Abstract: In an aspect of the invention there is provided a blast protection panel, comprising a package of fibre-reinforced resin sheets, each sheet having a dominant unidirectional fibre orientation, said package of fibre-reinforced resin sheets formed in packed stacks, each stack comprising at least four fibre-reinforced resin sheets with dominant unidirectional fibres oriented, within said each stack, alternatingly at about right angles relative to each other; and said each stack packed against adjacent stacks, said adjacent stacks comprising sheets with dominant unidirectional fibres oriented at acute angles relative said each stack thereby forming a delamination interface.

Abstract: A position dependent strain measurement system detected strain as a function of position in an optical sensing fiber using an interferometer having an input coupled to the first end of the optical sensing fiber. An electronic phase measuring sub-system is coupled to an output of the interferometer. The electronic phase measuring sub-system defines a usable optical intensity range of input light of the interferometer, wherein the electronic phase measuring sub-system is capable of measuring the phase of the input light. An optically pumped optical fiber amplifier is coupled between the first end of the optical sensing fiber and the input of the interferometer in series with an electrically pumped semi-conductor optical amplifier. The electrically pumped semi-conductor optical amplifier having a non-linear intensity amplification range that overlaps with the usable optical intensity range.

Abstract: A physical object processing system is described that includes a process station, a transport facility, an optical imaging system, an image sensor and data process facilities. The transport facility transports objects along the process station that performs processing steps to the object. The image sensor acquires a digital image from an optical image of the physical objects provided by the optical imaging system. The data process facilities in turn process the digital image to control the process station. The optical imaging system maps the optical image of the at least one physical object onto the image sensor at an at least substantially fixed position during a time-interval for acquiring the digital image.

Abstract: The invention relates to a method for electrochemical production of a product in an electrochemical cell comprising an extraction compartment. The extraction compartment comprises a liquid comprising a dissolved polyelectrolyte. The method comprises producing cations at an anode, producing anions at a cathode and transporting the ions through ion-selective membranes into the extraction compartment where the product is formed. The invention further relates to an electrochemical cell for use in the method.

Abstract: A plate including functional material to be deposited onto a target surface using monochromatic radiation having a wavelength is described. The plate further includes a substrate with a first surface directed towards the target surface and with a second surface to receive the monochromatic radiation. The first surface is patterned with recessed areas that have a dielectric coating and that are filled with the functional material. The dielectric coating includes a sequence of dielectric coating layers alternating in refractive index. The dielectric coating therewith has a relatively high reflectivity for said monochromatic radiation incident perpendicular to the dielectric coating in comparison to a reflectivity for said monochromatic radiation incident at an angle of 45 degrees to the dielectric coating. As such shear forces are mitigated without requiring a high alignment accuracy. The present application further describes a deposition device including the plate and a method involving the plate.

Abstract: An electronic device (100) comprises an electronics substrate (10) with at least one light emitting device (12), a cover substrate (20) with a graphical pattern including at least one window (22), and a thermoplastic layer (30) there between. A multilayer laminate (40) of the device (100) is formed by combining the electronics substrate (10) and the cover substrate (20) by lamination with protruding electronic components (11,12) facing the thermoplastic layer (30). At least the thermoplastic layer (30) is heated to a lamination temperature (T1) for increasing a plasticity of the thermoplastic material (30m). The electronic components (11,12) are pushed by the lamination into the heated thermoplastic layer (30) for embedding the electronic components (11,12) in the thermoplastic material (30m).

Abstract: The invention concerns an optimization method for a pressure swing adsorption process for separating CO2 from a feed gas by adapting the ratio of rinse steam to purge steam at a fixed amount of total steam.

Abstract: The present invention relates to a method of performing subsurface imaging of embedded structures in a substrate underneath a substrate surface, the method comprising the steps of applying, using a signal application actuator, an acoustic input signal to the substrate, detecting, using a vibration sensor, a return signal from the substrate and analyzing the return signal for obtaining information on the embedded structures, for enabling imaging thereof wherein the step of applying the acoustic input signal comprises applying a discontinuous signal of an acoustic signal component to the substrate, the acoustic signal component having a frequency above 1 gigahertz, such that the return signal includes a scattered fraction of the discontinuous signal scattered from the embedded structures. The invention further relates to a system.

Abstract: The present invention relates to a method for molten metal pyrolysis of hydrocarbons to produce hydrogen gas and carbon. Liquid salt is used to separate produced carbon from the molten metal and to facilitate isolation of produced carbon.

Abstract: The invention is directed to a method for decreasing the desorption enthalpy of a discharged high enthalpy sorption material that comprises a sorbed sorbate and that is at least partially discharged, wherein said method comprises a step 1) of reacting said discharged high enthalpy sorption material in a redox reaction to provide a discharged low enthalpy sorption material. In another aspect, the invention is directed to using this principle in methods for generating electrical energy from heat and vise versa. In addition, the invention is directed to a thermochemical energy storage device comprising a sorption material having at least two desorption enthalpy states, which preferably correlate to at least two oxidation states of which one oxidation state correlates to a higher desorption enthalpy than one or more of the other oxidation states.

Abstract: The invention is directed to a process for the preparation of maleic acid or a derivative thereof. Said process comprising an electrochemical oxidation of a furoic acid compound into maleic acid in an electrolyte solution; and optionally further comprising a step of reacting the maleic acid to the derivative thereof. In an alternative embodiment, said process comprising a first step comprising an electrochemical oxidation in an electrolyte solution of a furanic compound into one or more intermediates; followed by a second step comprising a chemo-catalytic oxidation of said intermediates to provide maleic acid or a derivative thereof.

Abstract: A streaming assistance system may be provided which may be connected to at least two network links, for example via respective network interfaces. Both network links may have different characteristics, e.g., in terms of throughput, utilization, latency, etc. The streaming assistance system may assist in the streaming of media content to a client device by identifying a media fragment which is likely to be requested by the client device in the (near) future, selecting a network link to be used for the streaming of the media segment, and effecting a prefetching of the media segment via the selected network link. In some embodiments, the streaming assistance system may be a DASH Aware Network Element (DANE).

Abstract: A client device (CLD) for a mobile network may comprise two radios (R-1, R-2) for establishing simultaneous mobile data connections to at least two mobile networks, for example at a country border at which the client device leaves the network range of one mobile network and enters the network range of another. The client device may further be configured to utilize an edge application service (EDG-APP) of a mobile network. To coordinate the switch in connectivity and edge utilization between such different mobile pp networks, a client function (CDCF) may be provided in the client device while separate instances of a network function (EDCF) may be provided in each edge enabling platform of each mobile network. Together, the CDCF and the EDCFs may orchestrate the migration of the edge application service between the mobile networks, in a manner which respects the requirements for separation of concerns, e.g., between a mobile network's operator and an application service provider (ASP).

Abstract: Some embodiments are directed to a session manager, a cloud service system, and a mobile device. The session manager may be configured for managing an edge computing resource in a mobile network, wherein the mobile network comprises edge nodes which are configurable to provide edge computing resources to mobile devices. The session manager may generate a session identifier for the mobile device and associate the session identifier with the mobile device. Later, the session manager may receive a request from the cloud service system for deployment of an edge computing resource for the mobile device on an edge node.

Abstract: A method and system for maintaining an optimized point ahead angle (?a) between an uplink beam (U0) from a first terminal (10) to a second terminal (20), and a downlink beam (D0) from the second terminal (20) to the first terminal (10). While transmitting data via a transmission channel (Tx) from the first terminal (10) to the second terminal (20), a directional variation (??) is applied to an initial point ahead angle (?0) for emitting the uplink beam (U1,U2) along different point ahead angles (?1,?2). A respective intensity (I1,I2) is determined of a part of the uplink beam (U1,U2), received by the second terminal (20), emitted by the first terminal (10) along a respective point ahead angle (?1, ?2). The initial point ahead angle (?0) is adjusted towards an optimized point ahead angle (?a) based on the respective intensity (I1,I2) as function of the different point ahead angles (?1,?2).

Abstract: An ultrasound sub-surface probe microscopy device (1) is provided comprising a stage (10), a signal generator (20), a scanning head (30), a signal processor (50) and a scanning mechanism (16). In use, the stage (10) carries a sample (11) and the scanning mechanism (16) provides for a relative displacement between the sample (11) and the scanning head (30), along the surface of the sample. The scanning head (30) comprises an actuator (31) configured to generate in response to a drive signal (Sdr) from the signal generator (20) an ultrasound acoustic input signal (Iac). The generated ultrasound acoustic input signal (Iac) has at least one acoustic input signal component (Iac1) with a first angular frequency (?1). The scanning head (30) further comprises a tip (32) to transmit the acoustic input signal (Iac) through a tip-sample interface (12) as an acoustic wave (Wac) into the sample.

Abstract: A heart monitoring system (100) comprises an array of force-sensitive resistors (10) spanning a sensor surface (50). Each resistor (10) is configured to change a respective resistance value (R) in accordance with an amount of static pressure (P) exerted on the sensor surface (50) at a respective location of the force-sensitive resistor (10) by a subject (200). An array of piezoelectric transducers (20) is interspersed among the array of force-sensitive resistors (10). Each transducer (20) is configured to generate 10 a respective time-dependent electrical signal (S) in accordance with respective vibrations (F) exerted on the sensor surface (50) at a respective location of the transducer (20) by the subject (200). A controller (30) is configured to determine a heart rate (H1) of the subject (200) based on a combination of the measured resistance values (R) of the force-sensitive 15 resistors (10) and the time-dependent electrical signals (S) of the piezoelectric transducers (20).

Abstract: Next generation network architectures enable instantiation of network slices in which traffic may be transported via one or more virtual networks overlaying the physical network infrastructure. To enable a slice management system to be able to obtain information on virtual networks of instantiated network slices, such as utilization data indicative of at least one of: a bandwidth capacity, computing capacity and storage capacity of one or more physical links via which traffic of the virtual networks is routed, an interfacing system is provided. The interfacing system may establish an interface between the slice management system operating in the domain of network slices and the network management system operating in the domain of physical network equipment, and thereby enable the slice management system to take into account such utilization data in its slice management operation.

Abstract: The present document relates to a probe chip for use in a scanning probe microscopy device for holding a probe mounted thereon. The probe chip includes a carrier element having a probe bearing side which is configured for bearing the probe to be extending therefrom as an integral or mounted part thereof. The carrier element further comprises a mounting side configured for mounting the probe chip onto a scan head of the scanning probe microscopy device, wherein the mounting side extends in a longitudinal and lateral direction of the carrier element to be substantially flat.

Abstract: An electromagnetic actuator including a soft-ferromagnetic yoke is described. The electromagnetic actuator includes an at least substantially cylindrical circumferential wall covered at a first end with a base and at a second end with a top, the circumferential wall defining an axis in a direction from the base end to the top. An intermediate yoke section holds a permanent magnet fixed that leaves an inner space housing an axially movable core element being flexibly restrained with at least one resilient element. One of a base yoke section and/or a top yoke section houses an electromagnetic coil.