Biodegradable and Flexible Polymer-Based Memristor Possessing Optimized Synaptic Plasticity for Eco-Friendly Wearable Neural Networks with High Energy Efficiency.
Sungjun OhHyungjin KimSeong Eun KimMin-Hwi KimHea-Lim ParkSin-Hyung LeePublished in: Adv. Intell. Syst. (2023)
Keyphrases
- energy efficiency
- neural network
- sensor networks
- power consumption
- energy consumption
- wireless sensor networks
- synaptic plasticity
- data center
- quantum mechanics
- routing protocol
- sensor nodes
- response time
- recurrent neural networks
- artificial neural networks
- synaptic weights
- smart home
- sensor data
- data sets
- spiking neural networks
- neural network model
- fuzzy logic
- low cost
- biologically plausible
- training process
- feed forward
- global optimization
- back propagation
- human computer interaction