Electric Wheelchair Future Technology

Devices controlled with brain-waves are becoming a reality. On Monday, June 29th 2009, Toyota demonstrated an electric wheelchair, controlled by user’s brain waves. Approach is similar to other stories we covered in past (Live demo of mind-controlled electric wheelchair, Brain Controlled Electric Wheelchair and Mind Controlled Mouse Pointer (part 1), Brain Controlled Electric Wheelchair and Mind Computer Mouse Pointer (part 3 + The conclusion), Intelligent Autonomous Remote Controlled Electric Wheelchair).

User still needs to attach sensor grid on the head. The EEG sensor cap  measures electrical activity in the brain through five electroencephalography (EEG) electrodes. These are placed above the areas of the brain which handle motor movement. The sensors interpret the signals they pick up and translate them into motion.   System processes thought patterns without learning or training and translates them into movement of wheelchair. Electric wheelchair can accordingly move left, right or forward. Sensory system is processing data in real time, so delay between the thought and action of wheelchair is less than 125 ms. Competitive solutions require substantially more time – growing to seconds, which makes movement less natural and more difficult. Toyota’s solution (well, actually Toyota is only a sponsor of researchers from BSI-Toyota collaboration center) does not require the driver to learn special “signals”, but instead this mind-controlled electrical wheelchair will move forward when driver thinks of walking. According to Toyota the wheelchair is able to understand a record 95% of all commands coming from the drivers.

Toyota representatives described growing demand on similar accessibility products by Japan’s growing older population (in 40 years the percentage of seniors will account for more than 40% of Japanese population). Thinking is natural, and requires less learning so  brain-machine interface system will be more robust and simpler than voice-controlled system. System even “learns” by analyzing the behavior of the driver, which means that driver can improve the accuracy over time.

Japan has been always very strong in advanced robotics, and recent encourage by government fueled new research and development even further. It comes as no surprise, that other Japanese companies like Honda and Hitachi, are also working on brain-wave-machine technologies.

Read more >>>

In start of October, a powered wheelchair that moves when user thinks on particular word, was demonstrated by American company Ambient. The electric wheelchair operates by catching the signals sent from

user's brain to their larynx (voice box), even when there is no audiable sound. Wheelchair was developed to help people with spinal injuries, or neurological problems like cerebral palsy or motor neurone disease. This revolutionary brain interface allows user to operate computer and other equipment despite serious problems with muscle control. Similar to autonomous remote controlled electric wheelchair we already wrote about, this system allows user even more freedom, as all user has to do is think of the word. System consists of larynx (voice box), which user must be able to operate – and most likely can, even in the event of poor muscle coordination necessary to produce coherent speech.

This breakthrough voice boy system called larynx control system, or shortly "Audeo", was developed by researchers Michael Callahan and Thomas Coleman at University of Illinois at Urbana-Champaign, US, who together also founded Ambient. 

Read more >>>

ALTERNATIVES

This is part 3 and conclusion of brain controlled assistive devices future… We have reviewed three products already on the market (or in last stages of development), and today we will check what else is out there, and what alternatives exist… At the end, we will wrap our closing thoughts on cost and whether and when pricing of these devices will fall on more acceptable levels…

OCZ's Neural Impulse Actuator

The newest player in brain controller technology is PC memory maker OCZ, known especially in over clocking community. Their latest brainchild, the Actuator (based on Cyberlink's Brainfingers) claims to bring mind controlled functionality to mass market for a price below $300. Device is identical to Brainfingers, therefore we will not review it in depth. It will suffice to say, that it tracks movement of user’s eyes, monitors brain waves and picks up facial muscle movements uses recorded signals to link to input commands on the computer, allowing user to play Tetris or even a first person shooter, or trigger external commands, i.e. piloting electric wheelchair

Read more >>>

This is part 2 of brain controlled assistive devices future…

In first part of the article, we already reviewed the Cyberlink Brainfingers device, and this is the continuation of the article, covering the other two products on market…

The notion of using brain activity to interact with devices isn't new. A number of schools–such as the University of Minnesota; University of California, San Diego; and Purdue–have research labs devoted to decoding thoughts from the brain and manipulating cursors on a screen, which is especially useful for disabled people. In addition, companies have cropped up in the past couple of years claiming to offer an effective brain-computer interface for video games or for biofeedback purposes. For instance, S.M.A.R.T. BrainGames, a company based in San Marcos, CA, sells EEG caps designed to treat people with attention deficit/hyperactivity disorder…

Read more >>>

Recently we had an opportunity to see interesting BCI solutions (Brain-Computer Interface), that provide a new communication channel between the human brain and the computer (also allowing operating various devices). As you probably know, mental activity leads to changes of electrophysiological signals like the Electroencephalogram (EEG) or Electrocorticogram (ECoG), and BCI systems detect such changes and transform them into control signals which can, for example, be used as control devices for operating electric wheelchairs.

One of the main goals for BCI devices is to enable completely paralyzed patients (locked-in syndrome) to interact with world around them (use mouse pointer on computer, communicate over internet) and to make their life more accessible (operating electronic devices, driving electric powered wheelchair)…

What seemed to be science fiction yet a decade ago is now a reality. We witnessed the demonstration of three devices, developed by companies with completely different background. The operating details for three devices are way different, yet all devices follow the similar concept, but come at different price tag and availability. Cyberlink’s Brainfingers is already on the market, Emotiv’s is in final stages of development and is scheduled for 2008, and the most advanced one, Guger Technology's g.BCI is still in research and development, although it already shows remarkable advancements.

Read more >>>