The one-day workshop Computational creativity, embodiment, and problem solving is organized by:
- Martyna Meyer (mamey@sdu.dk), SDU
- Bailey Fernandez (bailey_f@mit.edu), MIT
Saturday June 21, 2025
Location: DIAS Seminar Room, SDU Odense Campus
09:00 – 09:30 Welcome coffee and registration
09:30 – 10:00 Introduction to the workshop
Martyna Meyer (SDU) and Bailey Fernandez (MIT)
10:00 – 11:00 Wendy Ross (London Metropolitan University)
“Hylomentation in metareasoning”
10:30 – 11:00 Break
11:00 – 12:00 Ana-Maria Olteteanu (Constructor University Bremen)
“How Not to Be A Lonely A.I.:
Exploring Linguistic and Visual Problem Solving Through Games”
12:00 – 13:00 Lunch
13:00 – 14:00 Sotirios Kotsopoulos (MIT / National Technical University of Athens)
“Design without Representation”
14:00 – 15:00 Sune Vork Steffensen (SDU)
“Problem solving on the edge”
15:00 – 15:30 Break
15:30 – 16:30 Benjamin Angerer (Bielefeld University)
“Where Do Problem Spaces Come From?
On Metaphors and Representational Change”
16:30 End of the workshop
Abstracts
Wendy Ross (London Metropolitan University) — “Hylomentation in metareasoning”
This talk examines hylomentation—the skill of thinking with and through material objects—as a vital component of metareasoning processes. I’ll demonstrate how objects serve not merely as cognitive tools but as active participants in our metacognitive monitoring and control. Drawing from recent research, I’ll explore how things extend our reasoning capabilities through their dual properties of stability for externalization and dynamism for feedback. By investigating the skilled coupling between mind and material, I challenge traditional brain-bound views of metacognition and propose a framework of systemic metacognition that recognizes the affordances of objects in problem-solving and creative thinking beyond the confines of the individual mind.
Ana-Maria Olteteanu (Constructor University Bremen) – “How Not to Be A Lonely A.I.: Exploring Linguistic and Visual Problem Solving Through Games”
Human creativity is inherently multimodal, with insights often emerging in visual as well as linguistic forms. To explore structured creativity, we introduce linguistic and visual adaptations of the Remote Associates Test (RAT). Future AI-human collaboration should be both creative and cooperative, yet understanding and supporting these interactions requires systematic study. Games, which blend intelligence, creativity, and social reasoning, provide a rich testbed for this research. We propose a series of games incorporating both linguistic and visual elements to investigate multimodal creativity in a structured way, offering new insights into how AI and humans co-create and anticipate each other’s moves
Sotirios Kotsopoulos (MIT/National Technical University of Athens) – “Design without Representation”
Shapes are perceived unanalyzed, without rigid representation of their parts. They do not comply with standard symbolic knowledge representation criteria; they are treated and judged by appearance. Resolving the relationship of parts to parts and parts to wholes has a constructive role in perception and design. This paper presents a computational account of part–whole figuration in design. To this end, shape rules are used to show how a shape is seen, and shape decompositions having structures of topologies and Boolean algebras reveal alternative structures for parts. Four examples of shape computation are presented. Topologies demonstrate the relationships of wholes, parts, and subparts, in the computations enabling the comparison and relativization of structures, and lattice diagrams are used to present their order. Retrospectively, the topologies help to recall the generative history and establish computational continuity. When the parts are modified to recognize emergent squares locally, other emergent shapes are highlighted globally as the topology is re-adjusted. Two types of emergence are identified: local and global. Seeing the local parts modifies how we analyze the global whole, and thus, a local observation yields a global order.
Sune Vork Steffensen (University of Southern Denmark) — “Problem solving on the edge”
Human beings live on the edge – in at least two different senses. First, we live on the edge between our soulful bodies and the world in which our existence unfolds. We engage in the world through a back-and-forth’ness across this edge that separates us from the rest of the world, while it at the same time bridges us to the world. Radical embodied cognitive science (Chemero, 2009) traces cognition to this interactivity between body and world (Steffensen, 2017; Steffensen, Trasmundi, Høgh, & Ventzel, 2024). Second, we live on the edge between certainty and chaos. We think we know what we are doing, yet our behaviour has consequences we never anticipated. Human problem solving unfolds as a precarious process between body and world, and between expected and unexpected outcomes of behaviour.
Under the rubric of ‘interactivity research’, this paper explores what we can learn about human problem solving by studying the edginess of human interactivity. By drawing on published and unpublished case studies of problem-solving activities, both in lab contexts and in the wild, I propose some foundational elements of a radical embodied cognitive science of problem solving (Simonsen, Steffensen, & Sutton, 2022; Steffensen, 2016, 2017; Steffensen, Vallée-Tourangeau, & Vallée-Tourangeau, 2016; Vallée-Tourangeau, Steffensen, Vallée-Tourangeau, & Sirota, 2016).
Benjamin Angerer (University of Bielfeld) – “Where Do Problem Spaces Come From? On Metaphors and Representational Change”
The challenges of problem solving do not lie exclusively in how to perform heuristic search, but begin with how we understand a given task: how we cognitively represent the task domain and its components can determine how quickly we are able to progress towards a solution, whether advanced strategies can be discovered, or even whether a solution can be found at all. While this challenge of constructing and modifying representations has been recognised early in problem solving research, it has largely been sidestepped by focusing on simple, well-defined problems whose representation is almost entirely determined by the task instructions. Thus, the established theory of problem solving as heuristic search in problem spaces has little to say about it. In this talk, I will present a study designed to explore this issue, with the main challenge being to find and refine an adequate problem representation. In this exploratory case study, I investigated how pairs of participants familiarise themselves with a complex spatial transformation task in the domain of iterative mental paper folding over the course of several days. Participants are required to understand the geometry of edges that arise when they repeatedly mentally fold a sheet of paper in alternating directions without the use of external cues. Faced with the difficulty of handling increasingly complex folds in the face of limited cognitive capacity, participants are forced to search for ways to represent folds more efficiently. In a qualitative analysis of video recordings of participants’ behaviour, the development of their conceptualisation of the task domain was traced over the course of the study, focusing in particular on their use of gestures and the spontaneous occurrence and use of metaphors in the construction of new representations. Based on these observations, I will conclude the talk with some theoretical speculations on the roles of metaphor and cognitive capacity in representational change.