diff --git a/Docs/Scaling/intro.md b/Docs/Scaling/intro.md index a7585dcd..b1b9ce8e 100644 --- a/Docs/Scaling/intro.md +++ b/Docs/Scaling/intro.md @@ -22,7 +22,7 @@ individuals to be useful for product design. Scaling pertains not only to the ov but also muscle insertion points, muscle parameters, wrapping surfaces etc. AnyBody has a both generic and user-define scaling laws for models in the repository. -For details on scaling theory behind please take a look at [Rasmussen 2005](https://paperpile.com/shared/4znHWd). +For details on scaling theory behind please take a look at [Rasmussen 2005](https://paperpile.com/shared/sqkoXwnHARTiI82J2Sarhcg). Size related parameters of models in the {doc}`AMMR ` are seldom defined as constant numbers, but instead computed from global measurements diff --git a/Docs/body/leg_tlem_model.md b/Docs/body/leg_tlem_model.md index 5895d77b..dad7ee53 100644 --- a/Docs/body/leg_tlem_model.md +++ b/Docs/body/leg_tlem_model.md @@ -62,7 +62,7 @@ full list of configuration parmaeters. More details can be found online: 1. Dendorfer and Toerholm 2008: Report containing moment arm validation for [ESA: - report](https://paperpile.com/shared/WHZjrt) + report](https://paperpile.com/shared/sXPzwP66BRhSbb_VjMytj5Q) 2. Horsman 2007: Klein Horsman, M. D., Koopman, H. F. J. M., van der Helm, F. C. T., Prosé, L. P., and Veeger, H. E. J., 2007, “Morphological Muscle and Joint Parameters for Musculoskeletal Modelling of the Lower Extremity,” Clin. Biomech. , 22(2), pp. 239–247. diff --git a/Docs/body/shoulder_arm_model.md b/Docs/body/shoulder_arm_model.md index 414a0450..fc0fbe49 100644 --- a/Docs/body/shoulder_arm_model.md +++ b/Docs/body/shoulder_arm_model.md @@ -21,7 +21,7 @@ glenohumeral joint angles, also known as a "Shoulder rhythms". The AnyBody shoulder model's rhythm can be switched on and off, the full details of which can be seen in this report [Shoulder Rhythm -Report](https://paperpile.com/shared/TUqWjt). +Report](https://paperpile.com/shared/sQXLyvQsQRfauvB5T9lxyqg). ```{raw} html