- #Efilm lite mark for export update#
- #Efilm lite mark for export full#
- #Efilm lite mark for export code#
- #Efilm lite mark for export password#
#Efilm lite mark for export password#
htpasswd Holds the hashed password values. htaccess Defines the entire folder as password protected The overall file structure for the project once it has been installed is as follows: Hopefully this section will help to limit the number of places where it is necessary to search for sources of content display and errors.
#Efilm lite mark for export code#
The majority of this project is coded using jQuery which makes debugging very difficult because the actions associated with visual elements are not obvious when looking at the code that creates the visual element.
#Efilm lite mark for export update#
The file should have read and write permissions for the Apache server so that it can be edited by the password update scripts which are dynamically created and destroyed as they are needed. This protects the file from discovery from the general user. htpasswd file should be stored outside of the public web folder. Other users with permissions to edit other user’s rights can not edit the rights of user zero.
The initial user ( user zero ) is the only user who can edit the user zero account. The initial user will gain universal access and control and can assign permissions to other users. htpasswd functionality of the Apache server. This project is not complete but has reached a point where it can be distributed and used for film annotation editing and the goal of this distribution is to encourage the developer community to help expand the functionality of the project to make it better and more functional for all users.īecause the editing of annotations for any project should be restricted to trusted users, access to the editor is controlled with a login setup that takes advantage of the. Conclusion:īecause of the relationship between load and accuracy, we recommend selecting an instrument capacity as close as possible to the maximum measured load.This document is intended to explain where in the project the code exists that controls the various parts of the film annotation editor. For a 30.00 lbF load, the fixed error equals ☐.05 ÷ 30.00 lbF = ☐.17% of reading. For a 1.00 lbF load, the fixed error equals ☐.05 ÷ 1.00 lbF = ±5% of reading. To calculate the error as a percentage of reading, divide the fixed error by the measured value. Percentage of Reading:īecause of these fixed errors, lower measured values will be more inaccurate as a percentage of reading.įurther using the example of an M5-50 force gauge, a fixed error of ☐.05 lbF represents a higher error as a percentage of reading for a load of 1.00 lbF than 30.00 lbF. In a specific example for the Model MR50-12, the accuracy becomes ☐.55% x 135 Ncm = ☐.7425 Ncm. Using the example of a Series R50 torque sensor with Model 3i indicator, add ☐.35% to ☐.2%, which equals ☐.55%. Models 7i and 5i indicators have accuracy values of ☐.1% FS, while the Model 3i is rated at ☐.2% FS. The accuracies of the sensor and the indicator must be added together. Example 2 – Plug & Test ® indicators and sensors: For example, if the displayed value is 30.00 lbF, the true reading will be ≥29.95 lbF and ≤30.05 lbF. This means that any displayed reading may be higher or lower by up to 0.05 lbF.
Multiply ☐.1% by 50 lbF, which equals ☐.05 lbF. To determine the measurement error as an actual load value, multiply the accuracy percentage by the instrument’s capacity.
#Efilm lite mark for export full#
Mark-10 defines accuracy as a percentage of full scale of the instrument.