| Patent Number |
Title Of Patent |
Date Issued |
| 7596787 |
Method and system for accessing drawing resources |
September 29, 2009 |
| This disclosure relates to drawing within a computer environment using a drawing resource. The computer environment includes a managed code portion and a native code portion. The computer environment compares a draw parameter call value being passed from the managed code portion to t |
| 7546607 |
Native code exposing virtual machine managed object |
June 9, 2009 |
| Notifications are generated in managed and native environments and propagated to an interfacing abstraction layer of native code there between. The abstraction layer assesses each received notification to determine whether the notification, or a previously received collection thereof |
| 7281248 |
Virtualized and realized user interface controls |
October 9, 2007 |
| One aspect relates to a process and associated apparatus that implements a user interface (UI) control within a computer environment. The computer environment includes a managed code portion and a native code portion. The implementing the UI control includes creating a plurality of contr |
| 7240346 |
Method and system for accessing drawing resources |
July 3, 2007 |
| This disclosure relates to drawing within a computer environment using a drawing resource. The computer environment includes a managed code portion and a native code portion. The computer environment compares a draw parameter call value being passed from the managed code portion to t |
| 6820144 |
Data format for a streaming information appliance |
November 16, 2004 |
| A data block format for streaming information includes a first data block size field and a second data block size field, each of the fields indicating the size of the data block. A payload field is bounded by the first data block sized field and the second data size in the data block |
| 6704813 |
System for storing streaming information in a circular buffer by using padding block containing |
March 9, 2004 |
| A data block format for streaming information includes a first data block size field and a second data block size field, each of the fields indicating the size of the data block. A payload field is bounded by the first data block sized field and the second data size in the data block |
| 6535920 |
Analyzing, indexing and seeking of streaming information |
March 18, 2003 |
| A streaming information handling system receives streaming information and analyzes the streaming information to locate one or more sync points in the streaming information. The streaming information and sync point location information, indicative of a location of the sync points, is |
| 6463486 |
System for handling streaming information using a plurality of reader modules by enumerating out |
October 8, 2002 |
| An information appliance receives streaming information. The information appliance includes a storage buffer and a writer module which receives the streaming information and writes the streaming information to the buffer. A plurality of reader modules are configurable to read the streami |
| 6378035 |
Streaming information appliance with buffer read and write synchronization |
April 23, 2002 |
| An information appliance receives streaming information and includes a buffer, a writer module, a reader module and a synchronizer. The buffer has a plurality of storage locations, a logical head, a logical tail and a valid data area between the logical head and the logical tail. The log |
| 6298171 |
System for reading data glyphs |
October 2, 2001 |
| A high speed system for locating and decoding glyphs on documents is disclosed. The system includes acquiring one or more images of a document containing a glyph. One-dimensional projections of the images are correlated against a reference function to locate the glyph in the images. |
| 6078698 |
System for reading data glyphs |
June 20, 2000 |
| A high speed system for locating and decoding glyphs on documents is disclosed. The system includes acquiring one or more images of a document containing a glyph. One-dimensional projections of the images are correlated against a reference function to locate the glyph in the images. |
