Abstract: Mobile management method, system and client. Method includes receiving a DNS query for a host name from an application on client; retrieving reputation data associated with host name from a local cache on client; and determining a policy based on host name and the reputation data. Based on determined policy for the host name, blocking attempted network flows to a host corresponding to host name to produce blocked attempted network flows. Method also includes sending attempted network flow metadata related to the blocked attempted network flows to a collector on client; transmitting the attempted network flow metadata from the collector to a VPN server pool via a VPN tunnel; and producing an anomaly report from the transmitted attempted network flow metadata. The anomaly report includes at least one of anomalies, cohorts, trends, location boundaries, detected network security issues, detected compromised clients and/or optimized network usage.

Abstract: Mobile management method, system and client. The method includes receiving a DNS query for a host name from an application on a client; retrieving reputation data associated with the host name from a local cache on the client; determining a policy for the host name, which is associated with the host name and the reputation data associated with the host name; based on the determined policy for the host name, blocking attempted network flows to a host corresponding to the host name; sending at least attempted network flow metadata related to the blocked attempted network flows to a collector on the client; and transmitting the attempted network flow metadata in the collector to a VPN server pool via a VPN tunnel.

Abstract: The invention relates to a computer-implemented method for the measurement of an object, wherein the method comprises the following steps: ascertainment of measurement data using a radiographic measurement of the object, wherein the measurement data generates a digital representation of the object with a large number of items of image information of the object; and carrying out the following steps at least before ending the ascertainment of measurement data: analysis of at least one portion of the digital representation of the object; optimization of at least one recording parameter of the radiographic measurement using the analysed portion of the digital representation of the object; and adaptation of the step of ascertainment of measurement data taking the at least one recording parameter into consideration. The invention thus provides a computer-implemented method that has an increased efficiency.

Abstract: Described is a method for compressing measurement data of a volume which comprises an object, wherein a digital representation of the object comprising a plurality of image information items of the object is generated by the measurement. The method comprises: providing an analysis specification for at least one predetermined region in the measurement volume; determining the measurement data in the measurement volume; defining a subset of the measurement data which corresponds to the at least one predetermined region of the analysis specification; selecting at least one compression rate for the subset on the basis of the analysis specification; selecting a first compression method for a remainder of the measurement data outside the subset, the first compression method having a compression rate; compressing the subset with the selected at least one compression rate, and compressing the remainder of the measurement data by way of the first compression method.

Abstract: A signal post-processing method is described, wherein a time-and-value-discrete signal is read from a memory by a signal post-processing circuit wherein a resolution bandwidth and a frequency range of the time-and-value-discrete signal are predetermined. A window filter is applied to the time-and-value-discrete signal. The window filtered time-and-value-discrete signal is transformed to a full-bandwidth frequency-domain signal. A sub-band is selected from the full-bandwidth frequency-domain signal by a selection unit wherein the rest is discarded by the selection unit. Further, a signal post-processing circuit as well as an oscilloscope are described.

Abstract: Described is measuring an object by: determining measurement data using a device for measuring the object, wherein the measurement data generates a digital representation of the object with image data; and before the determining measurement data has ended: analyzing part of the digital representation to identify defects; if a defect is identified: determining at least one conformity result relating to the analyzed part, the conformity result indicating to what extent the analyzed part with the determined defect fulfils at least one predefined conformity criterion for the object; and if no defect is identified and sufficient measurement data have been acquired to determine that the analyzed part fulfils the at least one conformity criterion: generating a conformity result relating to the analyzed part, the conformity result indicating that the at least one predefined conformity criterion is fulfilled for the object; adapting the step of determining, taking the conformity result into account.

Abstract: Described is a computer-implemented method for measuring an object comprising the following steps: determining measurement data by means of a device for measuring the object, wherein the measurement data generates a digital representation of the object with a plurality of image data of the object; and carrying out the following steps at least before the step of determining measurement data has ended: analyzing at least one dimensional measurement variable of at least one part of the digital representation of the object, determining at least one conformity result relating to the analyzed part of the digital representation of the object, wherein the conformity result indicates to what extent the analyzed at least one dimensional measurement variable fulfils at least one predefined conformity criterion for the object, and adapting the step of determining measurement data taking the at least one conformity result into account.

Abstract: Described is a computer-implemented method for monitoring the status of a device for investigating objects, wherein the investigation of an object involves determining measurement data by measuring the object and operating data of the device is determined during the investigation of the object. The method includes: determining measurement data of the object by means of the device; determining operating data of the device during the determining measurement data of the object; determining at least one quality parameter from the measurement data; analysing the operating data and the at least one quality parameter; and determining a status characteristic value based on the analysing in order to monitor the status of the device, wherein the status characteristic value indicates a status of the device. The computer-implemented method comparatively easily monitors the functionality of devices for investigating objects during adaptive measurements.

Abstract: The present invention is directed to a non-vulcanized rubber composition which is comprised of (1) 90 phr to 100 phr cis 1,4-polyisoprene; (2) 10 phr to 40 phr of pre-silanized precipitated silica; (3) 10 phr to 40 phr of carbon black, (4) 0.1 phr to 5 phr of a cobalt salt, and (5) 1 phr to 15 phr of a resinous reaction product of a methylene donor composition and a methylene acceptor composition. Moreover, the present invention is directed to a tire or tire component comprising the cured rubber composition.

Abstract: Mobile management method and system. The method includes receiving from an application on a client a DNS query for a host name; retrieving reputation data associated with the host name from a local cache on the client; determining whether a policy associated with the host name and the reputation data associated with the host name exists; and one of: sending network flows one of: through a VPN tunnel to a server or out a local proxy on the client to a private or public network; or blocking the network flow based on the determined policy for the host name.

Abstract: The invention relates to a method for determining errors in at least one parameter of the object derived from a digital representation of an object, wherein the digital representation comprises a large number of pixels arranged on a grid. At least one item of image information that quantifies a material-specific value of the object at the position of the pixel is assigned to a pixel. The image information results from a metrological mapping of the object, and is overlaid with statistical noise. As a result of the metrological mapping of the object, the image information of a first pixel is correlated to the image information of pixels within a surroundings of the first pixel defined by a correlation length of the image.

Abstract: The present invention relates to a measurement apparatus and method. In particular, the present invention performs a data acquisition of data segments upon a predetermined condition is met. In order to analyze the acquired measurement data, it is further suggested to store information specifying the condition which has been met when acquiring the acquired data segment. Accordingly, a user can easily identify the condition which has caused the data acquisition of a data segment when analyzing the acquired measurement data.

Abstract: Described is a computer-implemented method for determining uncertainties in measurement data from a measurement of an object, wherein a digital representation of the object is generated by the measurement. The object representation has items of image information, which each indicate a value of a measurement variable for the object at a defined position of the object. Statistical noise is superimposed on the image information. The method includes determining the object representation, determining a distance field from the image information relating to the object representation, determining a strength of the statistical noise in the image information, determining an uncertainty of the distance values of the distance field on the basis of the strength of the statistical noise, and determining an uncertainty of the position of at least one point on at least one material boundary surface from the uncertainty of the distance values of the distance field.

Abstract: Described is determining defects of an object produced using an additive manufacturing process, including: determining spatially resolved first data relating to n objects, the first data defines a process coordinate system for each of the n objects, determining measurement data relating to the n objects by imaging the n objects, the measurement data defines, for each of the n objects, an object representation in a measurement coordinate system, determining which coordinates of at least one section of the measurement coordinate system are defect coordinates assigned to a defect in the object representation; correlating the at least one section with a corresponding section the process coordinate system in order to collect training data, training an adaptive algorithm for determining defect coordinates in spatially resolved data, by means of the training data, determining spatially resolved second data and analysing the second data for defects by means of the adaptive algorithm.

Abstract: Described is a computer-implemented method for analysing measurement data of an object, said measurement data defining an object representation in a measurement coordinate system, wherein the method comprises the following steps: determining the measurement data of the object; providing an object coordinate system for at least one part of the object; providing an evaluation specification for the analysis, wherein the evaluation specification determines at least one set of coordinates from the provided object coordinate system for performing the analysis; determining a non-solid mapping between the provided object coordinate system and the object representation; and determining, by means of said non-solid mapping, at least one partial region of the measurement data for the analysis to be performed.

Abstract: Described is a computer-implemented method for determining material interfaces of an object from at least one measurement of the object, a rasterized representation of the object being produced by means of the measurement, the rasterized representation having a plurality of measurement points, a measurement point having at least one piece of image information, which indicates a value of a measurement variable for the object at the position of the measurement point. The method comprises the determining of a parameterization of the rasterized representation of the object, the parameterization assigning at least one parameter to each of the measurement points of a subset of the measurement points of the representation, and the applying of at least one parameter-dependent edge-detection operator to the measurement points of the rasterized representation, an edge-detection operator being designed to determine the location of at least one material interface in the rasterized representation.

Abstract: The invention relates to a computer-implemented method for determining surfaces in measurement data from a measurement of a volume which contains an object, a digital representation of the object being produced by means of the measurement data, the object representation having a plurality of pieces of image information of the object, the method comprising the following steps: providing an evaluation specification for at least one predefined three-dimensional region of the volume, said region containing the object; ascertaining the measurement data; defining a subregion of the measurement data that corresponds to the at least one predefined three-dimensional region; and determining at least one surface of the object representation in the subregion. The invention makes the determination of the surfaces of the object representation fast and accurate. Therefore, a computer-implemented method that improves the provision of surface data from the measurement data is provided.

Abstract: Described is a computer-implemented method for ascertaining a value of a geometric parameter of at least one part to be measured of an object from at least one two-dimensional image of a measurement volume, wherein the measurement volume includes the object and the part of the object that is to be measured has a position in the measurement volume, wherein the at least one two-dimensional image is assigned to a recording geometry, wherein the recording geometry describes a geometric relationship between a detector for ascertaining two-dimensional images and the object, wherein the method comprises: ascertaining at least one two-dimensional image of the measurement volume; and identifying the at least one part to be measured of the object in the at least one two-dimensional image, and ascertaining a value of the geometric parameter of the at least one part to be measured that has been identified.

Abstract: The invention relates to a computer-implemented method for determining at least one geometric parameter required for an evaluation of measurement data, wherein the measurement data are determined by means of a radiographic measurement of a component having a component geometry, wherein a digital component representation is generated by the measurement data, wherein the method comprises the following steps: determining the measurement data by means of a radiographic measurement of a component; identifying regions one of in the digital component representation or in the component geometry as reference regions; determining at least one geometric parameter required for an evaluation of the determined measurement data, by means of the reference regions. Less computing power than in the prior art is required with the method. Furthermore, the method is able to be employed without great complexity.

Abstract: Described is a method for compressing measurement data of a volume which comprises an object, wherein a digital representation of the object comprising a plurality of image information items of the object is generated by the measurement. The method comprises: providing an analysis specification for at least one predetermined region in the measurement volume; determining the measurement data in the measurement volume; defining a subset of the measurement data which corresponds to the at least one predetermined region of the analysis specification; selecting at least one compression rate for the subset on the basis of the analysis specification; selecting a first compression method for a remainder of the measurement data outside the subset, the first compression method having a compression rate; compressing the subset with the selected at least one compression rate, and compressing the remainder of the measurement data by way of the first compression method.