Brain Inspired Color Feature Selection Chip

Xie, Sheng; Wang, Lihua; Mao, Xurui; Cong, Jason; Zhao, Yuhao; Chen, Hongda

doi:10.1109/jphot.2022.3205585

Cited by 2 publications

(1 citation statement)

References 35 publications

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“…By introducing a negative voltage pulse, a neuromorphic device can adapt to light and avoid possible damage from strong light, as shown in Figure 5 e [ 109 ]. At the same time, a neural network can reduce the response of nerve impulses near the target, and color recognition can be demonstrated [ 120 ]. Different neuromorphic devices can be designed to realize light absorption for the recognition of different colors, as shown in Figure 5 f [ 115 , 116 , 121 , 122 ].…”

Section: Neuromorphic Applicationsmentioning

confidence: 99%

Metal-Oxide Heterojunction: From Material Process to Neuromorphic Applications

Diao,

Zhang,

et al. 2023

Sensors

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As technologies like the Internet, artificial intelligence, and big data evolve at a rapid pace, computer architecture is transitioning from compute-intensive to memory-intensive. However, traditional von Neumann architectures encounter bottlenecks in addressing modern computational challenges. The emulation of the behaviors of a synapse at the device level by ionic/electronic devices has shown promising potential in future neural-inspired and compact artificial intelligence systems. To address these issues, this review thoroughly investigates the recent progress in metal-oxide heterostructures for neuromorphic applications. These heterostructures not only offer low power consumption and high stability but also possess optimized electrical characteristics via interface engineering. The paper first outlines various synthesis methods for metal oxides and then summarizes the neuromorphic devices using these materials and their heterostructures. More importantly, we review the emerging multifunctional applications, including neuromorphic vision, touch, and pain systems. Finally, we summarize the future prospects of neuromorphic devices with metal-oxide heterostructures and list the current challenges while offering potential solutions. This review provides insights into the design and construction of metal-oxide devices and their applications for neuromorphic systems.

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Section: Neuromorphic Applicationsmentioning

confidence: 99%

Metal-Oxide Heterojunction: From Material Process to Neuromorphic Applications

Diao,

Zhang,

et al. 2023

Sensors

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Brain inspired optoelectronic integrated receiver chip for wireless optical communication

Xie

Zhao²,

Wang³

et al. 2022

Front. Phys.

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Inspired by the mechanism of visual attentional selection, a wireless optical communication (WOC) Integrated receiver consisting of a vertical double junction photodetector (VDJ-PD) and an attentional selection circuit (ASC) is presented. The whole receiver is fabricated in standard CMOS technology. The VDJ-PD can realize optical signal detection and wavelength identification. The attentional selection circuit activates the competition among the two PN junctions in VDJ-PD to select the signal with significant feature in real-time while discarding non-significant signals. A higher-order signal modulation scheme is applied by the proposed receiver to obtain a high transfer rate, and all data are decoded using color features. The optical testing results show that parallel and real-time communication of the red and blue light can be achieved, and the rise time is 4.47 μs. To measure the anti-interference performance of the receiver, a water tank is used to simulate a harsh communication environment. Results indicate that the real-time and reliable communication requirements in a harsh channel condition are satisfied. When the percentage ratio between the intensity of stray light relative to the light with maximum intensity is 84%, an accurate information decoding can still be achieved. Moreover, the whole processing procedure does not require the participation of ADC, CPU and memory, consequently avoiding the von Neumann bottleneck.

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Brain Inspired Color Feature Selection Chip

Cited by 2 publications

References 35 publications

Metal-Oxide Heterojunction: From Material Process to Neuromorphic Applications

Metal-Oxide Heterojunction: From Material Process to Neuromorphic Applications

Brain inspired optoelectronic integrated receiver chip for wireless optical communication

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