Modular Prosthetic Limb

A child's hand intertwines with a black robotic hand with five jointed fingers mimicking a human hand.
Hand in hand with the Modular Prosthetic Limb. Photo: Ed Whitman/JHUAPL

The Modular Prosthetic Limb is a bionic arm with human-level dexterity, weight, range of motion, and force generation. It's designed to restore full functionality to upper-extremity amputee soldiers.

Creator

Applied Physics Laboratory (APL)

Year
2010
Country
United States 🇺🇸
Categories
Features
The prototype arm in action. Video: HDT Robotics

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Did you know?

Using the MPL bionic arm and a brain-machine interface, a paralyzed man from Pennsylvania was able to reach out and touch his girlfriend's hand during a 2011 trial.

A black robotic hand with five jointed fingers mimicking a human hand holds an orange miniature football.
The MPL is made of metal, plastic, and carbon fiber. Photo: Ed Whitman/JHUAPL

History

The Modular Prosthetic Limb was developed by the Johns Hopkins University's Applied Physics Laboratory (APL) as part of DARPA's Revolutionizing Prosthetics program, launched in 2006. The program funded two teams: Dean Kamen's DEKA R&D firm, which built the DEKA Arm, and Johns Hopkins's APL, which developed the MPL system. The first version of the MPL was finished in December 2009. The current version of the MPL was finished in December 2010. APL researchers, in collaboration with teams from the University of Pittsburgh, University of Chicago, University of Utah, and Caltech, are now performing experiments involving brain control of their arm by tetraplegic volunteers. The goal is to create a neurally controlled artificial limb that can restore full motor and sensory capability to upper-extremity amputees.

Black and white modern photograph of a seated man who sits with his flesh hand holding his robotic arm and hand.
Jonathan Kuniholm, an Iraq veteran and engineer, wears the MPL. Photo: Mike McGregor
Black and white modern photograph of a man who is looking at his robotic arm and hand which he holds up in front of his face.
The MPL is intended to be an open platform. Photo: Mike McGregor

Specs

Overview

Anthropomorphic design with nearly the same number of degrees of freedom as the human arm. Adaptable to varying degrees of amputations.

Status

Ongoing

Year

2010

Website
Length
80 cm
Weight
4.8 kg
Sensors

Position and torque sensors in the hand and upper arm. Contact sensors in the palm and fingers. Three-axis force sensor and accelerometer in the tips of fingers and thumb (optional).

Actuators

Brushless DC motors with custom transmissions and motor controllers.

Degrees of Freedom (DoF)
26 (17 actuated DoF)
Materials

Metal transmissions with carbon fiber and plastic shells.

Compute

Main controller in the hand, local motor controllers at each joint, and neural control unit for human intent decoding.

Software

QNX real-time OS and custom control software.

Power

24-V battery, 4 hours of operation