marc Shapiro - Dix Hills NY, US
Andrew Odlivak - Oakdale NY, US
Philip Pearson - Sea Cliff NY, US
Deepak Agarwal - Hicksville NY, US
Michael Cohen - Flushing NY, US
Aaron Divinsky - Sayville NY, US
Joan Lee - Holbrook NY, US
Sai Pollachi - Holtsville NY, US
Mary Rogers - Henderson NC, US
Ken Seidman - Marietta GA, US
Peter Cotton - Mt. Pleasant SC, US

G06F017/60
A61B001/04
A61B001/00
A61B005/00

600300000, 705003000

A system designed to support and manage the workflow for all user roles pertaining to an endoscopic laboratory, from registration and scheduling of patient information through pre-procedure, procedure and post-procedure phases of an endoscopic examination, including support for the entry, by various users associated with an endoscopic laboratory, of information and data including the processing and storage of endoscopic images captured during an endoscopic exam of a patient, for association with a patient record stored in a database, and including the entry of procedure notes and generation of reports that include the stored images, all via an integrated user interface.

20050114283, May 26, 2005

May 14, 2004

10/846255

Philip Pearson - Sea Cliff NY, US
Andrew Odlivak - Oakdale NY, US
Marc Shapiro - Dix Hills NY, US
Deepak Agarwal - Hicksville NY, US
Aaron Divinsky - Sayville NY, US
Peter Cotton - Mt. Pleasant SC, US

G06F017/20
G06F007/00
G06F017/30
G06N005/02
G06F017/00

706050000, 704001000

A method and system for assisting a user in generating a report regarding a procedure such as a medical procedure. A first display region provides a hierarchical menu of available keywords from a knowledge base. A second display region provides a hierarchical menu of particular keywords that have been selected by the user. A third display region provides a report from a sentence that was generated by populating a sentence model based on the selected keywords. The sentence can be edited by selecting a keyword from the sentence, then selecting a replacement keyword from the first display region. A grammar engine corrects the grammar of the sentence based on user settings for the keywords.

20080184072, Jul 31, 2008

Jan 31, 2007

11/669776

Andrew J. Odlivak - Oakdale NY, US
Ravindra Kumar - Holbrook NY, US
Warren R. Stearns - Sioux Falls SD, US
John Glen Rockford - Wading River NY, US

G06F 11/07

714 32

A system in which firmware residing in ROM may be upgraded without re-spinning silicon. A one-bit flag may be assigned for each patchable function representing a firmware upgrade. The first statement of each function may check its associated flag and determine if patch-code should be executed in place of the current function residing in ROM. If the flag is not set, the code may continue executing normally. If the flag is set, a function identifier may be placed into a global memory location, and an assembly language “jump” instruction may be executed, redirecting program control to a specified location in a volatile Scratch Read Only Memory (SROM) where the corresponding patched code may be stored. If more than one function is patched, the global identifier may be used to determine which patched function to execute. Using an assembly language “jump” instruction to redirect control results in the patched function's returning normally to its calling function once it has completed executing.