Abstract: This disclosure discloses a method comprising: positioning a stencil having an opening onto an aerospace part such that the aerospace part is accessible through the opening; positioning a masking medium onto the aerospace part through the opening; removing the stencil from the aerospace part such that the masking medium remains on the aerospace part and treating the aerospace part with the masking medium thereon.

Abstract: A method includes detecting a force applied to a sensing area of a sensor system, the sensing area including a first sensing region and a second sensing region. The first sensing region is determined to be a correct sensing region. The second sensing region is determined to be an incorrect sensing region. An activation area of the incorrect sensing region is determined. A force distribution of the incorrect sensing region is determined. A corrected corresponding force measurement of the incorrect sensing region is calculated based on the activation area and force distribution of the incorrect sensing region.

Abstract: A method includes determining that a portion of a force applied to a sensor system was applied to a non-inclusive region of the sensor system. An activation area of the non-inclusive region may be determined. A force distribution of the non-inclusive region may be determined. A corresponding force measurement of the non-inclusive region based on the activation area and the force distribution may be calculated.

Abstract: A portable sensing apparatus includes an attachment mechanism to secure the portable sensing apparatus to an object, a communications module and a flexible sensor communicatively coupled to the communications module. The flexible sensor is configured to mechanically deform in accordance with a shape of the object and includes a pair of diffusion layers disposed between a pair of contact layers that distribute the force received along outer surfaces of the flexible sensor across the diffusion layers. The flexible sensor includes a sensing layer disposed between the diffusion layers. The diffusion layers normalize the force received from the contact layers across the sensing layer. The sensing layer receives the force at a plurality of locations across a surface area of the sensing layer to determine a resultant pressure applied to the flexible sensor, and the communications module transmits an electrical signal indicative of the resultant pressure to an external device.

Abstract: A method for determining a resultant force is provided including performing a standard calibration by evenly applying a force across a plurality of sensing areas of a sensor system, performing a non-standard calibration by non-evenly applying a force across the plurality of sensing areas of the sensor system, developing a machine learning algorithm based on data collected during the standard calibration and the non-standard calibration, detecting a field use force applied to a sensing area of the sensor system, and using the machine learning algorithm to correct a force measurement of the field use force applied to the sensing area of the sensor system.

Abstract: A method for determining a resultant force is provided including includes performing a standard calibration by evenly applying a force across a plurality of sensing areas of a sensor system, performing a non-standard calibration by non-evenly applying a force across the plurality of sensing areas of the sensor system, developing a machine learning algorithm based on data collected during the standard calibration and the non-standard calibration, detecting a field use force applied to a sensing area of the sensor system, and using the machine learning algorithm to correct a force measurement of the field use force applied to the sensing area of the sensor system.

Abstract: A method includes detecting a force applied to a sensing area of a sensor system, the sensing area including a first sensing region and a second sensing region. The first sensing region is determined to be a correct sensing region. The second sensing region is determined to be an incorrect sensing region. An activation area of the incorrect sensing region is determined. A force distribution of the incorrect sensing region is determined. A corrected corresponding force measurement of the incorrect sensing region is calculated based on the activation area and force distribution of the incorrect sensing region.

Abstract: A method includes determining that a portion of a force applied to a sensor system was applied to a non-inclusive region of the sensor system. An activation area of the non-inclusive region may be determined. A force distribution of the non-inclusive region may be determined. A corresponding force measurement of the non-inclusive region based on the activation area and the force distribution may be calculated.

Abstract: A pressure sensing glove for measuring a force includes a sensor having a pair of contact layers and a pair of diffusion layers disposed between the pair of contact layers. The pair of contact layers distributes a force received along outer surfaces of the sensor across the pair of diffusion layers. The sensor further includes a sensing layer disposed between the pair of diffusion layers. The pair of diffusion layers normalizes the force received from the pair of contact layers across the sensing layer. The sensing layer receives the force at a plurality of locations across a surface area of the sensing layer to determine a resultant pressure applied to the sensor.

Abstract: A method includes determining that a portion of a force applied to a sensor system was applied to a non-inclusive region of the sensor system. An activation area of the non-inclusive region may be determined. A force distribution of the non-inclusive region may be determined. A corresponding force measurement of the non-inclusive region based on the activation area and the force distribution may be calculated.

Abstract: A method includes determining that a portion of a force applied to a sensor system was applied to a non-inclusive region of the sensor system. An activation area of the non-inclusive region may be determined. A force distribution of the non-inclusive region may be determined. A corresponding force measurement of the non-inclusive region based on the activation area and the force distribution may be calculated.

Abstract: A portable sensing apparatus includes an attachment mechanism to secure the portable sensing apparatus to an object, a communications module and a flexible sensor communicatively coupled to the communications module. The flexible sensor is configured to mechanically deform in accordance with a shape of the object and includes a pair of diffusion layers disposed between a pair of contact layers that distribute the force received along outer surfaces of the flexible sensor across the diffusion layers. The flexible sensor includes a sensing layer disposed between the diffusion layers. The diffusion layers normalize the force received from the contact layers across the sensing layer. The sensing layer receives the force at a plurality of locations across a surface area of the sensing layer to determine a resultant pressure applied to the flexible sensor, and the communications module transmits an electrical signal indicative of the resultant pressure to an external device.

Abstract: A pressure sensing glove for measuring a force includes a sensor having a pair of contact layers and a pair of diffusion layers disposed between the pair of contact layers. The pair of contact layers distributes a force received along outer surfaces of the sensor across the pair of diffusion layers. The sensor further includes a sensing layer disposed between the pair of diffusion layers. The pair of diffusion layers normalizes the force received from the pair of contact layers across the sensing layer. The sensing layer receives the force at a plurality of locations across a surface area of the sensing layer to determine a resultant pressure applied to the sensor.

Abstract: A method includes determining that a portion of a force applied to a sensor system was applied to a non-inclusive region of the sensor system. An activation area of the non-inclusive region may be determined. A force distribution of the non-inclusive region may be determined. A corresponding force measurement of the non-inclusive region based on the activation area and the force distribution may be calculated.