Your search keyword '"Lam, Han K."' showing total 8 results

1. Terradynamically streamlined shapes in animals and robots enhances traversability through densely cluttered terrain

Author

Li, Chen, Pullin, Andrew O., Haldane, Duncan W., Lam, Han K., Fearing, Ronald S., and Full, Robert J.

Subjects

Physics - Biological Physics, Electrical Engineering and Systems Science - Systems and Control, Quantitative Biology - Quantitative Methods

Abstract

Many animals, modern aircraft, and underwater vehicles use streamlined body shapes that reduce fluid dynamic drag to achieve fast and effective locomotion in air and water. Similarly, numerous small terrestrial animals move through cluttered terrain where 3-D, multi-component obstacles like grass, shrubs, vines, and leaf litter resist motion, but it is unknown whether their body shape plays a major role in traversal. Few ground vehicles or terrestrial robots have used body shape to effectively traverse cluttered terrain. Here, we challenged forest-floor-dwelling discoid cockroaches possessing a thin, rounded body to traverse tall, narrowly spaced, vertical, grass-like compliant beams. Animals displayed high traversal performance (79 +/- 12% probability and 3.4 +/- 0.7 s time). Although we observed diverse traversal strategies, cockroaches primarily (48 +/- 9 % probability) used a novel roll maneuver, allowing them to rapidly traverse obstacle gaps narrower than half body width (2.0 +/- 0.5 s traversal time). Reduction of body roundness by addition of artificial shells nearly inhibited roll maneuvers and decreased traversal performance. Inspired by this discovery, we added a thin, rounded exoskeletal shell to a legged robot with a nearly cuboidal body, common to many existing terrestrial robots. Without adding sensory feedback or changing the open-loop control, the rounded shell enabled the robot to traverse beam obstacles with gaps narrower than shell width via body roll. Terradynamically streamlined shapes can reduce terrain resistance and enhance traversability by assisting effective body reorientation via distributed mechanical feedback. Our findings highlight the need to consider body shape to improve robot mobility in real-world terrain often filled with clutter, and to develop better locomotor-ground contact models to understand interaction with complex terrain.

Published

2019

2. Cockroaches use diverse strategies to self-right on the ground

Author

Li, Chen, Wöhrl, Toni, Lam, Han K., and Full, Robert J.

Subjects

Physics - Biological Physics, Quantitative Biology - Quantitative Methods

Abstract

Terrestrial animals often must self-right from an upside-down orientation on the ground to survive. Here, we compared self-righting strategies of the Madagascar hissing, American, and discoid cockroaches on a challenging flat, rigid, low-friction surface to quantify the mechanical principles. All three species almost always self-righted (97% probability) when given time (30 seconds), frequently self-righted (63%) on the first attempt, and on that attempt did so in one second or less. When successful, two of the three species gained and used pitch and/or roll rotational kinetic energy to overcome potential energy barriers (American 63% of all attempts and discoid 78%). By contrast, the largest, heaviest, wingless cockroach (Madagascar hissing) relied far less on the energy of motion and was the slowest to self-right. Two of the three species used rolling strategies to overcome low potential energy barriers. Successful righting attempts had greater rolling rotation than failed attempts as the center of mass rose to the highest position. Madagascar hissing cockroaches rolled using body deformation (98% of all trials) and the American cockroach relied on leg forces (93%). By contrast, the discoid cockroach overcame higher and a wider range of potential energy barriers with simultaneous pitching and rolling using wings (46% of all trials) and legs (49%) equally to self-right. Our quantification revealed the performance advantages of using rotational kinetic energy to overcome the potential energy barrier and rolling more to lower it, while maintaining diverse strategies for ground-based self-righting.

Published

2019

3. Instance-Based Transfer Learning Approach for Vietnamese Speech Synthesis with Very Low Resource

Author

Lam, Tuong Q., Nguyen, Dung D., Nguyen, Dat T., Lam, Han K., Cai, Thuc H., Hoang, Suong N., Do, Hao D., Kacprzyk, Janusz, Series Editor, Gomide, Fernando, Advisory Editor, Kaynak, Okyay, Advisory Editor, Liu, Derong, Advisory Editor, Pedrycz, Witold, Advisory Editor, Polycarpou, Marios M., Advisory Editor, Rudas, Imre J., Advisory Editor, Wang, Jun, Advisory Editor, and Arai, Kohei, editor

Published

2022

4. Efficient and unique cobarcoding of second-generation sequencing reads from long DNA molecules enabling cost-effective and accurate sequencing, haplotyping, and de novo assembly

Author

Wang, Ou, Chin, Robert, Cheng, Xiaofang, Wu, Michelle Ka Yan, Mao, Qing, Tang, Jingbo, Sun, Yuhui, Anderson, Ellis, Lam, Han K., Chen, Dan, Zhou, Yujun, Wang, Linying, Fan, Fei, Zou, Yan, Xie, Yinlong, Zhang, Rebecca Yu, Drmanac, Snezana, Nguyen, Darlene, Xu, Chongjun, Villarosa, Christian, Gablenz, Scott, Barua, Nina, Nguyen, Staci, Tian, Wenlan, Liu, Jia Sophie, Wang, Jingwan, Liu, Xiao, Qi, Xiaojuan, Chen, Ao, Wang, He, Dong, Yuliang, Zhang, Wenwei, Alexeev, Andrei, Yang, Huanming, Wang, Jian, Kristiansen, Karsten, Xu, Xun, Drmanac, Radoje, Peters, Brock A., Wang, Ou, Chin, Robert, Cheng, Xiaofang, Wu, Michelle Ka Yan, Mao, Qing, Tang, Jingbo, Sun, Yuhui, Anderson, Ellis, Lam, Han K., Chen, Dan, Zhou, Yujun, Wang, Linying, Fan, Fei, Zou, Yan, Xie, Yinlong, Zhang, Rebecca Yu, Drmanac, Snezana, Nguyen, Darlene, Xu, Chongjun, Villarosa, Christian, Gablenz, Scott, Barua, Nina, Nguyen, Staci, Tian, Wenlan, Liu, Jia Sophie, Wang, Jingwan, Liu, Xiao, Qi, Xiaojuan, Chen, Ao, Wang, He, Dong, Yuliang, Zhang, Wenwei, Alexeev, Andrei, Yang, Huanming, Wang, Jian, Kristiansen, Karsten, Xu, Xun, Drmanac, Radoje, and Peters, Brock A.

Published

2019

5. Cockroaches use diverse strategies to self-right on the ground

Author

Li, Chen, primary, Wöhrl, Toni, additional, Lam, Han K., additional, and Full, Robert J., additional

Published

2019

6. Efficient and unique cobarcoding of second-generation sequencing reads from long DNA molecules enabling cost-effective and accurate sequencing, haplotyping, and de novo assembly

Author

Wang, Ou, primary, Chin, Robert, additional, Cheng, Xiaofang, additional, Wu, Michelle Ka Yan, additional, Mao, Qing, additional, Tang, Jingbo, additional, Sun, Yuhui, additional, Anderson, Ellis, additional, Lam, Han K., additional, Chen, Dan, additional, Zhou, Yujun, additional, Wang, Linying, additional, Fan, Fei, additional, Zou, Yan, additional, Xie, Yinlong, additional, Zhang, Rebecca Yu, additional, Drmanac, Snezana, additional, Nguyen, Darlene, additional, Xu, Chongjun, additional, Villarosa, Christian, additional, Gablenz, Scott, additional, Barua, Nina, additional, Nguyen, Staci, additional, Tian, Wenlan, additional, Liu, Jia Sophie, additional, Wang, Jingwan, additional, Liu, Xiao, additional, Qi, Xiaojuan, additional, Chen, Ao, additional, Wang, He, additional, Dong, Yuliang, additional, Zhang, Wenwei, additional, Alexeev, Andrei, additional, Yang, Huanming, additional, Wang, Jian, additional, Kristiansen, Karsten, additional, Xu, Xun, additional, Drmanac, Radoje, additional, and Peters, Brock A., additional

Published

2019

7. Efficient long single molecule sequencing for cost effective and accurate sequencing, haplotyping, and de novo assembly

Author

Wang, Ou, primary, Chin, Robert, additional, Cheng, Xiaofang, additional, Ka Wu, Michelle, additional, Mao, Qing, additional, Tang, Jingbo, additional, Sun, Yuhui, additional, Anderson, Ellis, additional, Lam, Han K., additional, Chen, Dan, additional, Zhou, Yujun, additional, Wang, Linying, additional, Fan, Fei, additional, Zou, Yan, additional, Xie, Yinlong, additional, Yu Zhang, Rebecca, additional, Drmanac, Snezana, additional, Nguyen, Darlene, additional, Xu, Chongjun, additional, Villarosa, Christian, additional, Gablenz, Scott, additional, Barua, Nina, additional, Nguyen, Staci, additional, Tian, Wenlan, additional, Sophie Liu, Jia, additional, Wang, Jingwan, additional, Liu, Xiao, additional, Qi, Xiaojuan, additional, Chen, Ao, additional, Wang, He, additional, Dong, Yuliang, additional, Zhang, Wenwei, additional, Alexeev, Andrei, additional, Yang, Huanming, additional, Wang, Jian, additional, Kristiansen, Karsten, additional, Xu, Xun, additional, Drmanac, Radoje, additional, and Peters, Brock A., additional

Published

2018

8. Terradynamically streamlined shapes in animals and robots enhance traversability through densely cluttered terrain

Author

Li, Chen, primary, Pullin, Andrew O, additional, Haldane, Duncan W, additional, Lam, Han K, additional, Fearing, Ronald S, additional, and Full, Robert J, additional

Published

2015