Disclosed is a sensor assembly comprising: a first mounting device for mounting the sensor assembly to a first fixation part; a second mounting device for mounting the sensor assembly to a second fixation part, the second fixation part being displaceable relative to the first fixation part; and a sensor device arranged in a sensor cavity for provision of a sensor signal, the sensor device comprising a first attachment part attached to the first mounting device, a second attachment part attached to the second mounting device, and a sensing part, the sensing part being arranged between the first attachment part and the second attachment part.

Provided is a method for determining at least one characteristic of a boundary layer a wind turbine rotor blade, including capturing at least one movement of at least one flexible element of at least one sensor being attached to or being part of a surface of the rotor blade, determining the at least one characteristic of the boundary layer based on the at least one captured movement of the at least one flexible element. Further, a sensor device, a wind turbine and a device as well as a computer program product and a computer readable medium are suggested for performing the method.

A strain sensor includes a flexible substrate and a circuit disposed on the flexible substrate. The circuit includes an inductance to receive an excitation signal, the circuit being configured to generate a radio frequency response to the excitation signal via the inductance. The circuit includes an elongated trace coupled to the inductance and configured to bend and stretch longitudinally upon deformation of the flexible substrate. The elongated trace includes a non-uniformity configured such that the elongated trace deforms and tears at the non-uniformity and exhibits a non-linear increase in resistance as a tensile strain to which the elongated trace is subjected reaches a strain threshold. The non-linear increase in resistance modifies a characteristic of the radio frequency response of the circuit.

Systems and methods may be implemented separately from (and external to) a battery system to detect swollen battery system components within a chassis enclosure of the information handling system, without any physical contact with the battery cells or battery system, and without requiring premature opening of the information handling system chassis enclosure to inspect for battery system swelling. A system user may be automatically warned of detected battery system swelling and/or battery system charging may be automatically terminated upon detected battery system swelling so that information handling system failure and/or system service costs that would otherwise be expended to repair damage caused by swollen battery system components may be prevented.

Multi-functional electronic textiles employing nanocomposite pattern elements and related methods are provided. An exemplary method for producing a textile product with an integrated electrical device includes applying conductive nanowires to a substrate to form a conductive nanowire network on the substrate and applying a thermoplastic elastomer to the nanowire network to form a nanocomposite layer on top of the substrate. The method also includes cutting the nanocomposite layer into a desired pattern to form an electrical device and transferring the electrical device from the substrate onto a textile fabric.

The present disclosure provides an electrostatic self-powered strain grid sensor configured to measure strain of a component to be measured. The sensor includes a slide groove and a slide sheet. The slide groove is fixed to a fixing end and a sensor array is arranged at an inside bottom of the slide groove. The slide sheet is fixedly connected with the component to be measured and a lower end part of the slide sheet is in contact with the inside bottom of the slide groove. An electric signal is output when the slide sheet sweeps over the sensor array. Based on the output current of a sensor unit of the sensor array indicated by the signal, the number of segments swept over by the slide sheet and a distance swept over the sensor units in a single sensor array by the slide sheet is obtained, thereby acquiring a structural strain.

Embodiments of the present disclosure relate to a method, an electronic device and a computer program for determining bending of a flexible display. The flexible display comprises two parallel capacitive layers and an isolator layer between the two parallel capacitive layers, wherein each capacitive layer comprises multiple capacitive electrodes pairs. The method measures capacitance values of the capacitive electrodes pairs. And then the method determines the bending of the flexible display based on the result of measurement.

A sensor includes an elastic base material including a first surface and a second surface, a first sensor which detects a change in a capacitance caused by expansion/contraction of the first surface, and a second sensor which detects a change in a capacitance caused by expansion/contraction of the second surface. The first sensor faces the second sensor with the base material therebetween.

The present disclosure provides an electrostatic self-powered strain grid sensor configured to measure strain of a component to be measured. The electrostatic self-powered strain grid sensor includes a slide groove and a slide sheet. The slide groove is fixed to a fixing end and a sensor array is arranged at an inside bottom of the slide groove. The slide sheet is fixedly connected with the component to be measured and a lower end part of the slide sheet is in contact with the inside bottom of the slide groove. A corresponding electric signal is output when the slide sheet sweeps over the sensor array. Based on the number and magnitude of the output current of a sensor unit of the sensor array indicated by the signal, the number of segments swept over by the slide sheet and a distance swept over the sensor units in a single sensor array by the slide sheet is obtained, thereby acquiring a structural strain. Compared with other strain measurement devices, a segmented displacement gauge has many advantages such as a simpler structure, wider applications, a higher measurement accuracy and no additional power supply, and creatively solves a problem of unstable result of strain calibrated by an electric signal.

Disclosed are methods and systems for measuring and managing swelling of rechargeable batteries in situ. Some implementations involve using capacity fade or state of health of rechargeable batteries to estimate swelling of the rechargeable batteries. Some implementations provide methods and systems for measuring battery swelling based on inductive or capacitive coupling between sensors and the battery. Some implementations provide means to manage or reduce swelling of rechargeable batteries by applying adaptive charging with consideration of battery swelling.