# Intelligent architectures for robotics: The merging of cognition and   emotion

**Authors:** Luiz Pessoa

arXiv: 1902.00363 · 2020-01-29

## TL;DR

This paper advocates for integrating emotion and motivation directly into all aspects of robotic architecture, emphasizing cognitive-emotional unity for more sophisticated AI.

## Contribution

It introduces a comprehensive framework for embedding emotion within all computational processes of autonomous agents, moving beyond modular approaches.

## Key findings

- Proposes the cognitive-emotional integration as a key design principle.
- Introduces the Dolores test to evaluate integrated cognitive-emotional AI.
- Argues that separate modules are insufficient for advanced artificial intelligence.

## Abstract

What is the place of emotion in intelligent robots? In the past two decades, researchers have advocated for the inclusion of some emotion-related components in the general information processing architecture of autonomous agents, say, for better communication with humans, or to instill a sense of urgency to action. The framework advanced here goes beyond these approaches and proposes that emotion and motivation need to be integrated with all aspects of the architecture. Thus, cognitive-emotional integration is a key design principle. Emotion is not an "add on" that endows a robot with "feelings" (for instance, reporting or expressing its internal state). It allows the significance of percepts, plans, and actions to be an integral part of all its computations. It is hypothesized that a sophisticated artificial intelligence cannot be built from separate cognitive and emotional modules. A hypothetical test inspired by the Turing test, called the Dolores test, is proposed to test this assertion.

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Source: https://tomesphere.com/paper/1902.00363