Company Filing History:
Years Active: 2023
Title: Innovations in Robotic Manipulation by C. Karen Liu
Introduction
C. Karen Liu is an innovative inventor based in Stanford, California. With a strong focus on robotics and artificial intelligence, she has made significant contributions to the field through her unique patent. Karen's work aims to enhance the capabilities of robotic systems, making them more efficient in manipulating objects.
Latest Patents
Karen Liu holds a patent titled "Utilizing Past Contact Physics in Robotic Manipulation (e.g., Pushing) of an Object." This invention involves the use of past dynamics samples that reflect past contact physics information to train and utilize a neural network model. The model represents a learned value function, such as a Q-value function, which is employed to select a sequence of robotic actions for effective manipulation of objects. The patent highlights the integration of past images and force sensor readings, allowing for a more sophisticated understanding of dynamics in robotic manipulation scenarios.
Career Highlights
As part of her career, C. Karen Liu contributes her skills and expertise at Google Inc., where she continues to explore and develop advanced robotic technologies. Her dedication to innovation has positioned her as a key player in the tech industry, paving the way for smarter and more capable robotic systems.
Collaborations
Throughout her career, Karen Liu has collaborated with talented colleagues, including Zhuo Xu and Wenhao Yu. These partnerships have allowed her to merge ideas and techniques, leading to groundbreaking advancements in the field of robotics and artificial intelligence. Their combined efforts exemplify the importance of teamwork in fostering innovation.
Conclusion
C. Karen Liu's contributions to robotic manipulation through her innovative patent demonstrate the potential of utilizing artificial intelligence in practical applications. Her work at Google Inc., alongside her collaborators, continues to push the boundaries of what is possible in robotics, showcasing the vital intersection of technology and creativity.