Patent application number | Description | Published |
20100020074 | Method and apparatus for detecting objects from terrestrial based mobile mapping data - A method of detecting objects from terrestrial based mobile mapping data is disclosed, wherein the terrestrial based mobile mapping data has been captured by way of a terrestrial based mobile mapping vehicle driving on a road having a driving direction, the mobile mapping data including laser scanner data, source images obtained by at least one camera and position and orientation data of the vehicle, wherein the laser scanner data includes laser points, each laser point having associated position and orientation data, and each source image comprises associated position and orientation data. In at least one embodiment, the method includes: retrieving a position and orientation of the vehicle; filtering the laser scanner data in dependence of the position and orientation of the vehicle to obtain laser points corresponding to regions of interest; retrieving a source image associated with the position and orientation of the vehicle; mapping the laser points corresponding to regions of interest to image coordinates of the source image to generate a recognition mask; combining the recognition mask and the source image to obtain candidate 3D images representative of possible objects within the regions of interest; and, detecting a group of objects from the candidate 3D images. By combining image recognition and laser scanner recognition the detection rate can be increased to a very high percentage, thereby substantially reducing human effort. Furthermore, the generating of regions of interest in the laser data, enables a significant reduction of the processing power and/or the processing time needed to detect the objects in the images. | 01-28-2010 |
20100166256 | Method and apparatus for identification and position determination of planar objects in images - A method of identifying a planar object in source images is disclosed. In at least one embodiment, the method includes: retrieving a first source image obtained by a first terrestrial based camera; retrieving a second source image obtained by a second terrestrial based camera; retrieving position data associated with the first and second source image; retrieving orientation data associated with the first and second source image; performing a looking axis rotation transformation on the first and second source image by use of the associated position data and orientation data to obtain first and second intermediate images, wherein the first and second intermediate images have an identical looking axis; performing a radial logarithmic space transformation on the first and second intermediate images to obtain first and second radial logarithmic data images; detecting an area in the first image potentially being a planar object; comparing the potential planar object having similar dimensions in the second radial logarithmic data image and similar rgb characteristics; and finally, identifying the area as a planar object and determining its position. At least one embodiment of the method enables the engineer to detect very efficiently planar perpendicular objects in subsequent images. | 07-01-2010 |
20110026772 | METHOD OF USING LASER SCANNED POINT CLOUDS TO CREATE SELECTIVE COMPRESSION MASKS - A method of processing camera data of a mobile mapping system is disclosed. In at least one embodiment, the method includes a) obtaining camera data from at least one camera of the mobile mapping system, b) detecting at least one region in the camera data, c) applying a compression technique on the camera data in a first region, and d) obtaining range sensor data from at least a first range sensor. The range sensor data may at least partially correspond to the camera data. Also, in at least one embodiment, b) includes using the range sensor data to identify the at least one region in the camera data. | 02-03-2011 |
20110103651 | COMPUTER ARRANGEMENT AND METHOD FOR DISPLAYING NAVIGATION DATA IN 3D - A computer arrangement includes a processor and memory accessible for the processor. In at least one embodiment, the memory includes a computer program including data and instructions arranged to allow the processor to: a) obtain navigation information, b) obtain an image corresponding to the navigation information, c) display the image and at least part of the navigation information, whereby the at least part of the navigation information is superimposed upon the image. The processor is further allowed to b1) obtain depth information corresponding to the image and use the depth information to perform action c). | 05-05-2011 |
20110109618 | METHOD OF DISPLAYING NAVIGATION DATA IN 3D - A computer arrangement including a processor and memory accessible for the processor is disclosed. In at least one embodiment, the memory includes a computer program including data and instructions arranged to allow the processor to: a) obtain an image to be displayed, b) obtain depth information relating to the image, c) use depth information to identify at least one region in the image, and d) select display mode for at least one identified region. | 05-12-2011 |
20120157118 | METHOD OF CREATING AN AUDIENCE MAP - A method of creating an audience map comprising the steps of; receiving a focus point comprising location data defining a geographical location; receiving trace data defining at least one geographical location of a potential viewer; determining a field of view which represents a region within which a potential viewer could see the focus point; projecting the field of view from either; (i) the focus point and determining whether the or each geographical location of the trace data falls within the field of view of the focus point and recording occurrences thereof; or (ii) the or each of the geographical locations of the potential viewer and determining whether the geographical location of the focus point falls within the field of view of the or each of the geographical locations of the potential viewer and recording occurrences thereof; and generating an audience map based on the recorded occurrences. | 06-21-2012 |
Patent application number | Description | Published |
20080314385 | O2 - Controller - The invention relates to a device for the regulation of PEEP and FiO | 12-25-2008 |
20090007915 | APPARATUS FOR REGULATING A MECHANICAL VENTILATION - The invention relates to a device, with which one is to prevent a patient who breathes on Ms own and who desires a lower CO | 01-08-2009 |
20090024008 | METHOD AND A DEVICE FOR SIMPLIFYING A DIAGNOSTIC ASSESSMENT OF A MECHANICALLY VENTILATED PATIENT - The invention relates to a method for acquiring several changing values and representing the acquired values on a monitoring screen, as well as to a device with a screen in order, on this, to represent changing values acquired during ventilation of the patient. The device comprises means for acquiring at least three changing values of different origin, and means for representing the values, which permit the acquired values to be qualitatively represented on the screen together in a single graphic element. This graphic element has a pictorial representation of a lung shape. The invention is characterised in that the means for representing the values are designed such that a volume change of the ventilated lung which is detected within each breath, is represented in an animated manner by way of size change of the lung shape corresponding to this corresponding volume change. | 01-22-2009 |
20090301492 | METHOD AND DEVICE FOR DETERMINING THE PEEP DURING THE RESPIRATION OF A PATIENT - The invention relates to a device for the automated determination of the PEEP of a patient. Said device comprises sensors and a suitable electronic system for determining a pressure-volume characteristic curve during a P/V manoeuvre. The electronic system is designed in such a way as to generate, specifically in terms of breathing pressure, the difference between “lung volume during exhalation (Vdef)” and “lung volume during inhalation (Vinf)”, and to determine the maximum value of said difference. The breathing pressure is then determined, for which the volume difference has a value defined in relation to the maximum value of the volume difference. The device calculates a PEEP value on the basis of said determined breathing pressure value. | 12-10-2009 |
20110257549 | APPARATUS FOR ASSESSING THE STRESS ON THE CIRCULATION OF A PERSON DURING ASSISTED BREATHING BY MEANS OF A RESPIRATOR - The invention relates to an apparatus with sensing means suitable for sensing the inspiratory phase and the expiratory phase of each respiratory cycle of a respirated person from in each case at least one minimum and maximum amplitude of a circulation value within a single respiratory cycle, and with a computing device for calculating a variation of the amplitudes of the circulation value occurring within a said respiratory cycle. It is distinguished by the fact that the computing device is set up to assign each amplitude of the circulation value either to the inspiratory phase or to the expiratory phase and to determine the one extreme amplitude of the circulation value from the amplitudes assigned to the inspiratory phase and the other extreme amplitude of the circulation value from the amplitudes assigned to the expiratory phase, and to ascertain from the amplitude variation between the extreme amplitudes in the two phases of the respiratory cycle whether the haemodynamic stress caused by the assisted breathing is too high. | 10-20-2011 |