Since the beginning of the new millennium, the use of mental practice and movement imagery within several medical professions in rehabilitation and therapy has received an increased attention. Before this introduction in healthcare, the use of movement imagery was mainly researched in sports science. Mental practice is a complex intervention. When a complex intervention is applied in a new target group or population, the intervention is most likely needed to be adjusted, developed, and evaluated. Recently, a dissertation has been published in which the researchers describe their efforts to transfer the use of movement imagery in sports to rehabilitation. This study reports two aspects from this research project: (a) What did the researcher do? (b) What do the results mean for future research? First, however, some background information is given, in which the use of movement imagery in athletes is discussed.
Imagery Rehearsal Therapy (IRT) is effective for trauma-related nightmares and is also a challenge to patients in finding access to their traumatic memories, because these are saved in non-verbal, visual, or audiovisual language. Art therapy (AT) is an experiential treatment that addresses images rather than words. This study investigates the possibility of an IRT-AT combination. Systematic literature review and field research was conducted, and the integration of theoretical and practice-based knowledge resulted in a framework for Imagery Rehearsal-based Art Therapy (IR-AT). The added value of AT in IRT appears to be more readily gaining access to traumatic experiences, living through feelings, and breaking through avoidance. Exposure and re-scripting take place more indirectly, experientially and sometimes in a playlike manner using art assignments and materials. In the artwork, imagination, play and fantasy offer creative space to stop the vicious circle of nightmares by changing theme, story line, ending, or any part of the dream into a more positive and acceptable one. IR-AT emerges as a promising method for treatment, and could be especially useful for patients who benefit least from verbal exposure techniques. This description of IR-AT offers a base for further research.
Functional Magnetic Resonance Imaging (fMRI) was used to study the activation of cerebral motor networks during auditory perception of music in professional keyboard musicians (n=12). The activation paradigm implied that subjects listened to two-part polyphonic music, while either critically appraising the performance or imagining they were performing themselves. Two-part polyphonic audition and bimanual motor imagery circumvented a hemisphere bias associated with the convention of playing the melody with the right hand. Both tasks activated ventral premotor and auditory cortices, bilaterally, and the right anterior parietal cortex, when contrasted to 12 musically unskilled controls. Although left ventral premotor activation was increased during imagery (compared to judgment), bilateral dorsal premotor and right posterior-superior parietal activations were quite unique to motor imagery. The latter suggests that musicians not only recruited their manual motor repertoire but also performed a spatial transformation from the vertically perceived pitch axis (high and low sound) to the horizontal axis of the keyboard. Imagery-specific activations in controls were seen in left dorsal parietal-premotor and supplementary motor cortices. Although these activations were less strong compared to musicians, this overlapping distribution indicated the recruitment of a general 'mirror-neuron' circuitry. These two levels of sensori-motor transformations point towards common principles by which the brain organizes audition-driven music performance and visually guided task performance.
Within the framework of the “Greening Games” project, we will develop, test and distribute flagship didactic materials addressing the interdisciplinary nature of green digital gaming. These will be tested in selected higher education programs and finally shared as open access content for the broader academic and teaching community. It is our core strategic responsibility to educate students about the relations between digital games and environment. We believe that the more aware students of today will become greener game designers, programmers, and academic leaders of tomorrow. At the centre of our partnership’s didactic philosophy are human responsibility, ethical game design and sustainable gaming culture. Societal IssueVideo games serve as technological marvels and cultural reflections. McKenzie Wark suggests they are integral to a shared culture, fostering critical thinking. Games act as arenas for cultural values and environmental awareness. Climate-aware video games, often referred to as 'green games' or 'eco-games,' raise ecological consciousness and reconnect players with nature. For example, Riders Republic, which replicates real-world terrain using satellite imagery, inspires eco-awareness. However, the environmental footprint of video games, reliant on digital electronics and resource-intensive consoles, poses challenges. Developers, manufacturers, and gaming giants must address these impacts. Benjamin Abraham emphasizes sustainable game development as a holistic solution beyond incorporating green content.Benefit to societyBy developing teaching materials on green gaming for higher education, we create the following impact. We will…- increase the awareness of this subject among Bachelor’s and Master’s students.- enhance students’ knowledge of green gaming and their ability to integrate existing solutions into their game projects.- stimulate more research interest among research staff as well as students.- facilitate the uptake of pedagogical resources on green gaming by lecturers and professors.- create a European research community around the topic.- raise the visibility of green game studies among the game industry and wider public.
We had been involved in the redesign of the 4 Period Rooms of the Marquise Palace, also called the Palace of Secrets, in Bergen op Zoom. This design was based on the biography of a historical figure: Marie Anne van Arenberg, whose dramatic life was marked by secrets. Each of the 4 rooms represents a turning moment in Marie Anne’s story: the official marriage, the secret marriage and the betrayal, the dilemma and choice, with, in a final room, the epilogue. These different episodes are reflected in the way the rooms are furnished: the ballroom, the bedroom, the dining room. The Secret Marquise as design and exhibition has brought more visitors to the museum. As designers and researchers, however, we were interested in understanding more about this success, and, in particular, in understanding the visitors experience, both emotionally and sensorially at different moments/situations during the story-driven experience.In the fall of 2021, the visitors’ lived experience was evaluated using different approaches: a quantitative approach using biometric measurements to register people’s emotions during their visit, and a qualitative one consisting of a combination of observations, visual imagery, and interpretative phenomenological analysis (IPA).Qualitatively, our aim was to understand how respondents made sense of Marie Anne’s story in the way in which this was presented throughout the exhibition. We specifically looked at the personal context and frame of reference (e.g., previous experiences, connection to the visitor’s own life story, associations with other stories from other sources). In the design of the rooms, we used a combination of digital/interactive elements (such as a talking portrait, an interactive dinner table, an interactive family painting), and traditional physical objects (some 17th century original objects, some reproductions from that time). The second focal point of the study is to understand how these different elements lead the visitors experience.
"Speak the Future" presents a novel test case at the intersection of scientific innovation and public engagement. Leveraging the power of real-time AI image generation, the project empowers festival participants to verbally describe their visions for a sustainable and regenerative future. These descriptions are instantly transformed into captivating imagery using SDXL Turbo, fostering collective engagement and tangible visualisation of abstract sustainability concepts. This unique interplay of speech recognition, AI, and projection technology breaks new ground in public engagement methods. The project offers valuable insights into public perceptions and aspirations for sustainability, as well as understanding the effectiveness of AI-powered visualisation and regenerative applications of AI. Ultimately, this will serve as a springboard for PhD research that will aim to understand How AI can serve as a vehicle for crafting regenerative futures? By employing real-time AI image generation, the project directly tests its effectiveness in fostering public engagement with sustainable futures. Analysing participant interaction and feedback sheds light on how AI-powered visualisation tools can enhance comprehension and engagement. Furthermore, the project fosters public understanding and appreciation of research. The interactive and accessible nature of "Speak the Future" demystifies the research process, showcasing its relevance and impact on everyday life. Moreover, by directly involving the public in co-creating visual representations of their aspirations, the project builds an emotional connection and sense of ownership, potentially leading to continued engagement and action beyond the festival setting. "Speak the Future" promises to be a groundbreaking initiative, bridging the gap between scientific innovation and public engagement in sustainability discourse. By harnessing the power of AI for collective visualisation, the project not only gathers valuable data for researchers but also empowers the public to envision and work towards a brighter, more sustainable future.
