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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model.zip]]// - save the file where you would normally save motion capture files. these sample qualysis files were downloaded from [[http://www.c3d.org/sampledata.html|c3d.org]] ==== step 1 - open cmo file ==== |1. from the file menu, select **open/add...**, choose //model.cmo//\\ \\ \\ 2. from the workspace status screen, verify the model file named standing_hybrid_2.c3d appears in the column labeled models/calibration files. | loadrtmodel.jpg| |3. switch to the **models** tab to verify bones in picture\\ | rtverifybones.jpg| ==== step 2 - connect to rt stream/load emulation ==== **1.** open the //real-time// tab\\ \\ **2. a.** to connect to the qualysis real time stream:\\ \\ |* ensure qtm is running and set the rt output\\ \\ to test open a qtm file, capture and play the file in qtm via post processing keep it running | qtm_rt_settings.jpg| |* click **qualisys_rt** under **real-time hardware(plugins)** to connect to a real time stream (from mocap system)\\ \\ \\ \\ \\ \\ * enter the correct ip address for the computer streaming real time. if they are on the same computer, enter 127.0.0.1 to indicate local host. | qualisys_rt.jpg| \\ \\ **2. stop now. this tutorial is just a wiki and cannot connect to your qtm system. so, we will now simulate the rt stream by using a c3d file as input instead. so, disconnect from the qtm system, and use the c3d_streaming plugin instead. to connect to the c3d stream:\\ **\\ |click **c3dstream_rt** (used to emulate a camera system)\\ \\ \\ \\ \\ browse to the dynamic c3d file (walking_hybrid_2.c3d)\\ \\ \\ \\ \\ **note:** before using the real time stream users should test using c3d files collected in their lab | rtemulatecamera.jpg\\ | \\ **3.** the data is automatically applied to the model\\ **note:** streaming status in lower left ==== step 3 - compute model based item: rt pipeline ==== **the rt pipeline is available only in visual3d professional** <html><ol></html> <html><li></html>open up //model based data computation// under the **real-time pipeline**<html></li></html> <html><li></html>double click //compute_model_based_data//<html></li></html> <html><li></html>click **edit**\\ rtpipeline_cmbd.jpg<html></li></html> <html><li></html>change the corresponding:\\ **data name:** ankle **folder:** original **model based item properties:** joint_angle **segment:** right foot **reference segment:** right shank\\ capture_model_based_data.jpg<html></li></html> <html><li></html>click **done**<html></li></html><html></ol></html> ==== step 4 - create graph ==== <html><ol></html> <html><li></html>click **add** in the **real-time graphs** section, and enter the following:\\ **data to:** link_model_based::original::ankle\\ graphdef.jpg<html></li></html> <html><li></html>click **ok**<html></li></html><html></ol></html> ==== complete ==== your result should show a real-time stream that looks like the picture below final.jpg\\ remember to save the graph and rt pipeline }}}}}}}}}}}}}}}}
