Silvia Ferrari: "Active Sensing and Perception Under Pressure"

Silvia Ferrari - Cornell University

Unmanned ground, aerial, and underwater vehicles or robots equipped with on-board wireless sensors are becoming crucial to both civilian and military applications because of their ability to replace or assist humans in carrying out dangerous yet vital missions. In many cases, these robots are deployed for the primary purpose of gathering information from unstructured and uncertain environments and, therefore, must decide future actions intelligently based on the sensor measurements and environmental information. Recent work on information-driven sensor path planning has shown that the performance of these sensors can be significantly improved by planning their paths based on probabilistic sensor models, and on the geometric characteristics of the workspace and of the sensor field-of-view or visibility region. This talk discusses recent collaborative studies on satisficing decision making in human and primate subjects aimed at uncovering how these decisions can be made under pressure. High-fidelity simulations and virtual reality (VR) environments are used to present the same treasure hunt problems to human and non-human subjects, as well as robots. The goal is to develop a general framework by which feature selection and heuristics can be combined with traditional information-driven methods for path planning and control laws in active sensing and information gathering. Studies show that an adaptive approach, known as adaptive evidence accumulation, by which only the most informative cues are used to make decisions under pressure can be applied to autonomous sensors. As a result, future sensors will be able to conduct challenging missions under external pressures, such as sensory deprivation, time constraints, energy limitations, and insufficient data.

Your comment