ADAPX, INC. Patent applications |
Patent application number | Title | Published |
20120066578 | ATTRIBUTE VALUE MANAGEMENT SYSTEM AND METHODS - In many environments such as municipal, military and construction the use of digital pen and paper systems permits end users to create or modify features on digital document, attributes associated with those features, or attribute values associated with those features. The attribute value management system includes a digital pen, at least one digital document, one or more computing devices, and a number of software programs for creating data relationships between the digital documents (e.g., features on maps and their underlying attribute values), interpreting voice or handwritten data, validating the interpreted data, and uploading the validated data to a geo-database. The attribute value management system functions to create, update or otherwise change the attribute values associated with the features by a temporal association method; a linked identification method; or a direct handwriting method. | 03-15-2012 |
20100251089 | DETERMINING AN OBJECT LOCATION RELATIVE TO A DIGITAL DOCUMENT - Systems and methods for determining an object location relative to a digital document are disclosed herein. A marking is applied to at least one cell in at least one row and to at least one cell in at least one column of a digital document. The markings define an axis system for the digital document. Each object has a stored digital address within the digital document. When the digital document is converted into a fixed file format, a location of the object can be determined that will match the location of the object on the printed page. By comparing the digital address of the object to the axis system defined by the markings, after the document has been converted to a fixed document format, the location of the object is defined spatially. | 09-30-2010 |
20100238195 | Systems and Methods for Reviewing Digital Pen Data - Systems and methods for error checking an entry converted from digital ink to text are disclosed herein. A method for reviewing digital pen data comprising importing handwritten ink made with a digital pen into an input region of a form. The handwritten ink is interpreted to produce a typographical symbol in the input region. The interpretation producing the typographical symbol is assigned a confidence factor, the confidence factor defining the likelihood that the conversion was correct. Input areas are highlighted if they have a confidence factor below a threshold value. Further, a view of the handwritten ink relative to the typographical symbol is changed by making one of the ink or the symbol more viewably prominent while simultaneously making the other less viewably prominent. | 09-23-2010 |
20100232116 | CARRIER FOR A DIGITAL PEN - A carrier for a digital pen includes a main case with an internal channel to closely receive and align the digital pen with an electronic package contained within the main case. In addition, the carrier includes an upper lid rotationally coupled to the main case. In one embodiment, the upper lid may be both partially and fully opened with a dual-action latch mechanism. In addition, the carrier may include a lower lid that may be opened to provide access to an electronic package. In one embodiment, an extendable serial communication device may be extended from the electronic package when the lower lid is open. Further, the carrier is configured to sufficiently protect the digital pen from harsh environmental conditions and even from harsh user-induced conditions, such as drops onto a hard surface, exposure of the carrier to rain, dust, and sand particulate, brief water submersion, and even temperature extremes. | 09-16-2010 |
20090298026 | SYSTEMS AND METHODS FOR NEUROPSYCHOLOGICAL TESTING - A system for administering a neuropsychological test using a digital pen and paper system includes various recognition modules for interpreting ink markings applied by the digital pen to a digital testing document. The recognition modules may interpret handwriting, symbols, sketches, etc. In addition, the system may include one or more error correction modules for detecting and correcting test-taker-driven errors or recognition-driven errors. The error correction module may operate in real time to communicate with the test taker, may be employed before a normalizing and scoring process or some combination of both. In one embodiment, normalized data or automatically determined test scores obtained after appropriate correction may be transmitted to a patient record or file to await a review and possible diagnosis by a mental health provider. | 12-03-2009 |
20090289927 | SYSTEMS AND METHODS FOR USING A DIGITAL PALETTE TO PRODUCE A DIGITAL DOCUMENT - A digital palette and a digital pen device are used to create or manipulate a digital document to provide complex information using features, such as graphical features selected from stencils, shapes, and connectors and possibly to apply one or more attributes to the digital document. The digital palette may have a custom layout. The features on the digital palette may be selected from a variety of sources, such as digital stencil libraries. The digital palette and digital document may be arranged on the same or different sheets of digital paper overlying one or more digital patterns. Information communicated from the digital palette to the digital document may be uploaded, processed, reviewed, changed and stored in a computer. Lastly, the digital document may be finalized and printed to incorporate all changes previously made using the digital palette, the digital pen device and the computer. | 11-26-2009 |
20090131077 | MULTIMODAL DATA COLLECTION DEVICE - A multimodal data collection device uses a digital pen as a primary input mechanism for data and for controlling the device. The digital pen may be connected to the multimodal data collection device through a wired connection, a wireless host connection, or a slave connection. The multimodal data collection device receives data from a number of input/output devices, captures the data, and then synchronizes selected written, voice and image data with time stamp information and geospatial location information to re-create one or more pre-existing events. In addition, the multimodal data collection device operates to arrange externally and internally received data by synchronizing the data with time and location information. | 05-21-2009 |
20080221893 | SYSTEM AND METHOD FOR DYNAMIC LEARNING - New language constantly emerges from complex, collaborative human-human interactions like meetings—such as when a presenter handwrites a new term on a whiteboard while saying it redundantly. The system and method described includes devices for receiving various types of human communication activities (e.g., speech, writing and gestures) presented in a multimodally redundant manner, includes processors and recognizers for segmenting or parsing, and then recognizing selected sub-word units such as phonemes and syllables, and then includes alignment, refinement, and integration modules to find or at least an approximate match to the one or more terms that were presented in the multimodally redundant manner. Once the system has performed a successful integration, one or more terms may be newly enrolled into a database of the system, which permits the system to continuously learn and provide an association for proper names, abbreviations, acronyms, symbols, and other forms of communicated language. | 09-11-2008 |