rib cage
Autonomous Path Planning for Intercostal Robotic Ultrasound Imaging Using Reinforcement Learning
Bi, Yuan, Qian, Cheng, Zhang, Zhicheng, Navab, Nassir, Jiang, Zhongliang
Ultrasound (US) has been widely used in daily clinical practice for screening internal organs and guiding interventions. However, due to the acoustic shadow cast by the subcutaneous rib cage, the US examination for thoracic application is still challenging. To fully cover and reconstruct the region of interest in US for diagnosis, an intercostal scanning path is necessary. To tackle this challenge, we present a reinforcement learning (RL) approach for planning scanning paths between ribs to monitor changes in lesions on internal organs, such as the liver and heart, which are covered by rib cages. Structured anatomical information of the human skeleton is crucial for planning these intercostal paths. To obtain such anatomical insight, an RL agent is trained in a virtual environment constructed using computational tomography (CT) templates with randomly initialized tumors of various shapes and locations. In addition, task-specific state representation and reward functions are introduced to ensure the convergence of the training process while minimizing the effects of acoustic attenuation and shadows during scanning. To validate the effectiveness of the proposed approach, experiments have been carried out on unseen CTs with randomly defined single or multiple scanning targets. The results demonstrate the efficiency of the proposed RL framework in planning non-shadowed US scanning trajectories in areas with limited acoustic access.
Scientists have created robots that have rib cages, flexible spines, and can SWEAT
A team of researchers at the University of Tokyo developed a pair of humanoid robots that can carry out a wide range of life-like activities -- such as doing push ups, sit ups, and stretches as well as playing badminton and other complicated motions -- in a less mechanical manner compared with most automatons. The robots, called Kengoro and Kenshiro, were designed in such a way that mimics the human body's muscular and skeletal systems. Kenshiro was developed between 2011 and 2014, while Kengoro was developed from 2015 onward. "For at least the last two millennia, human beings have endeavored to understand the systems and mechanisms that make up the human body. However, a limitation of conventional humanoids is that they have been designed on the basis of the theories of conventional engineering, mechanics, electronics, and informatics," lead researcher Yuki Asano told Daily Mail online. The scientists used aluminum, steel, and plastic as a frame for the humanoid robots.
Scientists have created robots that have rib cages, flexible spines, and can SWEAT
A team of researchers at the University of Tokyo developed a pair of humanoid robots that can carry out a wide range of life-like activities -- such as doing push ups, sit ups, and stretches as well as playing badminton and other complicated motions -- in a less mechanical manner compared with most automatons. The robots, called Kengoro and Kenshiro, were designed in such a way that mimics the human body's muscular and skeletal systems. Kenshiro was developed between 2011 and 2014, while Kengoro was developed from 2015 onward. "For at least the last two millennia, human beings have endeavored to understand the systems and mechanisms that make up the human body. However, a limitation of conventional humanoids is that they have been designed on the basis of the theories of conventional engineering, mechanics, electronics, and informatics," lead researcher Yuki Asano told Daily Mail online. The scientists used aluminum, steel, and plastic as a frame for the humanoid robots.