Hieroglyphically Supervised Bioinspired Visioneural Controller

Unlike an intelligent microcontroller, biologic neural networks maintain active control throughout their operation, while the former usually needs to be disengaged during maintenance or software updates. Ideally, artificial intelligent control systems incorporate an incremental learning capability, without having the need to be retrained offline. Moreover, some hardware-based neural networks (HNNs) rely on complementary software simulators during training. Such approaches decrease their potential to implement real-time adaption, in a similar manner to their biologic counterparts. Herein, an independent, bioinspired robotic vision system with an incremental learning ability is presented. The system is trained and operated by associating instructions with hieroglyphic symbols and used to maneuver a robotic vehicle. A neural processor, capable of incremental online learning, forms the basis for the decision-making flow. The entire range of functionality, starting from training, data storage, and up to controlling, is demonstrated herein.

Automated summary

This article presents an independent bioinspired robotic vision system with an incremental learning ability. The system is trained and operated by associating instructions with hieroglyphic symbols, and the entire range of functionality is demonstrated.