Brain hackers: Difference between revisions

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Some relevant reading for those who want to go hardcore :-)  
Some relevant reading for those who want to go hardcore :-)  
Of course it is far from being complete and needs to be updated, oh well...
Of course it is far from being complete and needs to constantly be updated, oh well...
   
   


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* '''Accessible measurement methodologies and BCI'''
* '''Accessible measurement methodologies and BCI'''


 
[[Brain_hackers/bib/measurements|Accessible measurement methodologies and BCI]]
Abraham T, Feng J. Evolution of brain imaging instrumentation. Semin Nucl Med. 2011 May;41(3):202-19.
 
Baillet S, Mosher JC, Laehy RM. Electromagnetic brain mapping. IEEE Signal Processing Magazine 2001;Nov:14–30.
 
Bauer H. Slow potential topography. Behav Res Methods Instrum Comput 30: 20–33, 1998.
 
Bauer H, Korunka C, and Leodolter M. Technical requirements for high quality scalp DC recordings. Electroencephalogr Clin Neurophysiol 72:545–547, 1989.
 
Besson JM, Woody CD, Aleonard P, Thompson HK, Albe-Fessard D, and Marshall WH. Correlations of brain DC shifts with changes in cerebral blood flow. Am J Physiol 218: 284–291, 1970.
 
Birbaumer N, Elbert T, Canavan AG, and Rockstroh B. Slow potentials of the cerebral cortex and behavior. Physiol Rev 70: 1–41, 1990.
 
Chesler M and Kaila K. Modulation of pH by neuronal activity. Trends Neurosci 15: 396–402, 1992.
 
Kaila K and Ransom BR. Concept of pH and its importance in neurobiology. In: pH and Brain Function, edited by K Kaila and BR Ransom. New York: Wiley-Liss, 1998, p. 3–10.
 
Kok, A. (1997). Event-Related-Potential (ERP) Reflections of Mental Resources: A Review and Synthesis. . Biological Psychology, 45, 19-56.
 
Kropotov, J. D. Quantitative EEG, Event-Related Potentials and Neurotherapy. Elsevier, 2009.
 
Hari R., Salmelin R. Human cortical oscillations: a neuromagnetic view through the skull // Trends Neurosci. - 1997. – V.20.- P.44-49.
 
Erin Treacy Solovey et al.  Using fNIRS Brain Sensing in Realistic HCI Settings: Experiments and Guidelines. UIST’09, October 4–7, 2008, Victoria, BC, Canada.
 
Hoshi Y. Functional near-infrared spectroscopy: current status and future prospects. J Biomed Opt. 2007 Nov-Dec;12(6):062106
 
Hoshi, Y. (2009). Near-Infrared Spectroscopy for Studying Higher Cognition Neural Correlates of Thinking (pp. 83-93).
 
Thomas Elbert. Slow Cortical Potentials Reflect the Regulation of Cortical Excitability. Slow potential changes in the human brain : [Proceedings of a NATO Advanced Research Workshop on Slow Potential Changes in the Human Brain, held May 13 - 16, 1990 in Il Ciocco, Italy] / ed. by W. C. McCallum et al. New York : Plenum Press, pp. 235-251.
 
Empson JAC: Human brainwaves: the psychological significance of the electroencephalogram. London, Macmillan; 1986.
 
Fairclough, S. H. (2009). Fundamentals of physiological computing. Interacting with Computers, 21(1-2), 133-145.
 
Ferrari M, Quaresima V. A brief review on the history of human functional near-infrared spectroscopy (fNIRS) development and fields of application. Neuroimage. 2012 Mar 28.
 
Ferrari M, Mottola L, Quaresima V. Principles, Techniques, and Limitations of Near Infrared Spectroscopy. Can J Appl Physiol 2004; 29(4): 463-487.
 
Gersten A, Heimer D, Raz A. Oxygenation and Blood Volume Periodic Waveforms in the Brain. Hunter College preprint 2006;
 
Gevins, A., & Smith, M. (2003). Neurophysiological measures of cognitive workload during human-computer interaction. Theoretical Issues in Ergonomics Science, 4, 113-131.
 
Leanne M. et al. This is Your Brain on Interfaces: Enhancing Usability Testing with Functional Near-Infrared Spectroscopy. CHI 2011, Session: Brain & Bio-sensor Interactions. May 7–12, 2011.
 
Maria Trinidad Herrera Ezquierroa, Patrizia Cherubinob,  Anton Giulio Maglionec, Alfredo Colosimod, Giovanni Vecchiatoc, Tools and techniques to image functional brain activity. International Journal of Bioelectromagnetism Vol. 14, No. 2, pp. 84 - 95, 2012.
 
Michel C, He B. EEG Mapping and source imaging. In: Schomer, D., Lopes da Silva, F.H. (Eds.), Niedermeyer's Electroencephalography. Lippincott Williams & Wilkins, Philadelphia. 2011:1179-1202.
 
Andrea Moreno et al. Neurophysiological, metabolic and cellular compartments that drive neurovascular coupling and neuroimaging signals. Frontiers in Neuroenergetics. March2013. Volume5. Article 3.
 
Nijholt, A., Tan, D., Allison, B., Milan, J. d. R., & Graimann, B. (2008). Brain-computer interfaces for hci and games. Paper presented at the CHI '08 extended abstracts on Human factors in computing systems, Florence, Italy, 3925-3928.
 
Serences JT, Saproo S. Computational advances towards linking BOLD and behavior. Neuropsychologia. 2012 Mar;50(4):435-46.
 
Somjen GG and Tombaugh GC. pH Modulation of neuronal excitability and central nervous system functions. In: pH and Brain Function, edited by K Kaila and BR Ransom. New York: Wiley-Liss, 1998, p. 373–393.
 
Shafi MM, Westover MB, Fox MD, Pascual-Leone A. Exploration and modulation of brain network interactions with noninvasive brain stimulation in combination with neuroimaging. Eur J Neurosci. 2012 Mar;35(6):805-25.
 
Sheth, S.A., Nemoto, M., Guiou, M., Walker,M., Pouratian, N., and Toga, A.W. (2004). Linear and nonlinear relationships between neuronal activity, oxygen metabolism, and hemodynamic responses. Neuron 42, 347–355.
 
M.J. Schroeder, R.E. Barr. Quantitative analysis of the electroencephalogram during cranial electrotherapy stimulation. Clinical Neurophysiology 112 (2001) 2075–2083
 
William O. Tatum. Handbook of EEG interpretation. 2008. ISBN-13: 978-1-933864-11-2
 
Tong F, Pratte MS. Decoding patterns of human brain activity. Annu Rev Psychol. 2012 Jan 10;63:483-509.
 
Tschirgi RD and Taylor JL. Slowly changing bioelectric potentials associated with the blood–brain barrier. Am J Physiol 195: 7–22, 1958.
 
Juha Voipio, Pekka Tallgren, Erkki Heinonen, Sampsa Vanhatalo, and Kai Kaila. Millivolt-Scale DC Shifts in the Human Scalp EEG: Evidence for a Nonneuronal Generator. J Neurophysiol 89: 2208–2214, 2003.
 
Wallin BG. Sympathetic nerve activity underlying electrodermal and cardiovascular reactions in man. Psychophysiology 18: 470–476, 1981.


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