Monday, Aug 03, 2020 | Last Update : 06:32 PM IST

132nd Day Of Lockdown

Maharashtra44122827680915576 Tamil Nadu2576131964834132 Andhra Pradesh158764828861474 Delhi1376771233174004 Karnataka134819577252496 Uttar Pradesh92921533571730 West Bengal75516527301678 Telangana6766048609551 Gujarat63675466892482 Bihar5727036637322 Rajasthan4441031216706 Assam4290532385105 Haryana3651929690433 Odisha3491321955236 Madhya Pradesh3353523550886 Kerala259121446383 Jammu and Kashmir2141613127396 Punjab1785311466423 Jharkhand121884513115 Chhatisgarh9608699158 Uttarakhand7593443786 Goa6530466853 Tripura5248346323 Puducherry3806230952 Manipur283117377 Himachal Pradesh2654150813 Arunachal Pradesh19359693 Nagaland19356484 Chandigarh111769819 Meghalaya8742645 Sikkim6582891 Mizoram4702580
  Technology   In Other news  10 Jul 2020  New robotic arm helps people with cerebral palsy and victims of trauma overcome motor impairment

New robotic arm helps people with cerebral palsy and victims of trauma overcome motor impairment

PTI
Published : Jul 10, 2020, 7:23 pm IST
Updated : Jul 10, 2020, 7:23 pm IST

The Indian Institute of Science has designed an eye-gaze controlled robotic arm to put them on par with non-disabled peers.

In the Occupational Therapy outpatient clinic, Marine Sgt. Byron Bell builds up his grip strength by performing specialised exercises.(Representative Image | US Navy)
 In the Occupational Therapy outpatient clinic, Marine Sgt. Byron Bell builds up his grip strength by performing specialised exercises.(Representative Image | US Navy)

Bengaluru: An Indian Institute of Science (IISc) research team has designed a robotic arm that can be manipulated by eye movement using a computer interface, to help people with Severe Speech and Motor Impairment (SSMI).

This interface is non-invasive since it is through a webcam and a computer, unlike other eye gaze-tracking devices that use head-mounted systems, according to Bengaluru-based IISc.

 

People with SSMI find it difficult to physically operate devices such as a joystick, mouse or trackball, or use speech recognition systems, it was noted.

Eye gaze-controlled computer interfaces can help them perform various tasks on par with their non-disabled peers. To help people with SSMI (a condition caused by disorders like cerebral palsy), a research team at the Centre for Product Design and Manufacturing (CPDM), IISc, worked with young adult students who have SSMI at Vidya Sagar (formerly The Spastics Society of India) in Chennai, an institution for individuals with disabilities.

“Many of these students [with cerebral palsy] are not able to precisely focus at a single point in their visual field, due to uncontrolled gaze movement.

 

They are also not comfortable to look at all portions of the visual field equally,” says project lead Pradipta Biswas, Assistant Professor at CPDM.

Biswas and his team used computer vision and machine learning algorithms to analyse live feeds of facial video from the users, and were able to estimate where the user was looking.

They coupled this with an Augmented Reality application to allow the user to use a robotic arm for tasks like picking up and dropping objects, and placing them where they desire, as long as it was within reach of the robotic arm, according to an IISc statement.

One of the main applications of this eye gaze-controlled robotic arm is rehabilitation of young adults with SSMI, through tasks such as fabric printing.

 

They usually require assistance in doing such tasks, as they can only do a small part of it by themselves. Using the robotic arm designed by the researchers, people with SSMI can use their eye gaze to perform mechanical tasks that can help them work on handicrafts independently, it said. This eye gaze-controlled interface has been deployed at Vidya Sagar and is in regular use.

“This validation and evaluation [of the interface and robotic arm] with end users is a major contribution of the study,” says Biswas.

The students with SSMI are able to use the robotic manipulator almost as well as their non-disabled counterparts, and the results were the same during repeated trials. This technology can also be used by younger individuals with SSMI, to move toys like cars.

 

“We are using play as a medium to teach new technologies, which they can use for the rest of their lives,” adds Biswas. Further modifications to this tool could also allow young individuals with SSMI to use it for e-learning.

The authors believe that this interface is a step towards designing future technologies which ensure that physical impairments do not stand in the way of pedagogical training and professional lives of individuals with SSMI. Biswas also says that such a system could be useful for automotive and aeronautical applications, as well as for developing collaborative robots used in smart manufacturing.

Tags: motor skills, robotic arm, indian institute of science (iisc)