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BackJake Laser's 'Bionic Leg Chair' Combines Robotics and Mobility
Jake Laser's 'Bionic Leg Chair' Combines Robotics and Mobility
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Jake Laser's 'Bionic Leg Chair' Combines Robotics and Mobility

En resumen

  • Engineer Jake Laser created the 'bionic leg chair,' a robotic mobility vehicle using a quadruped robot, to help his father with MS navigate difficult terrain.
  • The hybrid leg-and-wheel design allows it to roll on smooth surfaces and walk over obstacles, offering greater independence.

Resumen generado por IA

Por qué importa

Jake Laser developed a robotic mobility vehicle, the 'bionic leg chair,' for his father who has lived with multiple sclerosis for 20 years, to overcome the limitations of conventional wheelchairs on difficult terrain.

Tamaño de fuente

Image: Jake Laser

For most wheelchair users, everyday life is designed around the limits of accessible infrastructure. A dropped kerb or a ramp may solve one obstacle, but steep hills, rocky trails, forest paths and staircases can still put entire destinations out of reach. Rather than accept those limitations, American maker and engineer Jake Laser set out to build something entirely different for his father, who has lived with multiple sclerosis (MS) for the past 20 years. The result is what Laser calls the "bionic leg chair," a robotic mobility vehicle that combines advanced quadruped technology with a custom-built seat, allowing his father to travel across terrain that conventional wheelchairs cannot navigate. By adapting an industrial robot rather than designing a mobility aid from scratch, Laser has demonstrated how robotics originally developed for industry could one day help redefine personal accessibility.

An industrial robot becomes an all-terrain mobility aid

At the heart of the project is an industrial-grade quadruped robot built by Unitree, a robotics company known for developing agile, four-legged machines. Unlike traditional robots that rely solely on legs, this platform uses a hybrid leg-and-wheel design, with powered wheels mounted beneath each robotic foot. That combination gives it the best of both worlds. On pavements and smooth indoor floors, the robot rolls efficiently like a wheeled vehicle, reducing energy consumption and providing a comfortable ride. When it encounters stairs, rocks, tree roots or uneven ground, it can transition to walking mode, lifting each leg independently to climb obstacles that would stop even specialised off-road wheelchairs. For Laser, the platform offered an ideal foundation for a mobility device capable of travelling almost anywhere a person on foot could reasonably go.

Laser built it with his father in mind

Laser's motivation was deeply personal. His father has lived with multiple sclerosis for two decades, a neurological condition that can progressively affect movement, balance and muscle control. Although wheelchairs restore mobility in many situations, they remain constrained by the terrain around them. Wanting to give his father greater independence outdoors, Laser transformed the quadruped robot into a personal transport system by installing a custom seat, developing modified control software and designing an automotive-inspired body around the machine. The result is a vehicle that allows its occupant to remain seated while the robot walks, rolls and climbs beneath them. More than an engineering exercise, the project was designed to restore access to places that had gradually become inaccessible, from hiking trails and countryside paths to uneven natural landscapes where traditional mobility aids struggle.

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How the 'bionic leg chair' works

The robotic chair retains the quadruped's original ability to balance dynamically while moving. The on-board computer constantly adjusts the legs in order to keep the robot stable, regardless of whether it travels over difficult terrain or climbs stairs. Laser redesigned the control system in order to simplify the robot’s use as an assistive device, and the special seating system ensures safe positioning of the passenger. However, despite the futuristic style of the design, which makes the robot look like a car instead of heavy machinery, it is still an advanced robotic device made to perform in harsh conditions. The wheel/legs design allows the robot to move smoothly on smooth ground while keeping the capability to overcome obstacles that would require leaving the wheelchair behind.

A glimpse into the future of accessible mobility

Laser documented the project on Youtube channel on his channel @JLaservideo, where it has drawn widespread interest from engineers, robotics enthusiasts and accessibility advocates alike. Although the bionic leg chair is a bespoke prototype rather than a commercial product, it highlights the growing potential for robotics to transform mobility beyond conventional wheelchairs. There is a growing trend of researchers developing legged robots for use cases such as disaster relief and recovery, industrial inspection, and even healthcare and rehabilitation. These efforts imply that one day, similar technology will offer individuals with disabilities greater opportunities to explore inaccessible locations. The case of Jake Laser is unique not only because the innovation represents a technological breakthrough but also because it was motivated by a need to help someone in the developer's family. The young man's desire to give his father a chance to visit certain places once again led to a brilliant idea of turning an industrial quadruped into a walking mobility chair.

End of Article

Preguntas abiertas

  • Will this technology be commercialized?
  • What is the cost of such a device?

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This article was originally published by TOI World.

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