The Information Complexity of Navigating with Momentum

Bente Riegler; Daniel Polani; Volker Steuber

The Information Complexity of Navigating with Momentum

Bente Riegler, Daniel Polani, Volker Steuber

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

Many models of organism navigation concern themselves in essence just with the sequence of locations visited and how to manage it. However, larger and bulkier organisms have also to deal with managing momentum. We expect that this affects the cognitive management of movement. Here we propose a simple model for the information processing complexity of navigation when velocity and acceleration are considered, moving away from a kinematic perspective to a partially dynamic model, to separate the effects of location and momentum management. The work is discussed in the context of recent neurobiological research suggesting that biological agents plan around acceleration and deceleration phases, showing high neural activity during their body's velocity changes.

Original language	English
Title of host publication	The 2022 Conference on Artificial Life
Number of pages	8
Publication status	Accepted/In press - 29 Apr 2022

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title = "The Information Complexity of Navigating with Momentum",

abstract = "Many models of organism navigation concern themselves in essence just with the sequence of locations visited and how to manage it. However, larger and bulkier organisms have also to deal with managing momentum. We expect that this affects the cognitive management of movement. Here we propose a simple model for the information processing complexity of navigation when velocity and acceleration are considered, moving away from a kinematic perspective to a partially dynamic model, to separate the effects of location and momentum management. The work is discussed in the context of recent neurobiological research suggesting that biological agents plan around acceleration and deceleration phases, showing high neural activity during their body's velocity changes.",

author = "Bente Riegler and Daniel Polani and Volker Steuber",

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AU - Riegler, Bente

AU - Polani, Daniel

AU - Steuber, Volker

PY - 2022/4/29

Y1 - 2022/4/29

N2 - Many models of organism navigation concern themselves in essence just with the sequence of locations visited and how to manage it. However, larger and bulkier organisms have also to deal with managing momentum. We expect that this affects the cognitive management of movement. Here we propose a simple model for the information processing complexity of navigation when velocity and acceleration are considered, moving away from a kinematic perspective to a partially dynamic model, to separate the effects of location and momentum management. The work is discussed in the context of recent neurobiological research suggesting that biological agents plan around acceleration and deceleration phases, showing high neural activity during their body's velocity changes.

AB - Many models of organism navigation concern themselves in essence just with the sequence of locations visited and how to manage it. However, larger and bulkier organisms have also to deal with managing momentum. We expect that this affects the cognitive management of movement. Here we propose a simple model for the information processing complexity of navigation when velocity and acceleration are considered, moving away from a kinematic perspective to a partially dynamic model, to separate the effects of location and momentum management. The work is discussed in the context of recent neurobiological research suggesting that biological agents plan around acceleration and deceleration phases, showing high neural activity during their body's velocity changes.

M3 - Conference contribution

BT - The 2022 Conference on Artificial Life

ER -

The Information Complexity of Navigating with Momentum

Abstract

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