Dr.-Ing. Sebastian Neubert

 

Sr. Research Scientist


Main Research Interests


IT-Systems @ Life Science Automation

IoT @ Life Science Automation


Publications



Journale

  1. Neubert, S.; Göde, B.; Gu, X.; Stoll, N.; Thurow, K.:Potential of Laboratory Execution Systems (LES) to simplify the application of Business Process Management Systems (BPMS) in Laboratory Automation. SLAS Technology. 22(2) (2017), pp. 206-216 (doi: 10.1177/2211068216680331)
  2. Ruzaij, M. F.; Neubert, S.; Stoll, N.; Thurow, K.: Low-Cost Hybrid Wheelchair Controller for Quadriplegias and Paralysis Patients. Advances in Science, Technology and Engineering Systems Journal. 2(3), 2017, pp. 687-694 (doi: 10.25046/aj020388)
  3. Ruzaij, M.; Neubert, S.; Stoll, N.; Thurow, K.:Hybrid Voice controller for Intelligent Wheelchair and Rehabilitation Robot using Voice Recognition and Embedded Technologies. Journal of Advanced Computational Intelligence and Intelligent Informatics, 20 (4) (2016), pp. 615-622 (doi: 10.20965/jaciii.2016.p0615)
  4. Neubert, S.; Kreuzfeld, S.; Behrendt, S.; Rieger, A.; Weippert, M.; Thurow, K.; Stoll, R.: Mobile telemonitoring system for applications in occupational and preventive medicine. Arbeitsmedizin, Sozialmedizin, Umweltmedizin. 48(1), pp.17-21
  5. Neubert, S.; Arndt, D.; Thurow, K.; Stoll, R.:Mobile Real-Time Data Acquisition System for Application in Preventive Medicine. Telemedicine and E-Health, 16 (4), 2010, pp. 504-509,doi: 10.1089/tmj.2009.0123.

 

Peer Reviewed Proceedings

  1. Gu, X.; Neubert, S.; Thurow, K.: A new method for the indicator of dynamic scheduling in life science laboratories using artificial neural networks. Proceedings,  IEEE International Instrumentation and Measurement Technology Conference I2MTC 2018, Houston (US), 14.-17.05.2018, pp. 
  2. Al-Okby, M. F. R.; Neubert, S.; Stoll, N.; Thurow, K.: Complimentary functions for intelligent wheelchair head tilt controller. Proceedings, SISY 2017 - IEEE 15th International Symposium on Intelligent Systems and Informatics, Subotica (Serbia), 14.-16.09.2017, pp. 117-122 (art. No. 8080536)
  3. Al-Okby, M. F. R.; Neubert, S.; Stoll, N.; Thurow, K.:Development and testing of intelligent low-cost wheelchair controller for quadriplegics and paralysis patients. Proceedings, 2nd International Conference on Bio-Engineering for Smart Technologies, BioSMART 2017, Paris (F), 30.08.-01.10.2017, 4 pages , Article number 8095330
  4. Neubert, S.; Roddelkopf, T.; Göde, B.; Junginger, S.; Stoll, N.; Thurow, K.: Architecture for a combined Mobile Robot and Human Operator Transportation Solution for the hierarchical Life Science Automation. Proceedings, 4th International Conference on Informatics in Control, Automation and Robotics (ICINCO 2017), Madrid (ES), 26.-28.07.2017, pp. 41-49
  5. Ruzaij, M. F.; Neubert, S.; Stoll, N.; Thurow, K.:A speed compensation algorithm for a head tilts controller used for wheelchairs and rehabilitation applications. Proceedings,IEEE 15th International Symposium on Applied Machine Intelligence and Informatics (SAMI 2017), Herl’any (SK), 26.-28.01.2017, pp. 497-502 (art. No. 7880360)
  6. Ruzaij, M. F.; Neubert, S.; Stoll, N.; Thurow, K.:Design and implementation of low-cost intelligent wheelchair controller for quadriplegias and paralysis patient.Proceedings,IEEE 15th International Symposium on Applied Machine Intelligence and Informatics (SAMI 2017), Herl’any (SK), 26.-28.01.2017, pp. 399-404 (art. No. 7880343)
  7. Gu, X.; Neubert, S.; Stoll, N.; Thurow, K. Intelligent Scheduling Method for Life Science Automation Systems. Proceedings 2016 IEEE International Conference on Multisensor Fusion and Integration, Baden-Baden (DE), 19-21.09.2016, pp. 156-161
  8. Ruzaij, M. F.; Neubert, S.; Stoll, N.; Thurow, K.: Auto Calibrated Head Orientation Controller for Robotic-Wheelchair using MEMS Sensors and Embedded Technology. Proceedings, IEEE Sensor Applications Symposium (SAS) 2016, 20.-22.04.2016, Catania (IT), pp. 433-438 (doi: 10.1109/SAS.2016.7479886), best poster award
  9. Ruzaij, M.F.; Neubert, S.; Stoll, N; Thurow, K.:Multi-Sensor Robotic Wheelchair Controller for Handicap and Quadriplegia Patients Using Embedded Technologies. Proceedings, 9th International Conference on Human System Interaction HSI 2016, 06.-08.07.2016, Portsmouth (UK), pp. 103 - 109, DOI: 10.1109/HSI.2016.7529616
  10. Ruzaij, M. F.; Neubert, S.; Stoll, N.; Thurow, K.: Design and Testing of Low Cost Three-Modes of Operation Voice Controller for Wheelchairs and Rehabilitation Robotics. Proceedings,IEEE 9th International Symposium on Intelligent Signal Processing (WISP), 15.-17.05.2015, Siena (I), pp. 114-119, doi: 10.1109/WISP.2015.7139172