@article{oai:kyutech.repo.nii.ac.jp:00007531,
 author = {Hadiyawarman and Usami, Yuki and 宇佐美, 雄生 and Kotooka,  Takumi and Azhari,  Saman and Eguchi,  Masanori and Tanaka, Hirofumi and 田中, 啓文},
 issue = {SC},
 journal = {Japanese Journal of Applied Physics},
 month = {Feb},
 note = {Reservoir computing (RC), a low-power computational framework derived from recurrent neural networks, is suitable for temporal/sequential data processing. Here, we report the development of RC devices utilizing Ag–Ag2S core–shell nanoparticles (NPs), synthesized by a simple wet chemical protocol, as the reservoir layer. We examined the NP-based reservoir layer for the required properties of RC hardware, such as echo state property, and then performed the benchmark tasks. Our study on NP-based reservoirs highlighted the importance of the dynamics between the NPs as indicated by the rich high dimensionality due to the echo state property. These dynamics affected the accuracy (up to 99%) of the target waveforms that were generated with a low number of readout channels. Our study demonstrates the great potential of Ag–Ag2S NPs for the development of next-generation RC hardware.},
 pages = {SCCF02-1--SCCF02-5},
 title = {Performance of Ag–Ag2S core–shell nanoparticle-based random network reservoir computing device},
 volume = {60},
 year = {2021},
 yomi = {ウサミ, ユウキ and タナカ, ヒロフミ}
}