Filtreler
A high-precision, low cost system for evaluating finger-tapping tasks

Kiziltan E. | Barut C. | Gelir E.

Article | 2006 | International Journal of Neuroscience116 ( 12 ) , pp.1471 - 1480

Finger-tapping test is extensively employed to assess motor asymmetry in brain damaged patients and also to study the relationship between handedness and performance in normal subjects. The aim of this study was to develop a computer based finger-tapping system that could provide quantitative measures of finger-tapping performance. The system is designed to be used in a standard personel computer without the need of any other hardware. The software is written in Borland Delphi® 6.0 for Microsoft® Windows 98® and higher operating systems. Beginning with the Pentium® processor, it could be possible to access a time-stamp counter. The . . .time-stamp counter is a 64-bit machine specific register that is incremented by every clock cycle, and keeps an accurate count of every cycle that occurs on the processor. By using a computer with 1 GHz processor speed it is possible to reach a high precision time resolution of 1 µs in finger-tapping tests. Our future prospects for the system are to improve it with various tools such as synchronized recording of electromyography, tapping force monitoring, monitoring of finger angle, and the response to different stimulus parameters by adding appropriate hardware and procedure. Copyright © 2006 Informa Healthcare Daha fazlası Daha az

Cell Master: A Versatile and User-Friendly Educational Software for Simulation of Neuronal Dynamics

Ozcan, Zubeyir | Kayikcioglu, Ilknur | Yildirim, Omer | Kose, Cemal | Kayikcioglu, Temel

Conference Object | 2018 | 2018 MEDICAL TECHNOLOGIES NATIONAL CONGRESS (TIPTEKNO) , pp.1471 - 1480

In this study, A user-friendly, versatile and easily accessible educational software design was done by using NEURON hoc programming in order to investigate the dynamics, biophysical properties of nerve cells and their responses to various stimulation. With the help of interfaces which prepared for users to be assisted visually, it is aimed to be able to easily perform almost any application desired. This software allows users to perform their simulations without the need to write any code. Considering the features given in detail in the study, it has been suggested to use the software in neuroscience education.

Cell Master: A Versatile and User-Friendly Educational Software for Simulation of Neuronal Dynamics [Cell Master: Nöronal Dinamiklerin Simülasyonu için Çok Yönlü ve Kullanici Dostu Bir Egitim Yazilimi]

Ozcan Z. | Kayikçioglu I. | Yildirim O. | Köse C. | Kayikçioglu T.

Conference Object | 2018 | 2018 Medical Technologies National Congress, TIPTEKNO 2018 , pp.1471 - 1480

In this study, A user-friendly, versatile and easily accessible educational software design was done by using NEURON hoc programming in order to investigate the dynamics, biophysical properties of nerve cells and their responses to various stimulation. With the help of interfaces which prepared for users to be assisted visually, it is aimed to be able to easily perform almost any application desired. This software allows users to perform their simulations without the need to write any code. Considering the features given in detail in the study, it has been suggested to use the software in neuroscience education. © 2018 IEEE.

6698 sayılı Kişisel Verilerin Korunması Kanunu kapsamında yükümlülüklerimiz ve çerez politikamız hakkında bilgi sahibi olmak için alttaki bağlantıyı kullanabilirsiniz.

creativecommons
Bu site altında yer alan tüm kaynaklar Creative Commons Alıntı-GayriTicari-Türetilemez 4.0 Uluslararası Lisansı ile lisanslanmıştır.
Platforms