Abstract: A process for producing a thermoplastic composite pipe, where the process includes: a) providing a tubular liner having a wall containing a thermoplastic polymer A in the region of the outer surface; b) providing a tape containing reinforcing fibres in a matrix containing a thermoplastic polymer B, where polymer A and polymer B are different; c) applying a film or a composite which is produced in d) and is composed of a film and a tape provided in step b) to the tubular liner, with melting of the outer surface of the liner and of the contact surface of the film either beforehand, simultaneously or thereafter, d) applying the tape provided in b) to the outer surface of the film, with melting of the outer surface of the film applied and of the contact surface of the tape either beforehand, simultaneously or thereafter, where the surface of the film which is brought into contact with the liner contains a moulding compound containing polymer A to an extent of at least 30% by weight, and the opposite surface o

Abstract: The embodiments of the present disclosure provide a method for producing Ac-225 from Ra-226, comprising submitting Ra-226 to a photo-nuclear process, collecting an electrochemical precipitation of an Ac-225 on a cathode in a recipient, removing the cathode from the recipient after the electrochemical precipitation of the Ac-225, transferring the cathode to a hot cell environment, and extracting the Ac-225 from the cathode in the hot cell environment. The Ra-226 may comprise a liquid solution in the recipient, and submitting Ra-226 to the photo-nuclear process may comprise irradiating the Ra-226 to produce Ra-225. The Ra-225 may decay into Ac-225 upon irradiation of the Ra-226.

Abstract: The embodiments of the present disclosure provide a method for producing Ac-225 from Ra-226, comprising submitting Ra-226 to a photo-nuclear process, collecting an electrochemical precipitation of an Ac-225 on a cathode in a recipient, removing the cathode from the recipient after the electrochemical precipitation of the Ac-225, transferring the cathode to a hot cell environment, and extracting the Ac-225 from the cathode in the hot cell environment. The Ra-226 may comprise a liquid solution in the recipient, and submitting Ra-226 to the photo-nuclear process may comprise irradiating the Ra-226 to produce Ra-225. The Ra-225 may decay into Ac-225 upon irradiation of the Ra-226.

Abstract: A method for hotspot detection includes: computing, by a device, a ratio of a local user density within a first distance zone of a user density map towards a hotspot center point candidate to a local user density within a second distance zone of the user density map towards the same hotspot center point candidate; if the computed ratio exceeds a threshold, assigning, by the device, particular candidate points of the user density map within a certain distance to the hotspot center point candidate to a hotspot, the hotspot representing a concentrated conglomeration of users of the mobile communication network; and detecting, by the device, a center point of the hotspot based on the particular candidate points assigned to the hotspot.

Abstract: A method for hotspot detection includes: computing, by a device, a ratio of a local user density within a first distance zone of a user density map towards a hotspot center point candidate to a local user density within a second distance zone of the user density map towards the same hotspot center point candidate; if the computed ratio exceeds a threshold, assigning, by the device, particular candidate points of the user density map within a certain distance to the hotspot center point candidate to a hotspot, the hotspot representing a concentrated conglomeration of users of the mobile communication network; and detecting, by the device, a center point of the hotspot based on the particular candidate points assigned to the hotspot.

Abstract: An interface device for exchanging data between a first bus system and a second bus system, wherein an input/output device is connectable to the second bus system and within the input/output device includes an addressable slot and an addressable subslot for output or acceptance of input/output data to optimize the consistent exchange of the data between the bus systems. A data transfer device including a transfer memory is connected via the control device and a list storage device in which a data structure for addressing the data for the input/output device is stored, and wherein the data structure is predetermined for a plurality of subslots in a telegram format of the telegrams of the first bus system.

Abstract: The present invention relates to an universal method for the large scale production of high-purity carrier free or non carrier added radioisotopes by applying a number of “unit operations” which are derived from physics and material science and hitherto not used for isotope production. A required number of said unit operations is combined, selected and optimized individually for each radioisotope production scheme. The use of said unit operations allows a batch wise operation or a fully automated continuous production scheme. The radioisotopes produced by the inventive method are especially suitable for producing radioisotope-labelled bioconjugates as well as particles, in particular nanoparticles and microparticles.

Abstract: An interface device for exchanging data between a first bus system and a second bus system, wherein an input/output device is connectable to the second bus system and within the input/output device includes an addressable slot and an addressable subslot for output or acceptance of input/output data to optimize the consistent exchange of the data between the bus systems. A data transfer device including a transfer memory is connected via the control device and a list storage device in which a data structure for addressing the data for the input/output device is stored, and wherein the data structure is predetermined for a plurality of subslots in a telegram format of the telegrams of the first bus system.

Abstract: The invention relates to a method for analyzing the interference and supply situation in universal mobile telecommunication system (UMTS) sub-networks. Said method enables supply assertions for each service in the considered sub-network to be determined using measured data that is recorded either during or without the traffic load of the network.

Abstract: The present invention relates to an universal method for the large scale production of high-purity carrier free or non carrier added radioisotopes by applying a number of “unit operations” which are derived from physics and material science and hitherto not used for isotope production. A required number of said unit operations is combined, selected and optimised individually for each radioisotope production scheme. The use of said unit operations allows a batch wise operation or a fully automated continuous production scheme. The radioisotopes produced by the inventive method are especially suitable for producing radioisotope-labelled bioconjugates as well as particles, in particular nanoparticles and microparticles.

Abstract: A process for the preparation of phenothiazine granules having a narrow particle size distribution, phenothiazine having a purity of at least 98% in liquid form being forced through a means provided with holes and a frequency being applied to the liquid phenothiazine and the liquid phenothiazine emerging through the holes entering a cooling medium having a temperature in the range of from ?196 to =120° C. so that the liquid phenothiazine drops thus produced are brought to a temperature below the melting point and said drops are, if required, further solidified in a downstream cooling zone.

Abstract: The invention relates to a method for producing a phenothiazine granulate with a narrow particle size distribution. At least 98% pure phenothiazine in liquid form is pressed through a device provided with boreholes and a frequency is applied to said liquid phenothiazine. The liquid phenothiazine discharged through the boreholes enters a cooling medium having a temperature of between ?196 and +120° C. The drops of liquid phenothiazine thus produced are brought to a temperature below melting point and are optionally solidified in another post-cooling area. Optionally, fine-grain particles or coarse-grained particles thus formed can be subsequently removed by appropriate methods. The bulk density of the obtained phenothiazine granulates ranges more particularly from 720–780 kg/m3.

Abstract: A communications interface and a data transmission method for the serial transmission of digital data are described, in which at least three signal lines (Tx0, Tx1, Tx2) are provided, which can each have a “high” or a “low” level impressed on them, and a data bit which is to be transmitted can be coded by changing the level of two of the at least three signal lines, and hence as a result of the transition from a first level triplet and to a second level triplet.