Seshadrinathan
Kalpana Seshadrinathan, Sunnyvale, CA US
Patent application number | Description | Published |
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20140002693 | METHOD AND SYSTEM FOR PERFECT SHOT IMAGING FROM MULTIPLE IMAGES | 01-02-2014 |
Kalpana Seshadrinathan, San Jose, CA US
Patent application number | Description | Published |
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20140002745 | CONTROL OF VIDEO PROCESSING ALGORITHMS BASED ON MEASURED PERCEPTUAL QUALITY CHARACTERISTICS | 01-02-2014 |
20140233847 | NETWORKED CAPTURE AND 3D DISPLAY OF LOCALIZED, SEGMENTED IMAGES - Systems, devices and methods are described including receiving a source image having a foreground portion and a background portion, where the background portion includes image content of a three-dimensional (3D) environment. A camera pose of the source image may be determined by comparing features of the source image to image features of target images of the 3D environment and using the camera pose to segment the foreground portion from the background portion may generate a segmented source image. The resulting segmented source image and the associated camera pose may be stored in a networked database. The camera pose and segmented source image may be used to provide a simulation of the foreground portion in a virtual 3D environment. | 08-21-2014 |
20140240549 | INTELLIGENT COMPUTATIONAL IMAGING SYSTEM - In some embodiments, an electronic device, comprises an image capture device and logic to receive a first set of input frames from an image capture device, analyze the first set of input frames to determine whether multi-image processing is to be implemented, and in response to a determination that multi-image processing is to be implemented, determine a number of image frames required to capture a dynamic range of a scene, capture at least the number of image frames, align the number of images and merge the number of images into a merged image. Other embodiments may be described. | 08-28-2014 |
Manikantan Seshadrinathan, Portage, MI US
Patent application number | Description | Published |
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20140059781 | INFLATABLE MATTRESS AND CONTROL METHODS - A patient support, such as a mattress, includes a plurality of inflatable bladders. Depth sensors are included in the support that measure the degree of penetration of a patient into the mattress. An air pressure sensor is also included that measures the pressure inside at least one bladder. A suitable inflation level of the mattress is determined by monitoring the rate of change of the depth with respect to air pressure as the bladder is either inflated or deflated. By detecting an inflection point in the graphical relationship of the depth and pressure outputs, a suitable inflation point for the bladders is determined that reduced interface pressures experienced by the patient, yet does not overly sink the patient into the mattress to a degree or discomfort. Analyzing the outputs of the depth and pressure sensors can also be used to detect a patient's heart rate and respiration rate. | 03-06-2014 |