![A controller for walking derived from how humans recover from perturbations | Journal of The Royal Society Interface A controller for walking derived from how humans recover from perturbations | Journal of The Royal Society Interface](https://royalsocietypublishing.org/cms/asset/f485d696-28a3-4cd8-b3eb-08a265ea954e/rsif20190027f01.jpg)
A controller for walking derived from how humans recover from perturbations | Journal of The Royal Society Interface
![The Science of Walking: Investigations into Locomotion in the Long Nineteenth Century, Mayer, Skowroneck, Blanton The Science of Walking: Investigations into Locomotion in the Long Nineteenth Century, Mayer, Skowroneck, Blanton](https://press.uchicago.edu/dam/ucp/books/jacket/978/02/26/32/9780226328355.jpg)
The Science of Walking: Investigations into Locomotion in the Long Nineteenth Century, Mayer, Skowroneck, Blanton
Kevin A. Kirby, DPM - Foot Stiffening During the Push-Off Phase of Human Walking- A New Paper With Questionable Conclusions A new research paper has just been published on the windlass mechanism
![A novel human-carrying quadruped walking robot - Lingfeng Sang, Hongbo Wang, Hongnian Yu, Luige Vladareanu, 2017 A novel human-carrying quadruped walking robot - Lingfeng Sang, Hongbo Wang, Hongnian Yu, Luige Vladareanu, 2017](https://journals.sagepub.com/cms/10.1177/1729881417716592/asset/images/large/10.1177_1729881417716592-fig2.jpeg)
A novel human-carrying quadruped walking robot - Lingfeng Sang, Hongbo Wang, Hongnian Yu, Luige Vladareanu, 2017
![Energies | Free Full-Text | Overview of Human Walking Induced Energy Harvesting Technologies and Its Possibility for Walking Robotics Energies | Free Full-Text | Overview of Human Walking Induced Energy Harvesting Technologies and Its Possibility for Walking Robotics](https://www.mdpi.com/energies/energies-13-00086/article_deploy/html/images/energies-13-00086-g016a.png)
Energies | Free Full-Text | Overview of Human Walking Induced Energy Harvesting Technologies and Its Possibility for Walking Robotics
![Gastrocnemius and Power Amplifier Soleus Spring-Tendons Achieve Fast Human-like Walking in a Bipedal Robot | Dynamic Locomotion - Max Planck Institute for Intelligent Systems Gastrocnemius and Power Amplifier Soleus Spring-Tendons Achieve Fast Human-like Walking in a Bipedal Robot | Dynamic Locomotion - Max Planck Institute for Intelligent Systems](https://dlg.is.mpg.de/uploads/publication/image/26914/Screenshot_2022-03-04_at_07.03.25.png)
Gastrocnemius and Power Amplifier Soleus Spring-Tendons Achieve Fast Human-like Walking in a Bipedal Robot | Dynamic Locomotion - Max Planck Institute for Intelligent Systems
![Toward Human Like Walking – Walking Mechanism of 3D Passive Dynamic Motion with Lateral Rolling – Advances in Human-Robot Interaction | IntechOpen Toward Human Like Walking – Walking Mechanism of 3D Passive Dynamic Motion with Lateral Rolling – Advances in Human-Robot Interaction | IntechOpen](https://cdnintech.com/media/chapter/6449/1512345123/media/image1.jpeg)
Toward Human Like Walking – Walking Mechanism of 3D Passive Dynamic Motion with Lateral Rolling – Advances in Human-Robot Interaction | IntechOpen
![Three-degree-of freedom walking mechanism on a sagittal plane (Ono, K.... | Download Scientific Diagram Three-degree-of freedom walking mechanism on a sagittal plane (Ono, K.... | Download Scientific Diagram](https://www.researchgate.net/publication/221786071/figure/fig1/AS:393978684952584@1470943246838/Three-degree-of-freedom-walking-mechanism-on-a-sagittal-plane-Ono-K-et-al-2001.png)