A sheave wheel includes a housing; a wheel attached to the housing and configured to rotate relative to the housing; a depth and tension measurement system attached to the housing and configured to measure a parameter associated with the wheel; and a local control system attached to the housing and configured to exchange information associated with the measured parameter in a wireless manner with a ground control system.

A sheave wheel assembly includes a housing; a wheel attached to the housing and configured to rotate relative to the housing; an imaging system attached to the housing and configured to obtain images of a surrounding of the sheave wheel assembly; and a transceiver attached to the housing and configured to send the images in a wireless manner to a ground control system.

A surgical system includes a disposable force sensor pod that includes a load cell and a mounting feature. The surgical system also includes a computing system configured to be placed in electronic communication with the disposable force sensor pod and receive a force measurement from the disposable force sensor pod. The disposable force sensor pod is configured to be removeably coupled to a distraction device using the mounting feature.

A system for monitoring the performance of a multi-stranded tensile member where a portion of the strands are concealed within a termination. The invention provides a monitoring system that allows the user to determine when one or more of the strands has degraded to a point of concern. In some embodiments the monitoring system depends on visual inspection and in other embodiments the monitoring system is automated.

Apparatus for monitoring performance of tie down straps are disclosed. A tie down strap is attached to a strap monitor. The strap monitor continuously monitors the physical parameters of the tie down strap. Further, an electronic device communicatively coupled to the strap monitor receives physical parameters of the tie down strap from the strap monitor to determine performance of the tie down strap. Furthermore, upon determining any issues with the performance of the tie down strap, a user is alerted of the issue by the electronic device.

A load cell that is detachable from a suspension belt cable that is subjected to tension resulting from a suspended load; comprising a cell body with a rectangular parallelepiped configuration wherein the length is greater than the width of the cell body; at least one first, second and third protruding tabs projecting from a long longitudinal edge of the cell body and configured to mechanically couple with the suspension belt cable; and at least one strain gauge configured to be positioned above an intermediate zone of a long side of the cell body; such that the first, second and third protruding tabs are evenly distributed along the long longitudinal edge of the cell body and the first and third protruding tabs are positioned in on a distal plane parallel to the long longitudinal edge of the cell body; with the first and third tabs having protrusions that prevent the cell from shifting or coming off of the belt cable.

An archery training method includes measuring a load applied to a bow hand holding a bow or applied to a release hand drawing a bow string of the bow, the measuring being performed while the bow string is drawn to a cocked positioned for firing an arrow; comparing through a computer processor the measured load to a predetermined value; and activating an output device to generate a notice based on the comparison between the measured load and the predetermined value.

An archery training method includes measuring a load applied to a bow hand holding a bow or applied to a release hand drawing a bow string of the bow, the measuring being performed while the bow string is drawn to a cocked positioned for firing an arrow; comparing through a computer processor the measured load to a predetermined value; and activating an output device to generate a notice based on the comparison between the measured load and the predetermined value.

A tension-measurement device configured to determine a tension in a line includes a body. The body includes a first portion, a second portion extending from the first portion of the body, and a third portion extending from the first portion of the body. The line is configured to extend at least partially through the second and third portions of the body. A first sensor is coupled to the body and is configured to measure a strain on the body when a first portion of the line is placed under tension. The tension in the first portion of the line is configured to be determined based at least partially upon the strain.

A tension-measurement device configured to determine a tension in a line includes a body. The body includes a first portion, a second portion extending from the first portion of the body, and a third portion extending from the first portion of the body. The line is configured to extend at least partially through the second and third portions of the body. A first sensor is coupled to the body and is configured to measure a strain on the body when a first portion of the line is placed under tension. The tension in the first portion of the line is configured to be determined based at least partially upon the strain.