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First wave-propelled robot swims, crawls and climbs using a single, small motor

Applications in medicine, homeland security and search and rescue

Date:
August 1, 2016
Source:
American Associates, Ben-Gurion University of the Negev
Summary:
The first single actuator wave-like robot (SAW) has been developed. The 3D-printed robot can move forward or backward in a wave-like motion, moving much like a worm would in a perpendicular wave.
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The first single actuator wave-like robot (SAW) has been developed by engineers at Ben-Gurion University of the Negev (BGU). The 3D-printed robot can move forward or backward in a wave-like motion, moving much like a worm would in a perpendicular wave.

SAW can climb over obstacles or crawl through unstable terrain like sand, grass and gravel, reaching a top speed of 22.5 inches (57 centimeters) per second, five times faster than similar robots. Its minimalistic mechanical design produces an advancing sine wave with a large amplitude, using only a single motor with no internal straight spine. The breakthrough was published in Bioinspiration & Biomimetics in July.

"Researchers all over the world have been trying to create a wave movement for 90 years," says Dr. David Zarrouk, of BGU's Department of Mechanical Engineering, and head of the Bio-Inspired and Medical Robotics Lab.

"We succeeded by finding a simple, unique solution that enables the robot to be built in different sizes for different purposes. For example, it can be scaled up for search and rescue and maintenance, or miniaturized to a diameter of one centimeter or less to travel within the human body for medical purposes, such as imaging and biopsies of the digestive system."

The robot's innovative wave movement also enables it to climb through tunnels at a rate of eight centimeters per second when touching both sides. A waterproof version can swim at six centimeters per second. By adding spiny traction enhancers to each link, the team was able to propel the robot 13 percent faster than its own wave speed.

Dr. Zarrouk, who has been developing robots with a minimalistic and high-performance approach for many years, claims that SAW is easy to manufacture, strong, reliable, and energy efficient, which enables long-distance travel.

To find a way to replicate wave locomotion that mimics miniature biological systems, Zarrouk partnered with graduate students Ilanit Waksman, who researches swimming in viscous liquids (a movement that mimics small biological organisms) and Nir Dagani, who researches movement on flexible and slippery surfaces to model the locomotion of robots within the human body.

"The robot requires barely any maintenance, which is very unusual for an almost completely 3D-printed prototype that's this dynamic," Zarrouk says. "I believe it will be useful for traveling through the intestine for imaging and biopsies, and for infiltrating problematic, complex security areas, such as tunnels, destroyed buildings and pipes."

SAW video: https://www.youtube.com/watch?v=w25zF1bWx5o


Story Source:

Materials provided by American Associates, Ben-Gurion University of the Negev. Note: Content may be edited for style and length.


Journal Reference:

  1. David Zarrouk, Moshe Mann, Nir Degani, Tal Yehuda, Nissan Jarbi, Amotz Hess. Single actuator wave-like robot (SAW): design, modeling, and experiments. Bioinspiration & Biomimetics, 2016; 11 (4): 046004 DOI: 10.1088/1748-3190/11/4/046004

Cite This Page:

American Associates, Ben-Gurion University of the Negev. "First wave-propelled robot swims, crawls and climbs using a single, small motor." ScienceDaily. ScienceDaily, 1 August 2016. <www.sciencedaily.com/releases/2016/08/160801110458.htm>.
American Associates, Ben-Gurion University of the Negev. (2016, August 1). First wave-propelled robot swims, crawls and climbs using a single, small motor. ScienceDaily. Retrieved November 14, 2024 from www.sciencedaily.com/releases/2016/08/160801110458.htm
American Associates, Ben-Gurion University of the Negev. "First wave-propelled robot swims, crawls and climbs using a single, small motor." ScienceDaily. www.sciencedaily.com/releases/2016/08/160801110458.htm (accessed November 14, 2024).

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