Abstract: A system and method for simulating injury treatment on a living body are provided. The system includes an embedded system configured to be placed on a living body and to simulate an injury of the living body in response to instructions received from a simulation system. Sensors detect a parameter corresponding to a treatment of said injury and transmit said parameter to said simulation system which transmit the instructions to the embedded system to cause it to simulate the injury. The simulation system is further configured to receive sensor data representing the parameter detected by the sensors and the treatment of the injury, and to execute a simulation scenario, which associates the detected parameter with a corresponding effect on the injury. Furthermore, the simulation system is configured to send instructions to the embedded system, which cause the embedded system to simulate the injury such that the simulation reflects the treatment.
Type:
Grant
Filed:
November 8, 2022
Date of Patent:
February 6, 2024
Assignee:
ESG Elektroniksystem- und Logistik
GmbH
Inventors:
Sören Björn Gutekunst, Peter Schneider, Frank Klemmer
Abstract: A kit for a modular radar system is provided. The kit includes a basic unit with a housing, a top cover and a bottom cover. A first circuit board with a first plug connector is fastened to an underside of the basic unit. The basic unit is subdivided into a first and second cell by partition walls. The first cell includes a radar module and the second cell includes a second circuit board. The top cover has a radome in the area of the first cell. The bottom cover includes a power supply module and a data interface module. The upper side of the bottom cover includes at least one plug connector for connecting to a plug connector on the underside of the first circuit board and to connect the power supply module and the data interface to the processing unit and/or the radar module.
Abstract: A method for determining the orientation of a video camera attached to a vehicle relative to the vehicle coordinate system is disclosed. Using a video camera an incremental motion is measured based on the optical flow of the video stream. A linear motion component and a rotational motion component are determined. Based on a determined rotational angle the incremental motion is classified as linear or as rotational. The directional vector of the linear motion is used to estimate the longitudinal axis of the vehicle, and the rotational vector of the rotational motion is used for estimating the normal to the vehicle plane. Based thereon the orientation of the camera follows.
Type:
Grant
Filed:
January 17, 2013
Date of Patent:
February 16, 2016
Assignee:
ESG Elektroniksystem-Und Logistik-GMBH
Inventors:
Christopher Pflug, Juri Platonov, Thomas Gebauer, Pawel Kaczmarczyk
Abstract: The invention relates to a device and a method for testing systems or devices with visual output and at least one mechanical input element. The device comprises an input unit for the automated mechanical actuation of the at least one input element of the device, an image analysis unit, which acquires and analyzes the visual output of the device, and a control unit, which controls the input unit and image analysis unit, and automatically determines a test result based on predetermined desired outputs and the findings of the image analysis unit.
Type:
Grant
Filed:
August 6, 2009
Date of Patent:
September 10, 2013
Assignees:
Europcopter Deutschland GmbH, ESG Elektroniksystem Und Logistik GmbH
Inventors:
Hartmut Braun, Bernd Gumpel, Jürgen Müller
Abstract: The invention relates to a device and a method for testing systems or devices with visual output and at least one mechanical input element. The device comprises an input unit for the automated mechanical actuation of the at least one input element of the device, an image analysis unit, which acquires and analyzes the visual output of the device, and a control unit, which controls the input unit and image analysis unit, and automatically determines a test result based on predetermined desired outputs and the findings of the image analysis unit.
Type:
Application
Filed:
August 6, 2009
Publication date:
March 18, 2010
Applicants:
EUROCOPTER DEUTSCHLAND GMBH, ESG ELEKTRONIKSYSTEM-UND LOGISTIK GMBH