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199,151 results on '"A. Kim"'

1. Design of a Multimodal Fingertip Sensor for Dynamic Manipulation

Author

SaLoutos, Andrew, Stanger-Jones, Elijah, Guo, Menglong, Kim, Hongmin, Kim, Sangbae, SaLoutos, Andrew, Stanger-Jones, Elijah, Guo, Menglong, Kim, Hongmin, and Kim, Sangbae

Abstract

We introduce a spherical fingertip sensor for dynamic manipulation. It is based on barometric pressure and time-of-flight proximity sensors and is low-latency, compact, and physically robust. The sensor uses a trained neural network to estimate the contact location and three-axis contact forces based on data from the pressure sensors, which are embedded within the sensor’s sphere of polyurethane rubber. The timeof-flight sensors face in three different outward directions, and an integrated microcontroller samples each of the individual sensors at up to 200 Hz. To quantify the effect of system latency on dynamic manipulation performance, we develop and analyze a metric called the collision impulse ratio and characterize the end-to-end latency of our new sensor. We also present experimental demonstrations with the sensor, including measuring contact transitions, performing coarse mapping, maintaining a contact force with a moving object, and reacting to avoid collisions.

Published
2024

2. Online Optimal Landing Control of the MIT Mini Cheetah

Author

Jeon, Se Hwan, Kim, Sangbae, Kim, Donghyun, Jeon, Se Hwan, Kim, Sangbae, and Kim, Donghyun

Abstract

2022 IEEE International Conference on Robotics and Automation (ICRA) May 23-27, 2022. Philadelphia, PA, Quadrupedal landing is a complex process involving large impacts, elaborate contact transitions, and is a crucial recovery behavior observed in many biological animals. This work presents a real-time, optimal landing controller that is free of pre-specified contact schedules. The controller determines optimal touchdown postures and reaction force profiles and is able to recover from a variety of falling configurations. The quadrupedal platform used, the MIT Mini Cheetah, recovered safely from drops of up to 8 m in simulation, as well as from a range of orientations and planar velocities. The controller is also tested on hardware, successfully recovering from drops of up to 2 m.

Published
2024

3. Towards Robust Autonomous Grasping with Reflexes Using High-Bandwidth Sensing and Actuation

Author

SaLoutos, Andrew, Kim, Hongmin, Stanger-Jones, Elijah, Guo, Menglong, Kim, Sangbae, SaLoutos, Andrew, Kim, Hongmin, Stanger-Jones, Elijah, Guo, Menglong, and Kim, Sangbae

Abstract

2023 IEEE International Conference on Robotics and Automation (ICRA 2023) May 29 - June 2, 2023. London, UK, Modern robotic manipulation systems fall short of human manipulation skills partly because they rely on closing feedback loops exclusively around vision data, which reduces system bandwidth and speed. By developing autonomous grasping reflexes that rely on high-bandwidth force, contact, and proximity data, the overall system speed and robustness can be increased while reducing reliance on vision data. We are developing a new system built around a low-inertia, high-speed arm with nimble fingers that combines a high-level trajectory planner operating at less than 1 Hz with low-level autonomous reflex controllers running upwards of 300 Hz. We characterize the reflex system by comparing the volume of the set of successful grasps for a naive baseline controller and variations of our reflexive grasping controller, finding that our controller expands the set of successful grasps by 55% relative to the baseline. We also deploy our reflexive grasping controller with a simple vision-based planner in an autonomous clutter clearing task, achieving a grasp success rate above 90% while clearing over 100 items.

Published
2024

4. The MIT Humanoid Robot: Design, Motion Planning, and Control For Acrobatic Behaviors

Author

Chignoli, Matthew, Kim, Donghyun, Stanger-Jones, Elijah, Kim, Sangbae, Chignoli, Matthew, Kim, Donghyun, Stanger-Jones, Elijah, and Kim, Sangbae

Abstract

Demonstrating acrobatic behavior of a humanoid robot such as flips and spinning jumps requires systematic approaches across hardware design, motion planning, and control. In this paper, we present a new humanoid robot design, an actuator-aware kino-dynamic motion planner, and a landing controller as part of a practical system design for highly dynamic motion control of the humanoid robot. To achieve the impulsive motions, we develop two new proprioceptive actuators and experimentally evaluate their performance using our custom-designed dynamometer. The actuator's torque, velocity, and power limits are reflected in our kino-dynamic motion planner by approximating the configuration-dependent reaction force limits and in our dynamics simulator by including actuator dynamics along with the robot's full-body dynamics. For the landing control, we effectively integrate model-predictive control and whole-body impulse control by connecting them in a dynamically consistent way to accomplish both the long-time horizon optimal control and high-bandwidth full-body dynamics-based feedback. Actuators' torque output over the entire motion are validated based on the velocity-torque model including battery voltage droop and back-EMF voltage. With the carefully designed hardware and control framework, we successfully demonstrate dynamic behaviors such as back flips, front flips, and spinning jumps in our realistic dynamics simulation.

Published
2024

10. Design Framework for Ferroelectric Gate Stack Engineering of Vertical NAND Structures for Efficient TLC and QLC Operation

Author

Das, Dipjyoti, primary, Fernandes, Lance, additional, Ravindran, Prasanna Venkatesan, additional, Song, Taeyoung, additional, Park, Chinsung, additional, Afroze, Nashrah, additional, Tian, Mengkun, additional, Chen, Hang, additional, Chem, Winston, additional, Kim, Kijoon, additional, Woo, Jongho, additional, Lim, Suhwan, additional, Kim, Kwangsoo, additional, Kim, Wanki, additional, Ha, Daewon, additional, Yu, Shimeng, additional, Datta, Suman, additional, and Khan, Asif, additional

Published
2024
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11. Realistic Noise-aware Training as a Component of the Holistic ACiM Development Platform

Author

Kim, Jihun, primary, Park, Sangsu, additional, Suh, Hongju, additional, Kwon, Youngjae, additional, Lee, Seonghun, additional, Lee, Yubin, additional, Kim, Kayoung, additional, Han, Eungu, additional, Kim, Jongil, additional, Kim, Kyu Sung, additional, Choi, Hyejung, additional, Ryu, Seungwook, additional, Chae, Su Jin, additional, Lee, Seho, additional, Kim, Soo Gil, additional, Yi, Jaeyun, additional, and Cha, Seonyong, additional

Published
2024
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12. Improvement of MAC Accuracy using Oxygen Diffusion Barriers in Resistive Synaptic Cell Arrays

Author

Kwon, Youngjae, primary, Koo, Won-Tae, additional, Park, Sangsu, additional, Suh, Dong Ik, additional, Lee, Gunhee, additional, Lee, Hyung Dong, additional, Ahn, Youngbae, additional, Kim, Dohee, additional, Ryu, Seungwook, additional, Em, Hoseok, additional, Kang, Seokjoon, additional, Jeong, Chang Won, additional, Cheon, Junho, additional, Choi, Hyejung, additional, Kim, Soo Gil, additional, Lee, Seho, additional, Yi, Jaeyun, additional, and Cha, Seon Yong, additional

Published
2024
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20. A 3.3-to-11V-Supply-Range 10μW/Ch Arbitrary-Waveform-Capable Neural Stimulator with Output-Adaptive-Self-Bias and Supply-Tracking Schemes in 0.18μm Standard CMOS

Author

Wie, Jeongyoon, primary, Jung, Sangwoo, additional, Seol, Taeryoung, additional, Kim, Geunha, additional, Lee, Sehwan, additional, Jang, Homin, additional, Kim, Samhwan, additional, Shin, Yeonjae, additional, Jang, Jae Eun, additional, Kung, Jaeha, additional, George, Arup K., additional, and Lee, Junghyup, additional

Published
2024
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