We introduced an ENT designed for visualized in-sensor computing. This neuromorphic device represents a significant advancement to utilize the update of chameleonic color changes as a measure of synaptic weight. It showcases visualized weight updating, simulating the multidimensional tuning of synaptic we...
We present the pioneering design and production of an electrochromic neuromorphic transistor employing color updates to represent synaptic weight for in-sensor computing. Here, we engineer a specialized mechanism for adaptively regulating ion doping through an ion-exchange membrane, enabling precise control...
Briefly, embodiments disclosed herein may relate to re-physicalization of captured physical signals and/or sensor measurements and to generation of user-perceivable output content from a computing device based at least in part on the re-physicalization.Alan McCord...
Briefly, embodiments disclosed herein may relate to re-physicalization of captured physical signals and/or sensor measurements and to generation of user-perceivable output content from a computing device based at least in part on the re-physicalization.ALAN MCCORD...
The volume of data involved in these processes is significantly reduced, which is particularly critical in resource-constrained sensor environments. Moreover, unlike most existing compressed-sensing-based methods that often merely use deterministic measurement matrices to compress data, the proposed method ...