Erdogmus
Deniz Erdogmus, Beaverton, OR US
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20090136098 | CONTEXT SENSITIVE PACING FOR EFFECTIVE RAPID SERIAL VISUAL PRESENTATION - A system and method of efficiently and effectively triaging an image that may include one or more target entities are provided. The image is divided into a plurality of individual image chips that each have a determinable image complexity. The image complexity of each image chip is determined, and each image chip is successively displayed to a user for a presentation time period that, for each image chip, varies based on the determined image complexity of the image chip. | 05-28-2009 |
20100280403 | RAPID SERIAL PRESENTATION COMMUNICATION SYSTEMS AND METHODS - Embodiments of the disclosed technology provide reliable and fast communication of a human through a direct brain interface which detects the intent of the user. An embodiment of the disclosed technology comprises a system and method in which least one sequence of a plurality of stimuli is presented to an individual (using appropriate sensory modalities), and the time course of at least one measurable response to the sequence(s) is used to select at least one stimulus from the sequence(s). In an embodiment, the sequence(s) may be dynamically altered based on previously selected stimuli and/or on estimated probability distributions over the stimuli. In an embodiment, such dynamic alteration may be based on predictive models of appropriate sequence generation mechanisms, such as an adaptive or static sequence model. | 11-04-2010 |
Deniz Erdogmus, Winchester, MA US
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20100220904 | INTELLIGENT IMAGE SEGMENTATION SYSTEM AND METHOD FOR ACCURATE TARGET DETECTION - Methods and apparatus are provided for dividing an image into a plurality of image chips for presentation on a display. Potential objects of interest are detected within an image by detecting features therein that correspond to objects of interest. The image is uniformly divided into a plurality of preliminary image chips. Triage image chips are generated by automatically adjusting each preliminary image chip such that the potential objects of interest detected within each preliminary image chip are at least substantially centered in each preliminary image chip. | 09-02-2010 |
Deniz Erdogmus, Portland, OR US
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20100198101 | NON-INVASIVE LOCATION AND TRACKING OF TUMORS AND OTHER TISSUES FOR RADIATION THERAPY - Embodiments herein provide a non-invasive tracking system that accurately predicts the location of tumors, such as lung tumors, in real time, while allowing patients to breathe naturally. This is accomplished by using Electrical Impedance Tomography (EIT), in conjunction with spirometry, strain gauge and infrared sensors, and by using sophisticated patient-specific mathematical models that incorporate the dynamics of tumor motion. With the direction and speed of lung tumor movement successfully tracked, radiation may be effectively delivered to the lung tumor and not to the surrounding healthy tissue, thus increased radiation dosage may be directed to improving local tumor control without compromising functional parenchyma. | 08-05-2010 |
20140012061 | NON-INVASIVE LOCATION AND TRACKING OF TUMORS AND OTHER TISSUES FOR RADIATION THERAPY - Embodiments herein provide a non-invasive tracking system that accurately predicts the location of tumors, such as lung tumors, in real time, while allowing patients to breathe naturally. This is accomplished by using Electrical Impedance Tomography (EIT), in conjunction with spirometry, strain gauge and infrared sensors, and by using sophisticated patient-specific mathematical models that incorporate the dynamics of tumor motion. With the direction and speed of lung tumor movement successfully tracked, radiation may be effectively delivered to the lung tumor and not to the surrounding healthy tissue, thus increased radiation dosage may be directed to improving local tumor control without compromising functional parenchyma. | 01-09-2014 |
Deniz Erdogmus, Boston, MA US
Patent application number | Description | Published |
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20130138248 | THOUGHT ENABLED HANDS-FREE CONTROL OF MULTIPLE DEGREE-OF-FREEDOM SYSTEMS - Systems and methods are provided for controlling a multiple degree-of-freedom system. Plural stimuli are provided to a user, and steady state visual evoked response potential (SSVEP) signals are obtained from the user. The SSVEP signals are processed to generate a system command. Component commands are generated based on the system command, the plurality of components commands causing the multiple degree-of-freedom system to implement the system command. | 05-30-2013 |