Abstract :
Numerous attempts are being made to develop machines that could act not only autonomously, but also in an increasingly intelligent and cognitive manner. Such cognitive machines ought to be aware of their environments which include not only other machines, but also human beings. Such machines ought to understand the meaning of information in more human-like ways by grounding knowledge in the physical world and in the machines´ own goals. The motivation for developing such machines range from self-evidenced practical reasons such as the expense of computer maintenance, to wearable computing in health care, and gaining a better understanding of the cognitive capabilities of the human brain. To achieve such an ambitious goal requires solutions to many problems, ranging from human perception, attention, concept creation, cognition, consciousness, executive processes guided by emotions and value, and symbiotic conversational human-machine interactions. This paper discusses some of the challenges emerging from this new design paradigm, including systemic problems, design issues, teaching the subjects to undergraduate students in electrical and computer engineering programs, research related to design.
Keywords :
cognitive systems; computer aided instruction; computer science education; electrical engineering education; human computer interaction; cognitive machines; computer maintenance; concept creation; health care; human brain; human perception; human-machine interactions; intelligent systems; undergraduate students; wearable computing; Cognition; Education; Grounding; Humans; Intelligent systems; Machine intelligence; Man machine systems; Medical services; Symbiosis; Wearable computers; Design paradigms; adaptive machines; cognitive informatics; cognitive machines; intelligent machines;
