Abstract: A printed gas sensor, comprising a metalloporphyrin dye, has first and second modes, and a nanoporous carrier material comprising a plurality of particles measuring less than 5 ?m; the particles have a plurality of pores, the pore size in the range 5-50 nm, wherein the metalloporphyrin dye is bound to the nanoporous carrier material. The disclosure further comprises a method of preparing a gas sensing composition for detection of food status and a digital expiry date device system, which comprises a packaging material with inner and outer surfaces; a first transponder disposed on the inner surface and a second transponder disposed on the outer surface. A sensor portion is electrically connected to the first transponder for detecting food status and communicating the status to the second transponder. The sensor portion comprises a metalloporphyrin dye which configures an impedance change upon binding with an gaseous analyte, and a printed numerical array.

Abstract: Provided are methods for handling reports on lost connections in a terminal device which is capable of being in communication connection with a plurality of network access nodes, wherein the terminal device generates, after having lost connection to a first network access node, a report on the loss of connection. The terminal device stores the report when the terminal device is reconnected to a third network access node comprising one of a different access technology, a different network, and a different network operator than the first network access node to which the terminal device was connected before the loss of connection. The terminal device also sends, upon or after reconnecting with one of the first and a second network access node, sending the report to one of the first and second network access nodes.

Abstract: The present invention relates to a process for purification of iodinated X-ray contrast agents and in particular to purification of crude dimeric contrast agents, such as Iodixanol and Ioforminol. More particularly, the invention relates to purification of such X-ray contrast agents using membrane technology to remove monomeric impurities.

Abstract: A method, gesture interpretation unit and touch sensing device receiving touch input data indicating touch inputs on a touch surface of the touch sensing device, wherein the touch input data comprises positioning data and pressure data for each touch input, and determining from the touch input data: first, second and third touch input from a first, a second and a third object on the touch surface, and wherein the first, second and third objects are present on the touch surface during overlapping time periods; and while continuous contact of the first, second and third objects with the touch surface is maintained: calculating a geometric center of mass, and a pressure center of mass, for the first, second and third touch inputs; comparing the GCM with the determining a movement vector based on the result of the comparison; and moving the graphical interactive object in relation to the movement vector.

Abstract: The present invention relates to a process for the preparation of iodinated X-ray contrast agents and in particular to key intermediates thereof. More particularly, the invention relates to a work-up process for preparation of a compound mixture comprising 1-formylamino-3,5-bis(2,3-bis(formyloxy)propan-1-ylcarbamoyl)-2,4,6-trioodobenzene, a key intermediate in the process for preparing Ioforminol. Further, the invention relates to a process for preparing Ioforminol, a contrast agent useful in X-ray imaging.

Abstract: A method in a first network node for handling traffic tracing of a user equipment. The first network node is comprised in a first Radio Access Technology, RAT, system. The first network node starts a handover procedure to handover the user equipment from the first RAT system to a second RAT system. The user equipment has an active traffic tracing ongoing in the first RAT system. The traffic tracing relates to tracing associated with communication between the user equipment and the first RAT system. The first network node sends a message to a second network node in the second RAT system. The message is sent directly to the second network node or via one or more intermediate network nodes. The message comprises one or more parameters relating to the ongoing traffic tracing of the user equipment. The parameters define when the traffic tracing is to continue in the second RAT system.

Abstract: The present invention relates to a process for the preparation of Ioforminol, a contrast agent useful in X-ray imaging. More particularly, the invention relates to preparation of Ioforminol from a compound mixture comprising 1-formylamino-3,5-bis(2,3-bis(formyloxy)propan-1-ylcarbamoyl)-2,4,6-trioodobenzene by a process comprising in situ hydrolysis and a bis-alkylation.

Abstract: A printed gas sensor, comprising a metalloporphyrin dye, has first and second modes, and a nanoporous carrier material comprising a plurality of particles measuring less than 5 ?m; the particles have a plurality of pores, the pore size in the range 5-50 nm, wherein the metalloporphyrin dye is bound to the nanoporous carrier material. The disclosure further comprises a method of preparing a gas sensing composition for detection of food status and a digital expiry date device system, which comprises a packaging material with inner and outer surfaces; a first transponder disposed on the inner surface and a second transponder disposed on the outer surface. A sensor portion is electrically connected to the first transponder for detecting food status and communicating the status to the second transponder. The sensor portion comprises a metalloporphyrin dye which configures an impedance change upon binding with an gaseous analyte, and a printed numerical array.

Abstract: A method in a first network node for handling traffic tracing of a user equipment. The first network node is comprised in a first Radio Access Technology, RAT, system. The first network node starts a handover procedure to handover the user equipment from the first RAT system to a second RAT system. The user equipment has an active traffic tracing ongoing in the first RAT system. The traffic tracing relates to tracing associated with communication between the user equipment and the first RAT system. The first network node sends a message to a second network node in the second RAT system. The message is sent directly to the second network node or via one or more intermediate network nodes. The message comprises one or more parameters relating to the ongoing traffic tracing of the user equipment. The parameters define when the traffic tracing is to continue in the second RAT system.

Abstract: The present invention relates to a process for purification of iodinated X-ray contrast agents and in particular to purification of crude dimeric contrast agents, such as Iodixanol and Ioforminol. More particularly, the invention relates to purification of such X-ray contrast agents using membrane technology to remove monomeric impurities.

Abstract: The present disclosure relates to a support assembly (10) for a self-containing cryogenic tank (12). The support assembly (10) comprises a first thermally insulating layer (14) and an impermeable layer (16) located at least partially above the first thermally insulating layer (14). The impermeable layer (16) is adapted to form a drip tray (18) for the cryogenic tank (12). According to the present disclosure, the support assembly further comprises a second thermally insulating layer (20) located at least partially above the impermeable layer (16), the second thermally insulating layer (20) is adapted to support the cryogenic tank (12).

Abstract: The present invention is a method and system adapted to facilitate, between a mobile station (MS) and network, an indication of support for reduced time transmission interval (RTTI). The MS can provide a base station system (BSS) with an indication of its multislot capability within an access burst sent at the start of a contention based access. In another aspect, the MS can indicate support for a new Immediate Assignment message as the conventional Immediate Assignment message can only assign single timeslots. The present invention enables the Radio Access Network (RAN) to assign RTTI and more than one timeslot for GPRS/EDGE temporary block flows (TBFs) during an Access Grant Channel (AGCH) assignment. The method of the present invention can be implemented in a computer program product or distributed software adapted to be loaded into at least one or a plurality of memory locations and executed by at least one or a plurality of respective computer processors.

Abstract: Provided are methods for handling reports on lost connections in a terminal device which is capable of being in communication connection with a plurality of network access nodes, wherein the terminal device generates, after having lost connection to a first network access node, a report on the loss of connection. The terminal device stores the report when the terminal device is reconnected to a third network access node comprising one of a different access technology, a different network, and a different network operator than the first network access node to which the terminal device was connected before the loss of connection. The terminal device also sends, upon or after reconnecting with one of the first and a second network access node, sending the report to one of the first and second network access nodes.

Abstract: A method is performed in a network node of a mobile communication network, for determining a dropped connection to a mobile terminal. The method comprises detecting a release of a radio bearer associated with the mobile terminal; determining whether the radio bearer is a real-time type radio bearer; when the radio bearer is a real-time type radio bearer, determining the released radio bearer to be a dropped connection when the release is classified as an involuntary release; and when the radio bearer differs from a real-time type radio bearer, determining the released radio bearer to be a dropped connection when there is remaining user data in a buffer for transfer in either direction over the released radio bearer. A corresponding network node, computer program and computer program product are also presented.

Abstract: The present invention is a method and system adapted to facilitate, between a mobile station (MS) and network, an indication of support for reduced time transmission interval (RTTI). The MS can provide a base station system (BSS) with an indication of its multislot capability within an access burst sent at the start of a contention based access. In another aspect, the MS can indicate support for a new Immediate Assignment message as the conventional Immediate Assignment message can only assign single timeslots. The present invention enables the Radio Access Network (RAN) to assign RTTI and more than one timeslot for GPRS/EDGE temporary block flows (TBFs) during an Access Grant Channel (AGCH) assignment. The method of the present invention can be implemented in a computer program product or distributed software adapted to be loaded into at least one or a plurality of memory locations and executed by at least one or a plurality of respective computer processors.

Abstract: A method is performed in a network node of a mobile communication network, for determining a dropped connection to a mobile terminal. The method comprises: detecting a release of a radio bearer associated with the mobile terminal; determining whether the radio bearer is a real-time type radio bearer; when the radio bearer is a real-time type radio bearer, determining the released radio bearer to be a dropped connection when the release is classified as an involuntary release; and when the radio bearer differs from a real-time type radio bearer, determining the released radio bearer to be a dropped connection when there is remaining user data in a buffer for transfer in either direction over the released radio bearer. A corresponding network node, computer program and computer program product are also presented.

Abstract: Provided are methods for handling reports on lost connections in a terminal device which is capable of being in communication connection with a plurality of network access nodes, wherein the terminal device generates, after having lost connection to a (first) network access node, a report on the loss of connection and, upon or after reconnecting of the terminal device with the same or a different network access node, sends the report on the loss of connection to the network access node. The network access node receiving a report on loss of connection from a terminal device, forwards said report to a central server and/or to a network access node to which the terminal device was connected before. Further provided are a terminal device comprising a receiver and a transmitter and being adapted to connect to an access node of a network, particularly of a wireless, e.g.

Abstract: The present invention provides a labelled compound suitable for use as an in vivo imaging agent. The in vivo imaging agent of the invention is useful in the in vivo diagnosis and imaging of fibrosis and in particular fibrosis in the liver. Also provided by the present invention is a method for the preparation of the labelled compound of the invention and a precursor compound useful in said method and a kit useful for carrying out said method. In addition, the present invention provides a pharmaceutical composition comprising the labelled compound of the invention as well as a method of in vivo imaging using the labelled compound of the invention, preferably as the pharmaceutical composition of the invention.

Abstract: The present invention relates to a process for the preparation of Ioforminol, a contrast agent useful in X-ray imaging. More particularly, the invention relates to preparation of Ioforminol from a compound mixture comprising 1-formylamino-3,5-bis(2,3-bis(formyloxy)propan-1-ylcarbamoyl)-2,4,6-trioodobenzene by a process comprising in situ hydrolysis and a bis-alkylation.