Abstract: The invention introduces a method and system designed to augment sports fans' experience and simultaneously generate revenue for athletes. It involves a computerized platform for storing and accessing videos, which contain athletes sharing insights about their competitive season in sports like games, matches, or meets. The access to these videos is facilitated through either a URL for online viewing or a QR code embedded in a digital or printed format. A unique feature of this system is the video view availability monitoring display/selection grid. This grid showcases images of fans' favorite athletes on one axis and the corresponding games, matches, or meets on another, allowing users to easily select and view their preferred content. Athletes have the ability to upload multiple videos for the same event, with each video distinctly labeled with time, date, and explanatory notes.

Abstract: A pedal for bicycles comprising: a pedal-pin which extends along a reference axis, a pedal-body that comprises a hub coupled in a freely rotatable manner on the pedal-pin, an electronic measurement circuit firmly coupled to the pedal-pin to provide electrical measurement signals indicative of the deformation of the pedal-pin, a mechanical clamping member comprising: a first clamping element which is arranged on the pedal-pin to rotate around the reference axis and is positioned in abutment against a shoulder of the pedal-pin in order to be axially clamped along said axis), and a second clamping element that firmly couples the hub to the first clamping element so that the hub is axially clamped to the pedal-pin.

Abstract: A component monitoring system structured to monitor circuit breaker assembly component characteristics is provided. The component monitoring system includes a record assembly, a number of impulse sensor assemblies, a comparison assembly, and an output assembly. The record assembly includes selected nominal data for a selected circuit breaker component. The impulse sensor assemblies are structured to measure a number of actual component characteristics for a substantial portion of the circuit breaker assembly and to transmit actual component characteristic output data. The comparison assembly is structured to receive an electronic signal from the record assembly and the impulse sensor assemblies, to compare each impulse sensor assembly actual component characteristic output data to the selected nominal data and to provide an indication signal as to whether the impulse sensor assembly output data is acceptable when compared to the selected nominal data.

Abstract: Methods and apparatuses are provided for automatically controlling and stabilizing aspects of a scanning probe microscope (SPM), such as an atomic force microscope (AFM), using Peak Force Tapping (PFT) Mode. In an embodiment, a controller automatically controls periodic motion of a probe relative to a sample in response to a substantially instantaneous force determined, and automatically controls a gain in a feedback loop. A gain control circuit automatically tunes a gain based on separation distances between a probe and a sample to facilitate stability. Accordingly, instability onset is quickly and accurately determined during scanning, thereby eliminating the need of expert user tuning of gains during operation.

Abstract: The present invention generally relates to techniques for traffic monitoring. The techniques utilize a relatively low cost sensing system, referred to here as “smart tape.” Smart tape is adhered directly to the roadway and provides the ability to temporarily monitor traffic. It can be applied in an appropriate length for the roadway condition. Smart tape is responsive to the pressure of a vehicle's tires passing over it. Furthermore, smart tape does not require an attached monitoring device, unlike certain known traffic monitoring techniques.

Abstract: An impact sensing and tracking system helps detect concussion risks using a computerized evaluation combined with traditional methods. The system includes impact sensors, a application and a centralized database with a webpage browser interface. Impact sensors are worn on athletes' heads, helmet or other headwear and measure impacts that athletes receive while playing sports. The mobile application includes a real-time test and alert system which assists play-side help detect concussion symptoms, provides medical care notices and reports test results to the database for tracking and analysis. The impact data for each athlete is stored in the database along with tests that have been administered through the application. The system reviews, analyzes and compares impact data to standardized concussion data and stores it as a comprehensive, long-term diagnostic study on diagnosed concussions in athletes that the system uses to evaluate impact severities and concussion risks in specific situations.

Abstract: Apparatuses, processes, and systems for implementing techniques for determining characteristics of a papermaking fabric. The techniques include forming a representation of a portion of the surface of the fabric, with the representation showing the knuckles and pockets in the surface. The representation can be formed, for example, in pressure measurement film, in wax paper, or as a photograph. An image is generated from the representation, and the image is analyzed to determine characteristics of the surface of the fabric, such as knuckle sizes and pocket sizes. The depth of pockets in the fabric can also be determined. The techniques can be used in processes for analysing wear of a fabric, and for obtaining a fabric for making a paper product with a particular three-dimensional structure.

Abstract: A sensing module and method for monitoring various physical parameters, and particularly environmental parameters to which a living body may be subjected, for example, impacts and shock wave pulses. The module at least one energy storage device and at least one set of electromechanical sensing elements contained in a housing. The sensing elements are responsive to an external environmental input, and each sensing element defines an open electrical path when not subjected to the input, is operable to define a closed electrical path that produces an output in response to the input if the input exceeds a threshold of the sensing element. The module generates data corresponding to the outputs of the sensing elements and records the data.

Abstract: Tension monitoring is described using a sensor which may exhibit an offset for which compensation may be provided to produce a zero voltage amplified output or to increase dynamic range. An arrangement determines whether a power reset is responsive to a battery bounce such that an initially-measured system start-up parameter can be retained. The start-up parameter is automatically saved at start-up if the power reset is responsive to a start-up from a shut-down condition. The start-up parameter may be a zero tension amplified output responsive to the sensor offset at zero tension. Protection of a tension data set is provided such that no opportunity for altering the data set is presented prior to transfer of the data set. A housing configuration forms part of an electrical power circuit for providing electrical power to an electronics package from a battery.

Abstract: The measuring device is intended to measure forces on a bicycle pedal (1) mounted to rotate on a pedal spindle (2) fixed at the free end of a crankset crankarm (6). The device includes force sensors positioned on the pedal spindle and able to detect the force directed perpendicularly to the pedal spindle and to supply a signal dependent on the force detected, and electronic elements able to process the signals received from the sensors. Some of the electronic elements are incorporated in an electronic card (23) powered by a stand-alone energy source and to which is fixed a male connecting member (24) able to pass through a fixing hole (5) of the pedal spindle (2) on the crankarm (6) in order to cooperate with a female connecting member provided in the end of the pedal spindle. The electronic card forms with the male connecting member an easily detachable assembly.

Abstract: Disclosed herein are embodiments of a check fixture for measuring the accessibility of a lower car seat anchor to a user installing a car seat, and methods thereof. One embodiment of a check fixture comprises a body having a rear end and a front end, the body defining a longitudinal axis. The front end comprises an anchor-engaging structure and the rear end comprises a force gauge interface. The fixture also comprises a flange at least partially circumferentially positioned around the body at a longitudinal position a distance from the front end. The flange includes a bearing surface substantially perpendicular to the longitudinal axis, the bearing surface sized and configured so that when the front end is moved into engagement with the anchor, the bearing surface engages the seating material adjacent the access aperture. The engagement of the flange with the seating material generates a reactive force.

Abstract: A servo position/stress detection control system has a servomotor, a servo driver and a controller. The servo driver has a control unit, an absolute angle reading unit and a register. The control unit selectively drives or stops the servomotor and converts torque value of the servomotor to a force value. The absolute angle reading unit reads an absolute angle value of rotation in response to a spindle of the servomotor. The controller respectively converts the absolute angle value and the force value to a linear displacement and a load stress value with a calculating program, establishes a load line in response to different force values and corresponding linear displacements wherein the load line provides corresponding correction basis for the servo driver to automatically detect height variances caused by reacting force and accordingly adjust working status of the servomotor.

Abstract: The measuring device is intended to measure forces on a bicycle pedal (1) mounted to rotate on a pedal spindle (2) fixed at the free end of a crankset crankarm (6). The device includes force sensors positioned on the pedal spindle and able to detect the force directed perpendicularly to the pedal spindle and to supply a signal dependent on the force detected, and electronic elements able to process the signals received from the sensors. Some of the electronic elements are incorporated in an electronic card (23) powered by a stand-alone energy source and to which is fixed a male connecting member (24) able to pass through a fixing hole (5) of the pedal spindle (2) on the crankarm (6) in order to cooperate with a female connecting member provided in the end of the pedal spindle. The electronic card forms with the male connecting member an easily detachable assembly.

Abstract: Methods and devices for a miniature, ultra-low power impact recorder for detecting, quantifying and recording the energy of an explosive blast or ballistic projectile impact. In one embodiment, the impact recorder can included a sensor comprised of an array of electromechanical resonators that is sensitive to the vibrations produced in selected, discrete frequency ranges that approximate the spectral signature characteristics of the shockwave resulting from the ballistic impact event, even after traveling through impacted material or body tissues.

Abstract: A servo position/stress detection control system has a servomotor, a servo driver and a controller. The servo driver has a control unit, an absolute angle reading unit and a register. The control unit selectively drives or stops the servomotor and converts torque value of the servomotor to a force value. The absolute angle reading unit reads an absolute angle value of rotation in response to a spindle of the servomotor. The controller respectively converts the absolute angle value and the force value to a linear displacement and a load stress value with a calculating program, establishes a load line in response to different force values and corresponding linear displacements wherein the load line provides corresponding correction basis for the servo driver to automatically detect height variances caused by reacting force and accordingly adjust working status of the servomotor.

Abstract: A device for measuring a force exerted by a ferrule of a fiber optic connector includes a base including an adapter mount configured to accept one of a plurality of adapter assemblies, and a stage coupled to the base, the stage moving longitudinally with respect to the base. The device also includes a force gauge coupled to the stage, and an adapter assembly configured to be coupled to the adapter mount of the base, the adapter assembly defining an adapter configured to receive the fiber optic connector. The fiber optic connector is connected to the adapter assembly, and the force gauge measures the force exerted by the ferrule of the fiber optic connector. Systems and methods for measuring the force exerted by the ferrule of a fiber optic connector are also included.

Abstract: A shock tube tip tester determines reliability of a shock tube tip used in a blasting machine. The blasting machine, using shock tubes for non-electric firing, relies on a shock tube tip to initiate the blast. The shock tube tip tester measures the amount of wear and indicates when a particular shock tube tip should be replaced to help prevent misfires or delays in production due to no-fires. The shock tube tip tester includes a mechanical filter suitable for filtering the shock wave pulse created by the shock tube tip, a pressure sensor for sensing the filtered shock wave pulse, and a microprocessor for classifying the shock tube tip into one of several predefined conditions based on either a peak of the shock wave pulse or an area under the shock wave pulse.

Abstract: A force scanning probe microscope (FSPM) and associated method of making force measurements on a sample includes a piezoelectric scanner having a surface that supports the sample so as to move the sample in three orthogonal directions. The FSPM also includes a displacement sensor that measures movement of the sample in a direction orthogonal to the surface and generates a corresponding position signal so as to provide closed loop position feedback. In addition, a probe is fixed relative to the piezoelectric scanner, while a deflection detection apparatus is employed to sense a deflection of the probe. The FSPM also includes a controller that generates a scanner drive signal based on the position signal, and is adapted to operate according to a user-defined input that can change a force curve measurement parameter during data acquisition.

Abstract: A device for measuring a force exerted by a ferrule of a fiber optic connector includes a base including an adapter mount configured to accept one of a plurality of adapter assemblies, and a stage coupled to the base, the stage moving longitudinally with respect to the base. The device also includes a force gauge coupled to the stage, and an adapter assembly configured to be coupled to the adapter mount of the base, the adapter assembly defining an adapter configured to receive the fiber optic connector. The fiber optic connector is connected to the adapter assembly, and the force gauge measures the force exerted by the ferrule of the fiber optic connector. Systems and methods for measuring the force exerted by the ferrule of a fiber optic connector are also included.

Abstract: An apparatus includes a base structure, a force measuring device, and a processing device. The force measuring device is operatively connected between a bowstring connector and a force transmitting connection to the base structure, and is adapted to produce a force output signal indicative of the tensile force applied along a draw force axis between the bowstring connector and the base structure. The processing device is mounted on the base structure and uses the force output signal received from the force measuring device to identify one or more bowstring force characteristics from the force output signal produced over the course of the bowstring draw cycle.

Abstract: A force scanning probe microscope (FSPM) and associated method of making force measurements on a sample includes a piezoelectric scanner having a surface that supports the sample so as to move the sample in three orthogonal directions. The FSPM also includes a displacement sensor that measures movement of the sample in a direction orthogonal to the surface and generates a corresponding position signal so as to provide closed loop position feedback. In addition, a probe is fixed relative to the piezoelectric scanner, while a deflection detection apparatus is employed to sense a deflection of the probe. The FSPM also includes a controller that generates a scanner drive signal based on the position signal, and is adapted to operate according to a user-defined input that can change a force curve measurement parameter during data acquisition.

Abstract: Object of this invention is to provide an axial torsional vibration measurement device of the reactor internal pump capable of measuring the axial torsional vibration easily. The vibration detector 2 that detects vibration in the radial direction, and the sound detector 3 that detects vibration in the circumferential direction are fitted on cylindrical motor casing 6, which contains the motor of a reactor internal pump. The dimension of both signals of a vibration waveform signal detected by the vibration detector 2, and a sound waveform signal detected by the sound detector 3 are matched in vibration calculating device 15, to thereby obtain an axial torsion vibration of a motor from the difference of both signals.

Abstract: Object of this invention is to provide an axial torsional vibration measurement device of the reactor internal pump capable of measuring the axial torsional vibration easily. The vibration detector 2 that detects vibration in the radial direction, and the sound detector 3 that detects vibration in the circumferential direction are fitted on cylindrical motor casing 6, which contains the motor of a reactor internal pump. The dimension of both signals of a vibration waveform signal detected by the vibration detector 2, and a sound waveform signal detected by the sound detector 3 are matched in vibration calculating device 15, to thereby obtain an axial torsion vibration of a motor from the difference of both signals.

Abstract: A friction force measurement apparatus which measure friction force between a fixed member fixed on a main body of a magnetic tape drive and a magnetic tape abrading the fixed member is characterized by being equipped with a vibration detector which is joined with the fixed member and a vicinity of the fixed member and detects vibration in abrasion of the magnetic tape with the fixed member, and a calculation device which calculates the friction force between the fixed member and the magnetic tape based on a signal from the vibration detector.

Abstract: A force scanning probe microscope (FSPM) and associated method of making force measurements on a sample includes a piezoelectric scanner having a surface that supports the sample so as to move the sample in three orthogonal directions. The FSPM also includes a displacement sensor that measures movement of the sample in a direction orthogonal to the surface and generates a corresponding position signal so as to provide closed loop position feedback. In addition, a probe is fixed relative to the piezoelectric scanner, while a deflection detection apparatus is employed to sense a deflection of the probe. The FSPM also includes a controller that generates a scanner drive signal based on the position signal, and is adapted to operate according to a user-defined input that can change a force curve measurement parameter during data acquisition.

Abstract: A self-calibrating apparatus and a self-calibrating method for measuring the pressure distribution generated by a three-dimensional object, is described which includes a plurality of first non-linear force sensors arranged in an array; and a second force sensing device (3) having a linear or linearisable output for measuring the total force applied to the first force sensors. The first sensors are dynamically calibrated based on the results of the comparison. The three-dimensional object may be a human foot and the apparatus and method amy be sued for fitting shoes or for determining irregularities or ailments of the human foot or leg.