Abstract: The invention relates to a method for automatically and dynamically assigning the responsibility for tasks to the available computing components in a highly distributed data-processing system. The invention relates to a method by means of which the assignment of the responsibility for certain tasks (partitions) is adapted in a highly distributed data-processing system.
Type:
Grant
Filed:
June 22, 2017
Date of Patent:
August 10, 2021
Assignee:
ATOS CONVERGENCE CREATORS GMBH
Inventors:
Michael Glässel, Jens-Peter Haack, Felix Schmid, Gernot Sänger
Abstract: The invention relates to a position-adaptive communication method which is carried out by a communication control module of a movable vehicle (1) in order to establish and maintain a communication connection (4) between the vehicle (1) and an opposite station (3). The communication method is a packet-based communication method, and a transmission pause (13) is provided between data packets and/or within the data packets. Position data of the vehicle (1) relative to a global coordinate system is ascertained, and a movement data set is received trout at least one opposite station by means of a receiving device. Position data is extracted from the received movement data, and the position of the opposite station in the global coordinate system is determined. A directional vector (8) front the vehicle (1) to the opposite station (6) is ascertained, and a signal propagation time is ascertained from the length of the directional vector (8).
Abstract: The invention relates to a direction-based interface selection method, carried out by a communication control module (8) in a vehicle (1), for establishing and retaining a wireless high-frequency communication connection between a communication interface of a moving vehicle (1) and a communication interface of at least one counterpart station. In this case, position data and an orientation of the vehicle with respect to a global coordinate system are determined. A position data record is determined by at least one counterpart station and the position data (12) contained therein are extracted. A direction vector (13) from the vehicle (1) to the counterpart station is then determined and an assignment to a sectoral radiation characteristic of a transmission apparatus is determined for said vector. This transmission apparatus is then connected to a communication device (7) via a communication position switch (6).
Abstract: Some embodiments relate to a method for repelling a detectable drone, whose flight control and/or whose drone flight path can be influenced by repulsion measures, wherein a repulsion space is defined as a part of the airspace, and wherein the flight control and/or the drone flight path of a drone located in the repulsion space is influenced.
Abstract: A method for locating a terrestrial transmitting source of an unknown signal that is transmitted via satellite to a terrestrial receiver, wherein the method includes comparing a power fluctuation of the unknown signal with a power fluctuation of at least one known signal allocated to a terrestrial transmitting source and determining a degree of similarity between the power fluctuation of the unknown signal and the power fluctuation of the at least one known signal.
Abstract: The invention relates to a direction-based interface selection method, carried out by a communication control module (8) in a vehicle (1), for establishing and retaining a wireless high-frequency communication connection between a communication interface of a moving vehicle (1) and a communication interface of at least one counterpart station. In this case, position data and an orientation of the vehicle with respect to a global coordinate system are determined. A position data record is determined by at least one counterpart station and the position data (12) contained therein are extracted. A direction vector (13) from the vehicle (1) to the counterpart station is then determined and an assignment to a sectoral radiation characteristic of a transmission apparatus is determined for said vector. This transmission apparatus is then connected to a communication device (7) via a communication position switch (6).