Project acronym ARTIVISM
Project Art and Activism : Creativity and Performance as Subversive Forms of Political Expression in Super-Diverse Cities
Researcher (PI) Monika Salzbrunn
Host Institution (HI) UNIVERSITE DE LAUSANNE
Call Details Consolidator Grant (CoG), SH5, ERC-2015-CoG
Summary ARTIVISM aims at exploring new artistic forms of political expression under difficult, precarious and/or oppressive conditions. It asks how social actors create belonging and multiple forms of resistance when they use art in activism or activism in art. What kind of alliances do these two forms of social practices generate in super-diverse places, in times of crisis and in precarious situations? Thus, ARTIVISM seeks to understand how social actors engage artistically in order to bring about social, economic and political change. Going beyond former research in urban and migration studies, and beyond the anthropology of art, ARTIVISM focuses on a broad range of artistic tools, styles and means of expression, namely festive events and parades, cartoons and comics and street art. By articulating performance studies, street anthropology and the sociology of celebration with migration and diversity studies, the project challenges former concepts, which took stable social groups for granted and reified them with ethnic lenses. The applied methodology considerably renews the field by bringing together event-, actor- and condition-centred approaches and a multi-sensory framework. Besides its multidisciplinary design, the ground-breaking nature of ARTIVISM lies in the application of the core concepts of performativity and liminality, as well as in an examination of the way to advance and refine these concepts and to create new analytical tools to respond to recent social phenomena. We have developed and tested innovative methods that respond to a postmodern type of fluid and temporary social action: audio-visual ethnography, urban event ethnography, street ethnography, field-crossing, and sensory ethnography (apprenticeship). Therefore, ARTIVISM develops new methods and theories in order to introduce a multi-faceted trans-disciplinary approach to the study of an emerging field of social transformations that is of challenging significance to the social sciences.
Summary
ARTIVISM aims at exploring new artistic forms of political expression under difficult, precarious and/or oppressive conditions. It asks how social actors create belonging and multiple forms of resistance when they use art in activism or activism in art. What kind of alliances do these two forms of social practices generate in super-diverse places, in times of crisis and in precarious situations? Thus, ARTIVISM seeks to understand how social actors engage artistically in order to bring about social, economic and political change. Going beyond former research in urban and migration studies, and beyond the anthropology of art, ARTIVISM focuses on a broad range of artistic tools, styles and means of expression, namely festive events and parades, cartoons and comics and street art. By articulating performance studies, street anthropology and the sociology of celebration with migration and diversity studies, the project challenges former concepts, which took stable social groups for granted and reified them with ethnic lenses. The applied methodology considerably renews the field by bringing together event-, actor- and condition-centred approaches and a multi-sensory framework. Besides its multidisciplinary design, the ground-breaking nature of ARTIVISM lies in the application of the core concepts of performativity and liminality, as well as in an examination of the way to advance and refine these concepts and to create new analytical tools to respond to recent social phenomena. We have developed and tested innovative methods that respond to a postmodern type of fluid and temporary social action: audio-visual ethnography, urban event ethnography, street ethnography, field-crossing, and sensory ethnography (apprenticeship). Therefore, ARTIVISM develops new methods and theories in order to introduce a multi-faceted trans-disciplinary approach to the study of an emerging field of social transformations that is of challenging significance to the social sciences.
Max ERC Funding
1 999 287 €
Duration
Start date: 2016-09-01, End date: 2021-08-31
Project acronym Babylearn
Project Neural mechanisms of learning in the infant brain : from Statistics to Rules and Symbols
Researcher (PI) Ghislaine, Marie-Therese, Aline DEHAENE-LAMBERTZ
Host Institution (HI) COMMISSARIAT A L ENERGIE ATOMIQUE ET AUX ENERGIES ALTERNATIVES
Call Details Advanced Grant (AdG), SH4, ERC-2015-AdG
Summary Infant is the most powerful learner: He learns in a few months to master language, complex social interactions, etc. Powerful statistical algorithms, simultaneously acting at the different levels of functional hierarchies have been proposed to explain learning. I propose here that two other elements are crucial. The first is the particular human cerebral architecture that constrains statistical computations. The second is the human’s ability to access a rich symbolic system. I have planned 6 work packages using the complementary information offered by non-invasive brain-imaging techniques (EEG, MRI and optical topography) to understand the neural bases of infant statistical computations and symbolic competence from 6 months of gestation up until the end of the first year of life.
WP1 studies from which preterm age, statistical inferences can be demonstrated using hierarchical auditory oddball paradigms.
WP2 investigates the consequences of a different pre-term environment (in-utero versus ex-utero) on the early statistical computations in the visual and auditory domains and their consequences on the ongoing brain activity along the first year of life.
WP3 explores the neural bases of how infants infer word meaning and word category, and in particular the role of the left perisylvian areas and of their particular connectivity.
WP4 questions infant symbolic competency. I propose several criteria (generalization, bidirectionality, use of algebraic rules and of logical operations) tested in successive experiments to clarify infant symbolic abilities during the first semester of life.
WP5-6 are transversal to WP1-4: WP5 uses MRI to obtain accurate functional localization and maturational markers correlated with functional results. In WP6, we develop new tools to combine and analyse multimodal brain images.
With this proposal, I hope to clarify the specificities of a neural functional architecture that are critical for human learning from the onset of cortical circuits.
Summary
Infant is the most powerful learner: He learns in a few months to master language, complex social interactions, etc. Powerful statistical algorithms, simultaneously acting at the different levels of functional hierarchies have been proposed to explain learning. I propose here that two other elements are crucial. The first is the particular human cerebral architecture that constrains statistical computations. The second is the human’s ability to access a rich symbolic system. I have planned 6 work packages using the complementary information offered by non-invasive brain-imaging techniques (EEG, MRI and optical topography) to understand the neural bases of infant statistical computations and symbolic competence from 6 months of gestation up until the end of the first year of life.
WP1 studies from which preterm age, statistical inferences can be demonstrated using hierarchical auditory oddball paradigms.
WP2 investigates the consequences of a different pre-term environment (in-utero versus ex-utero) on the early statistical computations in the visual and auditory domains and their consequences on the ongoing brain activity along the first year of life.
WP3 explores the neural bases of how infants infer word meaning and word category, and in particular the role of the left perisylvian areas and of their particular connectivity.
WP4 questions infant symbolic competency. I propose several criteria (generalization, bidirectionality, use of algebraic rules and of logical operations) tested in successive experiments to clarify infant symbolic abilities during the first semester of life.
WP5-6 are transversal to WP1-4: WP5 uses MRI to obtain accurate functional localization and maturational markers correlated with functional results. In WP6, we develop new tools to combine and analyse multimodal brain images.
With this proposal, I hope to clarify the specificities of a neural functional architecture that are critical for human learning from the onset of cortical circuits.
Max ERC Funding
2 554 924 €
Duration
Start date: 2016-09-01, End date: 2021-08-31
Project acronym BATMAN
Project Development of Quantitative Metrologies to Guide Lithium Ion Battery Manufacturing
Researcher (PI) Vanessa Wood
Host Institution (HI) EIDGENOESSISCHE TECHNISCHE HOCHSCHULE ZUERICH
Call Details Starting Grant (StG), PE8, ERC-2015-STG
Summary Lithium ion batteries offer tremendous potential as an enabling technology for sustainable transportation and development. However, their widespread usage as the energy storage solution for electric mobility and grid-level integration of renewables is impeded by the fact that current state-of-the-art lithium ion batteries have energy densities that are too small, charge- and discharge rates that are too low, and costs that are too high. Highly publicized instances of catastrophic failure of lithium ion batteries raise questions of safety. Understanding the limitations to battery performance and origins of the degradation and failure is highly complex due to the difficulties in studying interrelated processes that take place at different length and time scales in a corrosive environment. In the project, we will (1) develop and implement quantitative methods to study the complex interrelations between structure and electrochemistry occurring at the nano-, micron-, and milli-scales in lithium ion battery active materials and electrodes, (2) conduct systematic experimental studies with our new techniques to understand the origins of performance limitations and to develop design guidelines for achieving high performance and safe batteries, and (3) investigate economically viable engineering solutions based on these guidelines to achieve high performance and safe lithium ion batteries.
Summary
Lithium ion batteries offer tremendous potential as an enabling technology for sustainable transportation and development. However, their widespread usage as the energy storage solution for electric mobility and grid-level integration of renewables is impeded by the fact that current state-of-the-art lithium ion batteries have energy densities that are too small, charge- and discharge rates that are too low, and costs that are too high. Highly publicized instances of catastrophic failure of lithium ion batteries raise questions of safety. Understanding the limitations to battery performance and origins of the degradation and failure is highly complex due to the difficulties in studying interrelated processes that take place at different length and time scales in a corrosive environment. In the project, we will (1) develop and implement quantitative methods to study the complex interrelations between structure and electrochemistry occurring at the nano-, micron-, and milli-scales in lithium ion battery active materials and electrodes, (2) conduct systematic experimental studies with our new techniques to understand the origins of performance limitations and to develop design guidelines for achieving high performance and safe batteries, and (3) investigate economically viable engineering solutions based on these guidelines to achieve high performance and safe lithium ion batteries.
Max ERC Funding
1 500 000 €
Duration
Start date: 2016-05-01, End date: 2021-04-30
Project acronym BodyCapital
Project The healthy self as body capital: Individuals, market-based societies and body politics in visual twentieth century Europe.
Researcher (PI) Christian Bonah
Host Institution (HI) UNIVERSITE DE STRASBOURG
Call Details Advanced Grant (AdG), SH6, ERC-2015-AdG
Summary From testicular grafting (1920s) to step counting watches (2014), the perceptions and practices of health seeking individuals have been marked by continuities and profound changes during a twentieth century largely shaped by the advent of a communication society. Visuals can be a source to understand transformations by postulating an interactive, performative power of mass media in societies. Which roles did visuals play in changes from public health and human capital collective understandings of the healthy self to new (sometimes debated) perceptions and practices of our bodies as forms of individual capital in an increasing market-economized world?
Pursuing these questions, the project focuses on four fields of investigation -food/nutrition; movement/exercise/sports; sexuality/reproduction/infants and dependency/addiction/overconsumption- in Germany, France and Great Britain studied with an entangled history framework.
Within this scope the project aims at understanding (1)how visuals shape our health related self-understandings and practices in a continuity/discontinuity from the bio-political to the bio-economic logic. (2) The project will explore and explain how and why understandings of body capital differ or overlap in European countries. (3) The project will analyse if and how visual media serve as a promotion-communication hyphen for twentieth century preventive-self understanding.
With a visual perspective on a long twentieth century, the project seeks to better understand changes and continuities in the history of health intertwined with the history of media. This will provide new insights into how the internalization of bodycapital has evolved throughout the past century, how transformations in the media world (from film to TV to internet) play out at the individual level and how health challenges and cultural differences in body perceptions and practices persist in producing social distinction in an age of global information and advanced health systems.
Summary
From testicular grafting (1920s) to step counting watches (2014), the perceptions and practices of health seeking individuals have been marked by continuities and profound changes during a twentieth century largely shaped by the advent of a communication society. Visuals can be a source to understand transformations by postulating an interactive, performative power of mass media in societies. Which roles did visuals play in changes from public health and human capital collective understandings of the healthy self to new (sometimes debated) perceptions and practices of our bodies as forms of individual capital in an increasing market-economized world?
Pursuing these questions, the project focuses on four fields of investigation -food/nutrition; movement/exercise/sports; sexuality/reproduction/infants and dependency/addiction/overconsumption- in Germany, France and Great Britain studied with an entangled history framework.
Within this scope the project aims at understanding (1)how visuals shape our health related self-understandings and practices in a continuity/discontinuity from the bio-political to the bio-economic logic. (2) The project will explore and explain how and why understandings of body capital differ or overlap in European countries. (3) The project will analyse if and how visual media serve as a promotion-communication hyphen for twentieth century preventive-self understanding.
With a visual perspective on a long twentieth century, the project seeks to better understand changes and continuities in the history of health intertwined with the history of media. This will provide new insights into how the internalization of bodycapital has evolved throughout the past century, how transformations in the media world (from film to TV to internet) play out at the individual level and how health challenges and cultural differences in body perceptions and practices persist in producing social distinction in an age of global information and advanced health systems.
Max ERC Funding
2 492 124 €
Duration
Start date: 2016-09-01, End date: 2021-08-31
Project acronym BoneImplant
Project Monitoring bone healing around endosseous implants: from multiscale modeling to the patient’s bed
Researcher (PI) Guillaume Loïc Haiat
Host Institution (HI) CENTRE NATIONAL DE LA RECHERCHE SCIENTIFIQUE CNRS
Call Details Consolidator Grant (CoG), PE8, ERC-2015-CoG
Summary Implants are often employed in orthopaedic and dental surgeries. However, risks of failure, which are difficult to anticipate, are still experienced and may have dramatic consequences. Failures are due to degraded bone remodeling at the bone-implant interface, a multiscale phenomenon of an interdisciplinary nature which remains poorly understood. The objective of BoneImplant is to provide a better understanding of the multiscale and multitime mechanisms at work at the bone-implant interface. To do so, BoneImplant aims at studying the evolution of the biomechanical properties of bone tissue around an implant during the remodeling process. A methodology involving combined in vivo, in vitro and in silico approaches is proposed.
New modeling approaches will be developed in close synergy with the experiments. Molecular dynamic computations will be used to understand fluid flow in nanoscopic cavities, a phenomenon determining bone healing process. Generalized continuum theories will be necessary to model bone tissue due to the important strain field around implants. Isogeometric mortar formulation will allow to simulate the bone-implant interface in a stable and efficient manner.
In vivo experiments realized under standardized conditions will be realized on the basis of feasibility studies. A multimodality and multi-physical experimental approach will be carried out to assess the biomechanical properties of newly formed bone tissue as a function of the implant environment. The experimental approach aims at estimating the effective adhesion energy and the potentiality of quantitative ultrasound imaging to assess different biomechanical properties of the interface.
Results will be used to design effective loading clinical procedures of implants and to optimize implant conception, leading to the development of therapeutic and diagnostic techniques. The development of quantitative ultrasonic techniques to monitor implant stability has a potential for industrial transfer.
Summary
Implants are often employed in orthopaedic and dental surgeries. However, risks of failure, which are difficult to anticipate, are still experienced and may have dramatic consequences. Failures are due to degraded bone remodeling at the bone-implant interface, a multiscale phenomenon of an interdisciplinary nature which remains poorly understood. The objective of BoneImplant is to provide a better understanding of the multiscale and multitime mechanisms at work at the bone-implant interface. To do so, BoneImplant aims at studying the evolution of the biomechanical properties of bone tissue around an implant during the remodeling process. A methodology involving combined in vivo, in vitro and in silico approaches is proposed.
New modeling approaches will be developed in close synergy with the experiments. Molecular dynamic computations will be used to understand fluid flow in nanoscopic cavities, a phenomenon determining bone healing process. Generalized continuum theories will be necessary to model bone tissue due to the important strain field around implants. Isogeometric mortar formulation will allow to simulate the bone-implant interface in a stable and efficient manner.
In vivo experiments realized under standardized conditions will be realized on the basis of feasibility studies. A multimodality and multi-physical experimental approach will be carried out to assess the biomechanical properties of newly formed bone tissue as a function of the implant environment. The experimental approach aims at estimating the effective adhesion energy and the potentiality of quantitative ultrasound imaging to assess different biomechanical properties of the interface.
Results will be used to design effective loading clinical procedures of implants and to optimize implant conception, leading to the development of therapeutic and diagnostic techniques. The development of quantitative ultrasonic techniques to monitor implant stability has a potential for industrial transfer.
Max ERC Funding
1 992 154 €
Duration
Start date: 2016-10-01, End date: 2021-09-30
Project acronym DIPLOFACE
Project Diplomatic Face-Work - between confidential negotiations and public display
Researcher (PI) Rebecca Adler-Nissen
Host Institution (HI) KOBENHAVNS UNIVERSITET
Call Details Starting Grant (StG), SH2, ERC-2015-STG
Summary The rise of social media, coupled with intensifying demands for more transparency and democracy in world politics, brings new challenges to international diplomacy. State leaders and diplomats continue to react to traditional media, but now also attempt to present themselves proactively through tweets, public diplomacy and nation branding. These efforts often take place simultaneously and sometimes interfere directly with closed-door negotiations and its culture of restraint and secrecy. Yet the relationship between confidential diplomacy and public representation remains understudied.
DIPLOFACE will develop a sociologically and anthropologically informed approach to studying how state leaders and diplomats manage their nation’s ‘faces’ in the information age. The project will explore the relationship and tensions between confidential diplomatic negotiations and publicly displayed interventions in various media, applying the micro-sociological concept of ‘face-work’. DIPLOFACE will analyse the complex interactional dynamics that shape the diplomatic techniques and strategies used to convey a nation’s ‘face’ or ‘image of self’. Such face-work is increasingly important for national leaders and diplomats who perform simultaneously on the ‘back-stage’ and the ‘front-stage’ of international relations. DIPLOFACE will identify, theorize and analyse the repertoire of face-saving, face-honouring and face-threatening practices that are employed in confidential negotiations and in public.
DIPLOFACE advances our theoretical understanding of diplomacy in the 21st century significantly beyond existing International Relations and diplomatic theory. Combining participant observation, interviews and media analysis, DIPLOFACE will generate important new knowledge about the relationship between public and confidential multilateral negotiation, how state leaders and diplomats handle new media, and the role of face-saving and face-threatening strategies in international relations.
Summary
The rise of social media, coupled with intensifying demands for more transparency and democracy in world politics, brings new challenges to international diplomacy. State leaders and diplomats continue to react to traditional media, but now also attempt to present themselves proactively through tweets, public diplomacy and nation branding. These efforts often take place simultaneously and sometimes interfere directly with closed-door negotiations and its culture of restraint and secrecy. Yet the relationship between confidential diplomacy and public representation remains understudied.
DIPLOFACE will develop a sociologically and anthropologically informed approach to studying how state leaders and diplomats manage their nation’s ‘faces’ in the information age. The project will explore the relationship and tensions between confidential diplomatic negotiations and publicly displayed interventions in various media, applying the micro-sociological concept of ‘face-work’. DIPLOFACE will analyse the complex interactional dynamics that shape the diplomatic techniques and strategies used to convey a nation’s ‘face’ or ‘image of self’. Such face-work is increasingly important for national leaders and diplomats who perform simultaneously on the ‘back-stage’ and the ‘front-stage’ of international relations. DIPLOFACE will identify, theorize and analyse the repertoire of face-saving, face-honouring and face-threatening practices that are employed in confidential negotiations and in public.
DIPLOFACE advances our theoretical understanding of diplomacy in the 21st century significantly beyond existing International Relations and diplomatic theory. Combining participant observation, interviews and media analysis, DIPLOFACE will generate important new knowledge about the relationship between public and confidential multilateral negotiation, how state leaders and diplomats handle new media, and the role of face-saving and face-threatening strategies in international relations.
Max ERC Funding
1 493 062 €
Duration
Start date: 2016-04-01, End date: 2021-03-31
Project acronym INCLUDE
Project Indigenous Communities, Land Use and Tropical Deforestation
Researcher (PI) Michele Graziano Ceddia
Host Institution (HI) UNIVERSITAET BERN
Call Details Consolidator Grant (CoG), SH3, ERC-2015-CoG
Summary Tropical deforestation is an important contributor to climate change, through the release of significant amounts of carbon in the atmosphere. The main proximate cause of deforestation in tropical regions is agricultural expansion, followed by timber extraction. The general objective of this research is to understand how the interaction of technological, environmental, economic and social factors influence land use dynamics, including household decisions, about agricultural expansion and resource extraction in sensitive tropical regions. More specific questions relate to the role of various governance structures, particularly those recognizing common property regimes of land tenure to indigenous and rural communities, and the deliberative evaluation about the opportunity of reforming such structures in order to reduce deforestation and forest degradation. Although such aspects have been addressed in a variety of contexts, the approach proposed here is novel as a) it explicitly models the interaction between institutional, environmental, technological and socio-economic factors at different spatio-temporal scales, b) it specifically focuses on the governance structures associated with different land tenure regimes through the lenses of Social Network Analysis (SNA), c) uses a Q-methodology framework to develop a participatory approach to study stakeholders’ perspectives and attitudes on the necessary governance interventions to prevent deforestation and forest degradation and d) it assesses the relationships between agricultural expansion, deforestation, governance structures and stakeholders’ attitudes, with particular attention to the sensitivity of household land use decisions and resource extraction. In order to meet the research objectives, this project will focus on the province of Salta in the dry Chaco in North-Western Argentina, a region characterized by high rates of land cover change and the presence of indigenous/rural communities.
Summary
Tropical deforestation is an important contributor to climate change, through the release of significant amounts of carbon in the atmosphere. The main proximate cause of deforestation in tropical regions is agricultural expansion, followed by timber extraction. The general objective of this research is to understand how the interaction of technological, environmental, economic and social factors influence land use dynamics, including household decisions, about agricultural expansion and resource extraction in sensitive tropical regions. More specific questions relate to the role of various governance structures, particularly those recognizing common property regimes of land tenure to indigenous and rural communities, and the deliberative evaluation about the opportunity of reforming such structures in order to reduce deforestation and forest degradation. Although such aspects have been addressed in a variety of contexts, the approach proposed here is novel as a) it explicitly models the interaction between institutional, environmental, technological and socio-economic factors at different spatio-temporal scales, b) it specifically focuses on the governance structures associated with different land tenure regimes through the lenses of Social Network Analysis (SNA), c) uses a Q-methodology framework to develop a participatory approach to study stakeholders’ perspectives and attitudes on the necessary governance interventions to prevent deforestation and forest degradation and d) it assesses the relationships between agricultural expansion, deforestation, governance structures and stakeholders’ attitudes, with particular attention to the sensitivity of household land use decisions and resource extraction. In order to meet the research objectives, this project will focus on the province of Salta in the dry Chaco in North-Western Argentina, a region characterized by high rates of land cover change and the presence of indigenous/rural communities.
Max ERC Funding
1 952 183 €
Duration
Start date: 2016-11-01, End date: 2021-10-31
Project acronym MemoSleep
Project Longing for a good night's sleep: A memory-based mechanism to improve sleep and cognitive functioning.
Researcher (PI) Björn Rasch
Host Institution (HI) UNIVERSITE DE FRIBOURG
Call Details Starting Grant (StG), SH4, ERC-2015-STG
Summary Sleep is critical for optimal cognitive functioning and health. Sleep disturbances are highly frequent in our society and strongly influenced by cognitive factors, e.g. rumination, expectations and thoughts. However, the mechanism of how cognition influences sleep architecture is not yet understood. To explain how cognition influences sleep, I propose the “Memories-of-Sleep” (MemoSleep)-Hypothesis. Based on the theory of embodied cognition and evidence that memories are reactivated during sleep, the MemoSleep-Hypothesis makes the following assumptions:
(1) Cognitions related to sleep/wake states are embodied. I will call them embodied sleep/wake memories. Embodied sleep/wake memories encompass not only their semantic meaning, but also their sensorimotor body representation. Thus, the mental representation of the word ‘wake’ is directly linked to our body sensation of wakefulness.
(2) If embodied sleep/wake memories are activated before sleep, they will have a higher probability of being reactivated during sleep.
(3) During sleep, increased reactivation of embodied sleep/wake memories activates associated body responses and thereby affects sleep architecture. Thus, increased reactivation of the mental representation of ‘wake’ will activate wake-related physiological responses and disrupt sleep.
Here I aim at empirically testing these assumptions using brain imaging (high-density EEG, EEG/fMRI) and cognitive testing in humans. I will show that activation of embodied sleep/wake memories before and during sleep influences sleep architecture and affects post-sleep cognitive performance. In addition, I will apply these findings to the elderly and patients with sleep disorders. The results will greatly enhance our theoretical understanding of how cognition influences sleep. Furthermore, they will provide a solid basis for the development of effective cognitive interventions for sleep disorders, with a high potential to improve sleep and cognition also in every-day life.
Summary
Sleep is critical for optimal cognitive functioning and health. Sleep disturbances are highly frequent in our society and strongly influenced by cognitive factors, e.g. rumination, expectations and thoughts. However, the mechanism of how cognition influences sleep architecture is not yet understood. To explain how cognition influences sleep, I propose the “Memories-of-Sleep” (MemoSleep)-Hypothesis. Based on the theory of embodied cognition and evidence that memories are reactivated during sleep, the MemoSleep-Hypothesis makes the following assumptions:
(1) Cognitions related to sleep/wake states are embodied. I will call them embodied sleep/wake memories. Embodied sleep/wake memories encompass not only their semantic meaning, but also their sensorimotor body representation. Thus, the mental representation of the word ‘wake’ is directly linked to our body sensation of wakefulness.
(2) If embodied sleep/wake memories are activated before sleep, they will have a higher probability of being reactivated during sleep.
(3) During sleep, increased reactivation of embodied sleep/wake memories activates associated body responses and thereby affects sleep architecture. Thus, increased reactivation of the mental representation of ‘wake’ will activate wake-related physiological responses and disrupt sleep.
Here I aim at empirically testing these assumptions using brain imaging (high-density EEG, EEG/fMRI) and cognitive testing in humans. I will show that activation of embodied sleep/wake memories before and during sleep influences sleep architecture and affects post-sleep cognitive performance. In addition, I will apply these findings to the elderly and patients with sleep disorders. The results will greatly enhance our theoretical understanding of how cognition influences sleep. Furthermore, they will provide a solid basis for the development of effective cognitive interventions for sleep disorders, with a high potential to improve sleep and cognition also in every-day life.
Max ERC Funding
1 499 565 €
Duration
Start date: 2016-09-01, End date: 2021-08-31
Project acronym microCrysFact
Project Microfluidic Crystal Factories (μ-CrysFact): a breakthrough approach for crystal engineering
Researcher (PI) Jose Puigmartí Luis
Host Institution (HI) EIDGENOESSISCHE TECHNISCHE HOCHSCHULE ZUERICH
Call Details Starting Grant (StG), PE8, ERC-2015-STG
Summary To study and understand the aggregation, nucleation, and/or self-assembly processes of crystalline matter is of crucial importance for research and applications in many disciplines. For example, understanding the formation of crystalline amyloid fibres could lead to advances in the treatment and prevention of both Alzheimer’s and Parkinson’s diseases, whereas controlling the process of crystal formation can play a significant role in obtaining chemicals and materials that are important for industry as well as society as a whole (e.g., drugs, superconductors, polarizers and/or frequency modulators).
Despite the impressive progress made in molecular engineering during the last few decades, the quest for a general tool-box technology to study, control and monitor crystallisation processes as well as to isolate metastable states (dynamic capture) is still incomplete. That is because crystalline assemblies are frequently investigated in their equilibrium form, driving the system to its minimum energy state. This methodology limits the emergence of new chemicals and crystals with advanced functionalities, and thus hampers advances in the field of materials engineering.
µ-CrysFact will develop tool-box technologies where diffusion-limited and kinetically controlled environments will be achieved during crystallisation and where the isolation of non-equilibrium species will be facilitated by pushing crystallisation processes out of equilibrium. In addition, µ-CrysFact’s technologies will be used to localise, integrate and chemically treat crystals with the aim of honing their functionality. This unprecedented approach has the potential to lead to the discovery of new materials with advanced functions and unique properties, thus opening new horizons in materials engineering research.
Summary
To study and understand the aggregation, nucleation, and/or self-assembly processes of crystalline matter is of crucial importance for research and applications in many disciplines. For example, understanding the formation of crystalline amyloid fibres could lead to advances in the treatment and prevention of both Alzheimer’s and Parkinson’s diseases, whereas controlling the process of crystal formation can play a significant role in obtaining chemicals and materials that are important for industry as well as society as a whole (e.g., drugs, superconductors, polarizers and/or frequency modulators).
Despite the impressive progress made in molecular engineering during the last few decades, the quest for a general tool-box technology to study, control and monitor crystallisation processes as well as to isolate metastable states (dynamic capture) is still incomplete. That is because crystalline assemblies are frequently investigated in their equilibrium form, driving the system to its minimum energy state. This methodology limits the emergence of new chemicals and crystals with advanced functionalities, and thus hampers advances in the field of materials engineering.
µ-CrysFact will develop tool-box technologies where diffusion-limited and kinetically controlled environments will be achieved during crystallisation and where the isolation of non-equilibrium species will be facilitated by pushing crystallisation processes out of equilibrium. In addition, µ-CrysFact’s technologies will be used to localise, integrate and chemically treat crystals with the aim of honing their functionality. This unprecedented approach has the potential to lead to the discovery of new materials with advanced functions and unique properties, thus opening new horizons in materials engineering research.
Max ERC Funding
1 814 128 €
Duration
Start date: 2016-09-01, End date: 2021-08-31
Project acronym MSG
Project Making Sense of Games: A Methodology for Humanistic Game Analysis
Researcher (PI) Espen Johannes AARSETH
Host Institution (HI) IT-UNIVERSITETET I KOBENHAVN
Call Details Advanced Grant (AdG), SH5, ERC-2015-AdG
Summary Making Sense of Games (MSG) will build a methodology for the humanistic study of games, and develop a theory of how ludic meaning is produced.
Following the pervasive, global growth of video gaming culture and the games industry, the multi-disciplinary field of game studies has grown exponentially in the last 15 years, with numerous new journals, conferences, university programs and research departments.
However, still lacking at this ‘adolescent’ stage of the field’s development are game-specific methods and theoretical foundations necessary to train researchers and build curricula. In aesthetic games research there is not yet any widely accepted methodology for game analysis, and there has not yet been any large-scale, long-term attempt to produce a theoretical platform that can support and advance the field.
MSG aims to fill this gap by combining fundamental hermeneutic approaches (semiotics, reception theory, reader response, theories of representation, narrative theory) with recent theories of ludic structure (game ontology) into a hermeneutic theory of game meaning, which can be used as a set of tools and concepts for game analysis and criticism. MSG will be a triple first for aesthetic game research: a five-year research program, a hermeneutic theory of games, and a team-based effort to build an interdisciplinary methodology.
The results from MSG will speak to many of the current public concerns and debates about games, such as gamer culture, games’ cultural and artistic status, the representation of minorities, misogyny, violence and even addiction. MSG will demonstrate the strong usefulness of humanistic approaches not only to game studies itself, but also to the 21st century’s most vibrant new cultural sector. It will also provide other aesthetic fields (literary studies, film studies, art history) with theoretical models, critical insights, and a rich empirical material for comparative exploration.
Summary
Making Sense of Games (MSG) will build a methodology for the humanistic study of games, and develop a theory of how ludic meaning is produced.
Following the pervasive, global growth of video gaming culture and the games industry, the multi-disciplinary field of game studies has grown exponentially in the last 15 years, with numerous new journals, conferences, university programs and research departments.
However, still lacking at this ‘adolescent’ stage of the field’s development are game-specific methods and theoretical foundations necessary to train researchers and build curricula. In aesthetic games research there is not yet any widely accepted methodology for game analysis, and there has not yet been any large-scale, long-term attempt to produce a theoretical platform that can support and advance the field.
MSG aims to fill this gap by combining fundamental hermeneutic approaches (semiotics, reception theory, reader response, theories of representation, narrative theory) with recent theories of ludic structure (game ontology) into a hermeneutic theory of game meaning, which can be used as a set of tools and concepts for game analysis and criticism. MSG will be a triple first for aesthetic game research: a five-year research program, a hermeneutic theory of games, and a team-based effort to build an interdisciplinary methodology.
The results from MSG will speak to many of the current public concerns and debates about games, such as gamer culture, games’ cultural and artistic status, the representation of minorities, misogyny, violence and even addiction. MSG will demonstrate the strong usefulness of humanistic approaches not only to game studies itself, but also to the 21st century’s most vibrant new cultural sector. It will also provide other aesthetic fields (literary studies, film studies, art history) with theoretical models, critical insights, and a rich empirical material for comparative exploration.
Max ERC Funding
2 006 906 €
Duration
Start date: 2016-11-01, End date: 2021-10-31
