Documentation Site Map Main Page Reference List Motion Capture Visual3D Overview Visual3D Installation License Activation Getting Started Visual3D Documentation Overview Pipeline Commands Reference Expressions Overview CalTester Mode Overview List of Tutorials Visual3D Examples Overview Troubleshooting Sift Sift Overview Installation Getting Started Sift Documentation Overview Knowledge Discovery for Biomechanical Data Tutorial Overview Troubleshooting Inspect3D Inspect3D Overview Inspect3D Installation Overview Inspect3D Getting Started Overview Inspect3D Documentation Overview Knowledge Discovery in Inspect3D Inspect3D Tutorials Overview Troubleshooting DSX Suite DSX Overview DSX Definitions DSX Suite Installation DSX Tutorials DSX Release Notes xManager Overview PlanDSX Overview Surface3D Overview Orient3D Overview CalibrateDSX Overview Locate3D Overview X4D Overview
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sample files]] for this tutorial may be downloaded.\\ 1) this tutorial will use the **static.c3d** and **functional hip.c3d** files.\\ 2) the functional knee.c3d file is used for the [[visual3d:documentation:modeling:functional_joints:example_-_functional_knee|functional knee tutorial]].\\ 3) functionaljoints_hip_knee.cmo contains a static trial with both the functional hip and knee defined.\\ \\ **the calculation of functional joints is described [[visual3d:documentation:modeling:functional_joints:functional_joints|here]].\\ **\\ ====== load static trial ====== |1. from the **model** menu, select **create -> hybrid model from c3d file.**\\ \\ 2. a dialog titled **select the calibration file for the new model** will appear;\\ \\ \\ select //static.c3d// click **open.** | createstatic.jpg| ====== create functional joint ====== |1. on the **landmarks** tab:\\ \\ 1. select the **functional** tab | functionaltab.jpg| ===== create right functional joint ===== |1. on the **landmarks** tab:\\ \\ 1. select the **functional** tab\\ \\ 2. from the **functional joint name** box, select //f_rhip.//\\ \\ 3. click **create.** | create_f_rhip.jpg| |2. **select tracking targets for the f_rhip:**\\ \\ | **tracking segment/targets**\\ select **use tracking targets** (ctrl-click to multi select)\\ //lasi//, //lpsi//, //rasi//, //rpsi//\\ \\ \\ **other segment/targets:**\\ select **use other targets** (ctrl-click to multi select)\\ //rthi1//, //rthi2//, //rthi3//, //rthi4//\\ ||\\ \\ click on **close tab** before proceeding. | define_f_rhip.jpg| ===== create left functional joint ===== |1. on the **landmarks** tab:\\ \\ 1. select the **functional** tab\\ \\ 2. from the **functional joint name** box, select //f_lhip.//\\ \\ 3. click **create.** | create_f_lhip.jpg| |2. **select tracking targets for the f_lhip:**\\ \\ | **tracking segment/targets**\\ select **use tracking targets** (ctrl-click to multi select)\\ //lasi//, //lpsi//, //rasi//, //rpsi//\\ \\ \\ **other segment/targets:**\\ select **use other targets** (ctrl-click to multi select)\\ //lthi1//, //lthi2//, //lthi3//, //lthi4//\\ ||\\ \\ click on **close tab** before proceeding. | define_f_lhip.jpg| ====== model builder advanced post processing ====== |1. select the **post processing** button from the menu (image below)\\ modelbuilderadvancedpostprocessing_button.jpg\\ \\ 2. select the **functional joints** tab from the dialog box (image on right)\\ | modelbuilderadvancedpostprocessing.jpg| |3. **open functional movement file:**\\ \\ 1. select the **add motion file from disk**\\ \\ 2. **browse** to functional movement file, select //functional hip.c3d//\\ \\ 3. click **open**\\ \\ 4. **select** the motion file by clicking on the trial, this will highlight the trial in **blue**.\\ \\ \\ | mbapp_selectmotionfile.jpg| \\ **note:** once the trial has been selected, the name of the trial will be highlighted and the movement file will appear in 3d viewer.\\ \\ ===== define f_rhip start and end of motion ===== |1. select the **start** frame of the right functional movement\\ \\ 1. **select f_rhip**, this will highlight the joint in **blue**\\ \\ 2. using the **slider** (seen below), select the start frame of the right functional movement. //set the start frame to 399//\\ \\ mbapp_f_rhip_start_slider.jpg\\ \\ \\ 3. click **set start event to current frame**\\ \\ \\ | mbapp_f_rhip_start.jpg| \\ |2. select the **end** frame of the right functional movement\\ \\ 1. **select f_rhip**, this will highlight the joint in **blue**\\ \\ 2. using the **slider** (seen below), select the end frame of the right functional movement. //set the end frame to 1183//\\ \\ mbapp_f_rhip_end_slider.jpg\\ \\ \\ 3. click **set end event to current frame**\\ \\ \\ | mbapp_f_rhip_end.jpg| ===== define f_lhip start and end of motion ===== |1. select the **start** frame of the left functional movement\\ \\ 1. **select f_lhip**, this will highlight the joint in **blue**\\ \\ 2. using the **slider**, select the start frame of the left functional movement. //set the start frame to 1760//\\ \\ 3. click **set start event to current frame**\\ \\ \\ | mbapp_f_lhip_start.jpg| |2. select the **end** frame of the left functional movement\\ \\ 1. **select f_lhip**, this will highlight the joint in **blue**\\ \\ 2. using the **slider**, select the end frame of the left functional movement. //set the end frame to 2653//\\ \\ 3. click **set end event to current frame**\\ \\ \\ | mbapp_f_lhip_end.jpg| ====== compute landmarks ====== |1. select **compute all landmarks**\\ 2. **close** the model builder advanced post processing dialog box\\ 3. the **f_rhip and f_lhip** landmarks should appear in purple in the 3d viewer\\ \\ \\ **if the landmarks do not appear in the 3d viewer, check:**\\ - that the landmarks are turned on (3d view options)\\ - check that all steps in this tutorial were completed\\ | f_rhip_f_lhip.jpg| }}}}}}}}}}}}}}}}}}}}}}}}}}}}}}
