[1]Djoko Purwanto, Ronny Mardiyanto and Kohei Arai, Electric wheel chair control with gaze detection and eye blinking, Artificial Life and Robotics, AROB Journal, 14, 694,397-400, 2009.

[2]Kohei Arai and Makoto Yamaura, Computer input with human eyes only using two Purkinje images which works in a real time basis without calibration, International Journal of Human Computer Interaction, 1,3, 71-82,2010

[3]Kohei Arai, Ronny Mardiyanto, A prototype of electric wheel chair control by eye only for paralyzed user, Journal of Robotics and Mechatronics, 23, 1, 66-75, 2010.

[4]Djoko Purwanto, Ronny Mardiyanto, Kohei Arai, Electric wheel chair control with gaze detection and eye blinking, Proceedings of the International Symposium on Artificial Life and Robotics, GS9-4, 2009.

[5]Kohei Arai and Kenro Yajima, Communication Aid and Computer Input System with Human Eyes Only, Electronics and Communications in Japan,Volume 93, Number 12, 2010, pages 1-9, John Wiley and Sons, Inc., 2010.

[6]Kohei Arai, Ronny Mardiyanto, Evaluation of users' impact for using the proposed eye based HCI with moving and fixed keyboard by using eeg signals, International Journal of Research and Reviews on Computer Science, 2, 6, 1228-1234, 2011.

[7]Kohei Arai, Kenro Yajima, Robot arm utilized having meal support system based on computer input by human eyes only, International Journal of Human-Computer Interaction, 2, 1, 120-128, 2011.

[8]Kohei Arai, Ronny Mardiyanto, Autonomous control of eye based electric wheel chair with obstacle avoidance and shortest path finding based on Dijkstra algorithm, International Journal of Advanced Computer Science and Applications, 2, 12, 19-25, 2011.

[9]Kohei Arai, Ronny Mardiyanto, Eye-based human-computer interaction allowing phoning, reading e-book/e-comic/e-learning, Internet browsing and TV information extraction, International Journal of Advanced Computer Science and Applications, 2, 12, 26-32, 2011.

[10]Kohei Arai, Ronny Mardiyanto, Eye based electric wheel chair control system-I(eye) can control EWC-, International Journal of Advanced Computer Science and Applications, 2, 12, 98-105, 2011.

[11]Kohei Arai, Ronny Mardiyanto, Electric wheel chair controlled by human eyes only with obstacle avoidance, International Journal of Research and Reviews on Computer Science, 2, 6, 1235-1242, 2011.

[12]Kohei Arai, Ronny Mardiyanto, Evaluation of users' impact for using the proposed eye based HCI with moving and fixed keyboard by using eeg signals, International Journal of Research and Reviews on Computer Science, 2, 6, 1228-1234, 2011.

[13]K.Arai, R.Mardiyanto, Evaluation of users' impact for using the proposed eye based HCI with moving and fixed keyboard by using eeg signals, International Journal of Research and review on Computer Science, 2, 6, 1228-1234, 2012.

[14]K.Arai, R.Mardiyanto, Electric wheel chair controlled by human eyes only with obstacle avoidance, International Journal of Research and review on Computer Science, 2, 6, 1235-1242, 2012.

[15]R.Mardiyanto, K.Arai, Eye-based Human Computer Interaction (HCI) A new keyboard for improving accuracy and minimizing fatigue effect, Scientific Journal Kursor, (ISSN 0216-0544), 6, 3, 1-4, 2012.

[16]K.Arai, R.Mardiyanto, Moving keyboard for eye-based Human Computer Interaction: HCI, Journal of Image and Electronics Society of Japan, 41, 4, 398-405, 2012.

[17]Kohei Arai, Ronny Mardiyanto, Eye-based domestic robot allowing patient to be self-services and communications remotely, International Journal of Advanced Research in Artificial Intelligence, 2, 2, 29-33, 2013.

[18]Kohei Arai, Ronny Mardiaynto, Method for psychological status estimation by gaze location monitoring using eye-based Human-Computer Interaction, International Journal of Advanced Computer Science and Applications, 4, 3, 199-206, 2013.

[19]Kohei Arai, Kiyoshi Hasegawa, Method for psychological status monitoring with line of sight vector changes (Human eyes movements) detected with wearing glass, International Journal of Advanced Research in Artificial Intelligence, 2, 6, 65-70, 2013.

[20]Kohei Arai, Wearable computing system with input output devices based on eye-based Human Computer Interaction: HCI allowing location based web services, International Journal of Advanced Research in Artificial Intelligence, 2, 8, 34-39, 2013.

[21]Kohei Arai Ronny Mardiyanto, Speed and vibration performance as well as obstacle avoidance performance of electric wheel chair controlled by human eyes only, International Journal of Advanced Research in Artificial Intelligence, 3, 1, 8-15, 2014.

[22]Kohei Arai Ronny Mardiyanto, Speed and vibration performance as well as obstacle avoidance performance of electric wheel chair controlled by human eyes only, International Journal of Advanced Research in Artificial Intelligence, 3, 1, 8-15, 2014.