Abstract
This manuscript contains a brief overview of the work being carried out by the author under the aegis of Visvesvaraya Young Faculty Research Fellowship awarded to him by the Ministry of Electronics and Information Technology (MeitY), India.
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References
Aqueel A, Ansari MS (2017) Subthreshold cmos low-transconductance ota for powerline interference elimination notch. In: Region 10 conference, TENCON 2017–2017 IEEE, pp 510–515
Aqueel A, Ansari MS, Maheshwari S (2017) Subthreshold cmos low-transconductance ota based low-pass notch for eeg applications. In: IEEE International conference on multimedia, signal processing and communication technologies (IMPACT), 2017, pp 247–251
Chen C, Chen L, Wang X, Zhang F (2018) A 66-db sndr, 8-\(\mu \)w analog front-end for ecg/eeg recording application. In: 2018 IEEE international symposium on circuits and systems (ISCAS), pp 1–4
Kosari A, Breiholz J, Liu N, Calhoun B, Wentzloff D (2018) A 0.5 v 68 nw ecg monitoring analog front-end for arrhythmia diagnosis. J Low Power Electron Appl 8(3):27
Mahmoud SA, Bamakhramah A, Al-Tunaiji SA (2013) Low-noise low-pass filter for ecg portable detection systems with digitally programmable range. Circ Syst Signal Process 32(5):2029–2045
Mahmoud SA, Bamakhramah A, Al-Tunaiji SA (2014) Six order cascaded power line notch filter for ecg detection systems with noise shaping. Circ Syst Signal Process 33(8):2385–2400
Qian X, Xu YP, Li X (2005) A cmos continuous-time low-pass notch filter for eeg systems. Analog Integr Circ Signal Process 44(3):231–238
Ranjan RK, Choubey CK, Nagar BC, Paul SK (2016) Comb filter for elimination of unwanted power line interference in biomedical signal. J Circ Syst Comput 25(06):1650052
Sinha R, Khot S, Ansari MS (2015) A 22nm\(\pm \)0.95 v cmos ota-c front-end with 50/60 hz notch for biomedical signal acquisition. In: IEEE International conference on power and advanced control engineering (ICPACE), pp 295–299
Tiwari A, Sahu AK (2016) Low noise elliptical filter in 250 nanometer technology for eeg signals. Digital Signal Process 8(5):126–129
Wang K, Chang Ch, Onabajo M (2014) A fully-differential cmos low-pass notch filter for biosignal measurement devices with high interference rejection. In: 2014 IEEE 57th international midwest symposium on circuits and systems (MWSCAS), pp 1041–1044
Xu J, Konijnenburg M, Ha H, van Wegberg R, Song S, Blanco-Almazán D, Van Hoof C, Van Helleputte N (2018) A 36 \(\mu \)w 1.1 mm2 reconfigurable analog front-end for cardiovascular and respiratory signals recording. IEEE Trans Biomed Circ Syst 99:1–10
Yener ŞÇ, Uygur A, Kuntman HH (2016) Ultra low-voltage ultra low-power memristor based band-pass filter design and its application to eeg signal processing. Analog Integr Circ Signal Process 89(3):719–726
Zhu Z, Bai W (2016) A 0.5-V 1.3-\(\mu \)W analog front-end CMOS circuit. IEEE Trans Circ Syst II Express Briefs 63(6):523–527
Acknowledgements
The Visvesvaraya Young Faculty Research Fellowship granted under the Visvesvaraya PhD Scheme was instrumental in procuring the hardware on which simulations of all the proposed works were carried out. Furthermore, the fellowship also facilitated the payment of the application fee(s) for the patents filed out of this work. Last, but not the least, the fellowship also enabled the fellow to attend workshops and conferences opening up pathways for learning and networking with researches working in related fields.
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Ansari, M.S. Analog front-end design for biomedical signal acquisition systems. CSIT 7, 199–204 (2019). https://doi.org/10.1007/s40012-019-00232-z
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DOI: https://doi.org/10.1007/s40012-019-00232-z