about
Digital implementation of a biological astrocyte model and its application.Complete Neuron-Astrocyte Interaction Model: Digital Multiplierless Design and Networking Mechanism.A generalized analog implementation of piecewise linear neuron models using CCII building blocks.An analog implementation of biologically plausible neurons using CCII building blocks.Implementation of adaptive neuron based on memristor and memcapacitor emulatorsA digital implementation of 2D Hindmarsh–Rose neuronPulse Width Modulation (PWM) Signals Based on Spiking Neuronal NetworksA 2M1M Crossbar Architecture: MemoryA digital implementation of 2D Hindmarsh–Rose neuronRealistic Hodgkin–Huxley Axons Using Stochastic Behavior of MemristorsA hybrid memristor-CMOS multiplier design based on memristive universal logic gatesA memristor based binary multiplierA novel CVNS adder with memristive analog memoryAccurate charge transport model for nanoionic memristive devicesBrain-inspired pattern classification with memristive neural network using the Hodgkin-Huxley neuronFixed-point arithmetic error analysis of sparse LU decomposition on FPGAsLogic Design on Mirrored Memristive CrossbarsPulse width modulation (PWM) signals using spiking neuronal networksRFID Tag Design Using Spiral Resonators and Defected Ground StructureSTDP-based unsupervised learning of memristive spiking neural network by Morris-Lecar modelSecure authentication and access mechanism for IoT wireless sensorsTransient response characteristic of memristor circuits and biological-like current spikesEffect of spike-timing-dependent plasticity on neural assembly computingA CORDIC Based Digital Hardware For Adaptive Exponential Integrate and Fire NeuronA cellular automata based Izhikevich neuron modelA low-cost and flexible FPGA implementation for SPECK block CipherA modified Izhikevich model for circuit implementation of spiking neural networksA modified synapse model for neuromorphic circuitsA novel hybrid CMOS-memristor logic circuit using Memristor Ratioed LogicAn integrated astrocyte-adaptive exponential (AAdEx) neuron and circuit implementationAnalog cellular neural network for application in physical unclonable functionsConcurrent dual-band 1.8/2.4 GHz LNA using miller effect of the gate-drain capacitorDesign of a compact multi-mode UWB band pass filter with flexible notch band employing interdigital coupled linesEvolving Spiking Neural Networks of artificial creatures using Genetic AlgorithmHardware implementation of deep brain stimulator on a biophysical neural population modelHardware realization of a dq based fault detection scheme for 3φ four-leg inverterHigh accuracy implementation of Adaptive Exponential integrated and fire neuron modelMemristor-based 4:2 compressor cells designTowards an spiking deep belief network for face recognition applicationVLSI implementable neuron-astrocyte control mechanism
P50
Q40245368-DF0DF7DE-3A7C-456D-81C0-D5E777D7AE38Q40407534-0DBEB4AA-5987-4D65-8B11-0944F5263296Q44118359-8194C401-0BB4-40F3-8577-80F93C945B8CQ51305869-5E19DAE7-267B-49A3-814A-D671AE89BFDAQ57516362-2FF8FA2B-B8F9-41DC-9B77-C4F058E7E736Q57516364-C0294DA3-0473-4AC7-ABD7-F17C343C6483Q57516370-FBE70294-E8C3-4C24-AD7D-39BC918BCAB7Q57516376-5591AE5A-15BB-49A8-9DC7-692577F004E3Q57516378-9AF0D97D-EC56-422A-958B-40AF5FBEE42EQ57516380-F3D1CC2E-FCBF-42CB-A822-5E781D382014Q57516381-8EDBE625-F684-42F2-AAEE-981C74EA83AAQ57516383-1988BA92-0F8C-4B98-B7E4-8C4BCC1A8DA9Q57516385-61D8B672-0B99-41F3-87C6-E57B318E6C58Q57516387-9DCA1F8A-17E2-45C4-A9D9-C6E36890C487Q57516389-41ED86A1-E85F-4EDC-A4D7-A50A147E8FFCQ57516392-E85C93FE-FC67-41CE-B35B-87F33CEB3D0AQ57516394-358E13B2-9288-4186-86D1-06D31948A359Q57516396-834881FD-CBFC-4DDC-818F-A6A1572ABA11Q57516398-4545FB00-1563-4ED5-87E1-578BF0AD3959Q57516400-94DDE97C-11FA-47D5-9DB3-C38A4E85F243Q57516404-5DAA7227-E84F-4EF1-818D-9F8A05292744Q57516407-96DF46C2-8EA5-442D-B48D-9D81EC0C8376Q57516410-8A6DAF0D-0609-4A9D-B862-175605F75624Q57516412-9A5ABB7F-683F-47A1-B8E1-BBF2EF55CE0AQ57516414-C50951C0-181E-4E74-A34E-2FDFC4E81FF2Q57516416-896C3DF5-903B-4483-987E-4317105A301BQ57516418-40F12C1F-2048-49BE-A989-C358FF025575Q57516423-D79921B9-1B72-43D5-83FC-653115D36FE6Q57516425-CB116002-3D66-47FE-AA81-D0D89EC4105EQ57516428-66A675BB-70C5-4E0D-827A-8CADFADB0B1CQ57516431-16734E7A-B02B-407B-9412-1205556A37FAQ57516433-3F3F7D5D-1B69-4944-8D47-62397AD3A87FQ57516435-174087F8-3188-43D3-AB94-DFA3EFCFCB20Q57516437-CA85A4E9-6797-4A85-8AFF-3BE30C9A7890Q57516439-9FC3D226-6CA0-4509-8A00-49E83CD159A0Q57516441-56BF8E12-4CE9-4AFF-B7E5-25C73BAD3F41Q57516443-D1B744B8-EA09-4029-BA17-3B2B97FA8421Q57516446-29A15339-E681-4F7E-B58F-6061392F5FECQ57516448-83470421-92AD-43E3-BA47-F69AC380504FQ57516451-5B245D2F-3E7F-4A82-B7D0-CD2676644087
P50
description
onderzoeker
@nl
researcher
@en
հետազոտող
@hy
name
Arash Ahmadi
@ast
Arash Ahmadi
@en
Arash Ahmadi
@es
Arash Ahmadi
@nl
Arash Ahmadi
@sl
type
label
Arash Ahmadi
@ast
Arash Ahmadi
@en
Arash Ahmadi
@es
Arash Ahmadi
@nl
Arash Ahmadi
@sl
prefLabel
Arash Ahmadi
@ast
Arash Ahmadi
@en
Arash Ahmadi
@es
Arash Ahmadi
@nl
Arash Ahmadi
@sl
P108
P1053
D-8852-2011
P106
P1153
36117624400
P2456
P2798
P31
P3829
P3835
arash-ahmadi6
P496
0000-0001-5094-5967