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MIT Touch Lab Research Explores The Hand

Date:
March 22, 1999
Source:
Massachusetts Institute Of Technology
Summary:
Marvel at the hand. Capable of moving in some 20 independent ways, it contains about 20 muscles and 20 nerve types and is operated by another 20 muscles in the forearm. Indeed, the instrument is so complex that only recently have engineers developed affordable machines with enough sensors, actuators, and computing power to study it in detail.

Marvel at the hand.

Capable of moving in some 20 independent ways, it contains about 20 muscles and 20 nerve types and is operated by another 20 muscles in the forearm. Indeed, the instrument is so complex that only recently have engineers developed affordable machines with enough sensors, actuators, and computing power to study it in detail.

As a result, researchers still know relatively little about such basic functions as how the fingerpad receives tactile information and routes that data to the brain. A better understanding of how the hand works, however, could aid the diagnosis and treatment of conditions like carpal tunnel syndrome. More data is also key to robotic hands, and to software that allows us to touch and feel virtual objects generated by a computer.

Introducing MIT's Touch Lab. In addition to exploring the basic science behind the hand, the scientists there are applying their results to high-tech systems like virtual reality for surgical simulations in which the user can "see, touch and feel" the tissues involved. Another application: a microscope for imaging what happens at the fingertip when we touch something. Such systems, in turn, allow further experiments for gleaning that much more about how the hand works. For example, robotic devices developed in the lab are used to apply controlled stimuli to the hands of human subjects in experiments to study perception.

"We want to understand the overall perceptual capabilities of the human hand and sense of touch, as well as the underlying mechanisms," said Mandayam A. Srinivasan, director of the Laboratory for Human and Machine Haptics (the facility's formal name). Dr. Srinivasan holds appointments through MIT's Research Laboratory of Electronics (RLE) and Department of Mechanical Engineering.

TOUCH LAB RESEARCH

Touch Lab research falls into three broad categories: human haptics (the latter term describes all aspects of hands and how they work), machine haptics (robotic devices), and computer haptics (the generation of virtual "objects" that the user can touch and feel). "Think of these areas as roughly analogous to human vision, machine vision, and computer graphics," Dr. Srinivasan said.

Projects in human haptics range from developing computer models of the fingerpad to recording the neural signals sent from receptors in the finger to the brain (a collaboration with Yale University). "Touch begins in the fingertips but ends in the brain," Dr. Srinivasan explained. The research spans the fields of biomechanics (the study of properties such as fingerpad stiffness and friction), neurophysiology, and psychophysics (a branch of psychology that relates physical quantities such as force applied on the fingerpad to perception).

Basic research on human haptics could lead to better ways of evaluating hand impairments. "Audio and visual tests are very sophisticated," Dr. Srinivasan said, "but the tests clinicians have for the sense of touch, for example, are very primitive." This is primarily because the human haptic system is so complex and because "there's been no dominant clinical need," Dr. Srinivasan said. It's easier to live with a damaged hand than with a loss of sight or hearing.

Nevertheless, as Touch Lab scientists and others learn more about the hand, Dr. Srinivasan foresees "a suite of devices that could be common for hand evaluations." (He doubts that in the near future a single device could do everything because the hand is too complex.) Such machines might, for example, "measure how quickly functionality is returning to a hand transplant," and if problems arise they "could give doctors hints as to what's responsible."

ULTRASOUND MICROSCOPE

Last year Touch Lab scientists completed an ultrasound microscope that takes images of the layers of skin at the fingertip much like diagnostic ultrasound images fetuses. The microscope is helping the scientists learn more about how the fingertip layers deform and change their geometry when we touch something.

Developed by Balasundar Raju, a graduate student in the Department of Electrical Engineering and Computer Science, and Dr. Srinivasan, the instrument could also be applied to the detection of skin cancer. "Sunburn and skin cancer result in changes in the mechanical properties of the skin. This microscope could potentially detect those properties," Dr. Srinivasan said.

In computer haptics work at the Touch Lab, "we're focusing on how to convey the texture, shape, and stiffness of computer-generated objects such as a cube or heart," Dr. Srinivasan said.

Other projects explore human-machine interactions. For example, Touch Lab researchers are studying the effects of vision and sound on the touch perception of subjects who interact with a computer through a haptic interface (a robotic device that translates the touch and feel of virtual objects to the user). They are also developing virtual environments in which two or more people in different locations use haptic interfaces to explore and manipulate the same object.

VIRTUAL SURGERYSoftware currently in development simulates a surgical procedure--a laparoscopy--on the computer. "The goal is to develop a system that will help train doctors," said Cagatay Basdogan, an RLE research scientist conducting the work with Dr. Srinivasan.

Laparoscopy involves making small incisions in the body. Instruments such as a scope for seeing the tissues involved and various surgical tools are inserted through these incisions and manipulated to complete an operation such as the removal of the gall bladder.

In the simulation, the user sees an on-screen image of the organs and tissues in question. By manipulating a stencil that's analogous to a computer mouse, the user can "place a 'tool' over, say, a lung, press down on it, see the deformation of the lung and 'feel' how soft and pliable it is," Dr. Basdogan said. (The hardware for the stencil system, known as the Phantom, was developed by other MIT researchers a few years ago.)

To date the researchers have completed a virtual probe and forceps for the simulation. The forceps is used to pinch and pull back folds of virtual tissue.

"Now we're working on cutting tools and on computer models for bleeding. Tissues should bleed if you cut them," Dr. Basdogan said. The MIT researchers and collaborators at Massachusetts General Hospital and Harvard Medical School are also preparing to make measurements of the properties of real tissues. Those properties will be incorporated into the virtual system.

Touch Lab research is funded by the National Institutes of Health, the Defense Advanced Research Projects Agency, the Office of Naval Research, Harvard University, and Massachusetts General Hospital.


Story Source:

The above story is based on materials provided by Massachusetts Institute Of Technology. Note: Materials may be edited for content and length.


Cite This Page:

Massachusetts Institute Of Technology. "MIT Touch Lab Research Explores The Hand." ScienceDaily. ScienceDaily, 22 March 1999. <www.sciencedaily.com/releases/1999/03/990322060803.htm>.
Massachusetts Institute Of Technology. (1999, March 22). MIT Touch Lab Research Explores The Hand. ScienceDaily. Retrieved October 1, 2014 from www.sciencedaily.com/releases/1999/03/990322060803.htm
Massachusetts Institute Of Technology. "MIT Touch Lab Research Explores The Hand." ScienceDaily. www.sciencedaily.com/releases/1999/03/990322060803.htm (accessed October 1, 2014).

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