Abstract: An automotive radar transceiver system (400), including a radar transceiver (450) arranged to transmit radar signals in time-frequency resources dynamically allocated (310, 330) by a remote scheduler function (320). The system further having an environment perception system (430) arranged to obtain environment data indicative of a surrounding traffic environment of the radar transceiver (450), and a radar resource requirement prediction module (440) configured to estimate a future time-frequency resource requirement for radar operation, based on the environment data. Wherein the radar transceiver (450) is arranged to request time-frequency resources for radar operation from the remote scheduler function (320) based on the estimated future time-frequency resource requirement.

Abstract: The present invention relates to a composition comprising a GLP-1/GLP-2 dual agonist for use in a method for the treatment and/or prevention of diarrhea, loose stools, urgency, incontinence, high fecal output and/or high stomal output in a patient having undergone surgical resection of the bowel.

Abstract: Coated substrate comprising a surface coated with a coating comprising at least one coating layer of (TM1?xAlx)OyNz with (0.75?y)?z?(1.2?y) and 0.6>y>0, exhibiting a solid solution with B1 cubic structure, wherein x is the content of aluminum in atomic fraction if only aluminum and TM are being considered for the determination of the element composition in atomic percentage, and y is the content of oxygen in atomic fraction if only 0 and N are being considered for the determination of the element composition in atomic percentage, wherein TM is one or more transition metals and 0.05<x<0.95, wherein y correspond to a value of oxygen concentration in the TM1?xAlxOyNz coating layer that produces an increment of the thermal stability in such a manner that no precipitation of w-AlN phase is produced when the coated substrate or at least the coated surface of the coated substrate is exposed to temperatures higher than 1100° C.

Abstract: A method for estimating a position of a vehicle (100) relative to one or more radio transceivers (150). The method including the steps of; obtaining propagation delay data associated with radio transmission between a vehicle transceiver (110) included in the vehicle (100) and the one or more radio transceivers (150); obtaining vehicle motion data related to a trajectory of the vehicle (100); identifying one or more multipath components, MPC, in the propagation delay data, the MPC relates to a radio transmission propagation path between a fixed radio transceiver (150) and the vehicle transceiver (110); determining an MPC track for each identified MPC based on the vehicle motion data and on the propagation delay data, MPC track representing evolution of an MPC over time; and estimating the position of the vehicle (100) relative to the one or more radio transceivers (150) based on the MPC tracks.

Abstract: A radar system for coordinated automotive radar transmission, comprising a cellular access network node configured to establish a primary time synchronized frame structure (310) for cellular radio transmissions over a first local area in a first frequency band (F1), wherein the primary time synchronized frame structure (310) is at least partly defined by one or more transmitted synchronization signals (320), and one or more automotive radar transceivers arranged to determine a radar time reference (T0) from the one or more synchronization signals (320), and to establish a secondary time synchronized frame structure (330) for radar transmissions over at least part of the first local area in a second frequency band (F2), wherein the secondary time synchronized frame structure (330) is at least partly defined by the radar time reference (T0).

Abstract: The invention provides conjugated binding molecules comprising platelet-derived growth factor receptor beta (PDGF-R?) binding polypeptides conjugated to radionuclides chelated by a Restrained Complexing Agent (RESCA) chelator, wherein Aluminum-Fluorine-18 is the preferred radionuclide. The PDGF-R? binding polypeptide comprises a platelet derived growth factor receptor beta binding motif, PBM, which motif consists of an amino acid sequence as defined herein, wherein the PDGF-R?-binding polypeptide binds to PDGF-R? such that the KD value of the interaction is at most 1×10?6 M. Also provided are methods and uses of said conjugated binding molecule in imaging and diagnosis of PDGF-R?-related conditions, such as fibrosis.

Abstract: This invention relates to a coating comprising at least one AlTiN-based film deposited by means of a PVD process, wherein the at least one AlTiN-based film deposited is comprising an Al-content—in relation to the Ti-content—in atomic percentage higher than 75%, and wherein the AlTiN-based film exhibits solely a crystallographic cubic phase and internal compressive stresses and this invention relates to a method involving deposition of an AlTiN-based film.

Abstract: The present disclosure relates to a class of engineered polypeptides having a binding affinity for CD69 and provides a CD69-binding polypeptide comprising the sequence EX2X3X4AX6X7EIX10 X11LPNLX16X17X18QK X21AFKX25X26LKD. The present disclosure also relates to the use of such a CD69-binding polypeptide as a therapeutic, prognostic and/or diagnostic agent.

Abstract: The present invention relates to a coating for forming tools to be used in a forming operation of a workpiece material, wherein the coating is deposited on a substrate surface and the coating comprises a lower layer (10) and an upper layer (20), wherein the lower layer (10) is deposited closer to the substrate surface than the upper layer (20), wherein the lower layer (10) mainly comprises chromium nitride, and the upper layer (20) is deposited as multilayer formed by a plurality of A-layers (22) and B-layers (21) deposited alternate one on each other forming a sequence of . . . /A/B/A/B/A/B/ . . . -layers (22,21), wherein the A-layers (22) mainly comprise aluminum titanium nitride, and the B-layers (21) mainly comprise chromium nitride.

Abstract: This invention relates to a coating comprising at least one AlTiN-based film deposited by means of a PVD process, wherein the at least one AlTiN-based film deposited is comprising an Al-content—in relation to the Ti-content—in atomic percentage higher than 75%, and wherein the AlTiN-based film exhibits solely a crystallographic cubic phase and internal compressive stresses and this invention relates to a method involving deposition of an AlTiN-based film.

Abstract: There is disclosed a combinatory separation system comprising: a first compartment adapted to handle a mixture with magnetic beads having an affinity for molecules, comprising a magnet to attract the beads, a second compartment adapted to receive said magnetic beads transferred thereto with a flow of liquid, and said at least one second compartment is adapted to elute said at least one type of molecules to be separated from said magnetic beads, said at least one second compartment has an outlet comprising means for retaining said magnetic beads in the at least one second compartment. Advantages include that the process becomes simpler quicker and thereby less expensive, since the method is able to remove cells and particles, separate molecules and perform virus inactivation in fewer steps compared to the prior art. Further the method is able to provide a more concentrated end product.

Abstract: There is provided a composition comprising: (i) a compound of Formula I: (I), or a pharmaceutically acceptable salt thereof, and (ii) a nuclide M, or a pharmaceutically acceptable salt of the compound of Formula I and/or the nuclide M, wherein C is a chelator selected from the group consisting of 1,4,7,10-tetraazacyclododecane-1,4,7,10-tetraacetic acid (DOTA), 1,4,7-triazacyclononane-1,4,7-triacetic acid (NOTA), 1,4,8,11-tetraazacycl otetradecane-1,4,8,11-tetraacetic acid (TETA), diethylenetriaminepentaacetic acid (DTPA), desferrioxamine B (DFO), 1,4,7-Triazacyclononane-1-glutaric acid-4,7-acetic acid (NOTAGA), 2-[4,7,10-Tris(carboxymethyl)-1,4,7,10-tetraza-1-cyclododecyl]glutaric acid (DOTAGA and a derivative of any one of the foregoing chelators, L (Formula L) is a linker: (L), wherein m is an integer within the range of from 1 to 20, and X is NH or C(O) and forms an amide bond, i.e.

Abstract: A method for processing pulp in an apparatus for washing and dewatering pulp, and a system for controlling this apparatus, the apparatus comprising two rotatable press rolls (102, 104) having a permeable outer surface (106, 108), and a vat (114, 116, 118), the press rolls (102, 104) defining a press nip (112) between them. The processing is determined by a set of variable operating parameters, which are adjusted and/or maintained during operation in response to deviations of measured values of control parameters in relation to their respective predetermined threshold values. The variable operating parameters include rotation speed of the press rolls. The control parameters include vat pressure and/or linear load.

Abstract: The present invention is an automated separation system comprised of a liquid handling device and one or more pipette tip columns, wherein the liquid handling device is equipped with two or more nozzles arranged to respectively receive a pipette tip column comprising separation media. Further, the system includes means for applying either high positive or negative pressure to the column inside chamber above the column bed, enabling aspiration and dispensing into and out of each pipette tip column. To enable sealing to the pressures used to move liquid through the column bed without inadvertently ejecting the column from the nozzle during the separation process, each nozzle has been provided with at least one annular protrusion arranged to engage with the inside of a substantially evenly tapered pipette tip column, without any corresponding recess. Each nozzle may be provided with slide ejector to enable the removal of a pipette tip column.

Abstract: The invention relates to a composition comprising a GLP-1/GLP-2 dual agonist for use in the treatment of a patient receiving parenteral nutrition.

Abstract: The present invention relates to an agonist combination comprising a GLP-1 agonist and a GLP-2 agonist, for use in the treatment of a patient who has undergone surgical resection of the bowel.

Abstract: A method in a vehicle for verifying an estimated position of the vehicle, the method comprising establishing a wireless link to a radio base station, RBS, 150, obtaining data from a downlink transmission on the wireless link (145) from the RBS (150) to the vehicle (100) for estimating the vehicle position, estimating the vehicle position based on the data, transmitting a request for position verification to the RBS (150), receiving a response from the RBS (150) to the transmitted request comprising a verification position estimate based at least partly on data obtained from an uplink transmission on the wireless link (145) to the RBS (150) from the vehicle (100), and verifying the estimated position of the vehicle (100) by comparing the estimated vehicle position to the verification position estimate.

Abstract: The present invention relates to evaporation apparatus (100) comprising manifolds provided with at least one nozzle (102), a tank unit (103) for a liquid, and a sample holder configured to be inserted into the tank unit. The sample holder is configured to hold at least one sample in a defined position relative the at least one nozzle a control unit (104) an inlet port (105) configured to be connected to a gas supply, a pressure regulator (106) arranged downstream the inlet port (105). A set value of the pressure regulator (106) is controlled by the control unit (104), a control valve (107) arranged downstream the pressure regulator (106), wherein each of the at least one manifold (101a-d) is connected to a corresponding output port of the control valve. The control valve is controlled by the control unit (104), and the control unit is configured to set the set value of the pressure regulator to a value that causes a predetermined gas flow from each of the at least one nozzle.

Abstract: A method for operating a radar system (210) in a vehicle (201), the method including establishing a wireless communication link (245) to a radio base station (250) in a wireless communication network (260), requesting a time-frequency resource (420, 430) for communicating with a network node (270) via the radio base station (250), receiving a transmission grant from the radio base station (250) for communicating with the network node (270) using the time-frequency resource (420, 430), transmitting a communications signal (245) in the time-frequency resource, and transmitting a radar signal (235) in the time-frequency resource.

Abstract: A radio transceiver for communicating with one or more transceiver equipped targets, the transceiver including; a transmitter for transmitting radio signals in a transmit frequency band, wherein the transmitter is arranged to transmit a data signal in case a transceiver equipped target is present and to transmit a dummy signal in case a transceiver equipped target is not present, a receiver for receiving radio signals in a receive frequency band, and a detector for detecting backscattered radio signals in the transmit frequency band, wherein the detector is arranged to estimate a distance to at least one target object based on the backscattered radio signals.