The 2022 Europlanet Prize for Public Engagement has been awarded to Dr Kosmas Gazeas and the team behind the ‘Planets In Your Hand’ tactile exhibition.
‘Planets In Your Hand’ is an interactive, mobile set of models of planetary surfaces, constructed in square frames, that gives a multisensory impression of the wide variety of surface characteristics and environmental properties of the planets in our Solar System.
The exhibition, although suitable for people of all ages, has been specifically designed for visually impaired audiences, and has travelled to schools, universities and private institutes and organisations, reaching thousands of visitors to date.
Dr Federica Duras, Chair of the Europlanet Outreach Jury, said: “Imagination and creativity has led to a stunning, original exhibition led by a passionate and committed team. Giving opportunities to ‘touch space’ with your own hands is one of the most effective ways of making science and astronomy accessible and inclusive. Congratulations to the whole team.”
The award was presented during the Europlanet Science Congress (EPSC) 2022 in Granada on behalf of the team to Dimitrios Athanasopoulos, who gave a 20-minute prize lecture. The team will also receive a cash award of 1500 Euros.
Eugenia Covernton, CEO of Lecturers Without Borders, who nominated the team for the Europlanet Prize, said: “Planets In Your Hand is an outstanding hands-on exhibition that is inclusive for people with visual impairments and is overall a great tool for the public to grasp concepts related to the different compositions of the planets”
Sophia Drakaki and Dimitris Blougouras, Founders of CityLab [CityLab_STEMLabs], a STEM center specialized in activities for children and young people, said: “The team wanted a real hands-on experience that lasts. And yes, they did it! The on-the-spot visitors can see, touch and feel the surface texture and temperature of the planets and ‘travel’ on them, with the assistance of experts in astrophysics and education that can answer the megabytes of questions that the kids generate!”
Evangelia Mavrikaki, professor of the Department of Primary Education at the National and Kapodistrian University of Athens (Greece), said: “The exhibition is portable, providing huge flexibility accessing schools and institutes in remote areas of Greece and all over the world. Science communication activities of such a kind are rare in remote places and away from large towns.”
Dr Gazeas, the team lead, who is a lecturer of observational astrophysics in the Department of Physics of the National and Kapodistrian University of Athens (Greece), said: “We are deeply honoured to receive the Europlanet Prize for Public Engagement for our efforts in science communication and public outreach activities in the frame of the project Planets In Your Hand. The selection of our project by the judges acts like a confirmation to the team for the hard work that has been done since 2017 and especially during the past 3 years.”
This March 24, 2022 news item on Nanowerk announcing work on a quantum memristor seems to have had a rough translation from German to English,
In recent years, artificial intelligence has become ubiquitous, with applications such as speech interpretation, image recognition, medical diagnosis, and many more. At the same time, quantum technology has been proven capable of computational power well beyond the reach of even the world’s largest supercomputer.
Physicists at the University of Vienna have now demonstrated a new device, called quantum memristor, which may allow to combine these two worlds, thus unlocking unprecedented capabilities. The experiment, carried out in collaboration with the National Research Council (CNR) and the Politecnico di Milano in Italy, has been realized on an integrated quantum processor operating on single photons.
At the heart of all artificial intelligence applications are mathematical models called neural networks. These models are inspired by the biological structure of the human brain, made of interconnected nodes. Just like our brain learns by constantly rearranging the connections between neurons, neural networks can be mathematically trained by tuning their internal structure until they become capable of human-level tasks: recognizing our face, interpreting medical images for diagnosis, even driving our cars. Having integrated devices capable of performing the computations involved in neural networks quickly and efficiently has thus become a major research focus, both academic and industrial.
One of the major game changers in the field was the discovery of the memristor, made in 2008. This device changes its resistance depending on a memory of the past current, hence the name memory-resistor, or memristor. Immediately after its discovery, scientists realized that (among many other applications) the peculiar behavior of memristors was surprisingly similar to that of neural synapses. The memristor has thus become a fundamental building block of neuromorphic architectures.
A group of experimental physicists from the University of Vienna, the National Research Council (CNR) and the Politecnico di Milano led by Prof. Philip Walther and Dr. Roberto Osellame, have now demonstrated that it is possible to engineer a device that has the same behavior as a memristor, while acting on quantum states and being able to encode and transmit quantum information. In other words, a quantum memristor. Realizing such device is challenging because the dynamics of a memristor tends to contradict the typical quantum behavior.
By using single photons, i.e. single quantum particles of lights, and exploiting their unique ability to propagate simultaneously in a superposition of two or more paths, the physicists have overcome the challenge. In their experiment, single photons propagate along waveguides laser-written on a glass substrate and are guided on a superposition of several paths. One of these paths is used to measure the flux of photons going through the device and this quantity, through a complex electronic feedback scheme, modulates the transmission on the other output, thus achieving the desired memristive behavior. Besides demonstrating the quantum memristor, the researchers have provided simulations showing that optical networks with quantum memristor can be used to learn on both classical and quantum tasks, hinting at the fact that the quantum memristor may be the missing link between artificial intelligence and quantum computing.
“Unlocking the full potential of quantum resources within artificial intelligence is one of the greatest challenges of the current research in quantum physics and computer science”, says Michele Spagnolo, who is first author of the publication in the journal “Nature Photonics”. The group of Philip Walther of the University of Vienna has also recently demonstrated that robots can learn faster when using quantum resources and borrowing schemes from quantum computation. This new achievement represents one more step towards a future where quantum artificial intelligence become reality.
Here’s a link to and a citation for the paper,
Experimental photonic quantum memristor by Michele Spagnolo, Joshua Morris, Simone Piacentini, Michael Antesberger, Francesco Massa, Andrea Crespi, Francesco Ceccarelli, Roberto Osellame & Philip Walther. Nature Photonics volume 16, pages 318–323 (2022) DOI: https://doi.org/10.1038/s41566-022-00973-5 Published 24 March 2022 Issue Date April 2022
A March 24, 2022 news item on phys.org announced research into nanoscale crystals and how they might be integrated into electronic devices, Note: A link has been removed,
You can carry an entire computer in your pocket today because the technological building blocks have been getting smaller and smaller since the 1950s. But in order to create future generations of electronics—such as more powerful phones, more efficient solar cells, or even quantum computers—scientists will need to come up with entirely new technology at the tiniest scales.
One area of interest is nanocrystals. These tiny crystals can assemble themselves into many configurations, but scientists have had trouble figuring out how to make them talk to each other.
A new study introduces a breakthrough in making nanocrystals function together electronically. Published March 25  in Science, the research may open the doors to future devices with new abilities.
“We call these super atomic building blocks, because they can grant new abilities—for example, letting cameras see in the infrared range,” said University of Chicago Prof. Dmitri Talapin, the corresponding author of the paper. “But until now, it has been very difficult to both assemble them into structures and have them talk to each other. Now for the first time, we don’t have to choose. This is a transformative improvement.”
In their paper, the scientists lay out design rules which should allow for the creation of many different types of materials, said Josh Portner, a Ph.D. student in chemistry and one of the first authors of the study.
A tiny problem
Scientists can grow nanocrystals out of many different materials: metals, semiconductors, and magnets will each yield different properties. But the trouble was that whenever they tried to assemble these nanocrystals together into arrays, the new supercrystals would grow with long “hairs” around them.
These hairs made it difficult for electrons to jump from one nanocrystal to another. Electrons are the messengers of electronic communication; their ability to move easily along is a key part of any electronic device.
The researchers needed a method to reduce the hairs around each nanocrystal, so they could pack them in more tightly and reduce the gaps in between. “When these gaps are smaller by just a factor of three, the probability for electrons to jump across is about a billion times higher,” said Talapin, the Ernest DeWitt Burton Distinguished Service Professor of Chemistry and Molecular Engineering at UChicago and a senior scientist at Argonne National Laboratory. “It changes very strongly with distance.”
To shave off the hairs, they sought to understand what was going on at the atomic level. For this, they needed the aid of powerful X-rays at the Center for Nanoscale Materials at Argonne and the Stanford Synchrotron Radiation Lightsource at SLAC National Accelerator Laboratory, as well as powerful simulations and models of the chemistry and physics at play. All these allowed them to understand what was happening at the surface—and find the key to harnessing their production.
Part of the process to grow supercrystals is done in solution—that is, in liquid. It turns out that as the crystals grow, they undergo an unusual transformation in which gas, liquid and solid phases all coexist. By precisely controlling the chemistry of that stage, they could create crystals with harder, slimmer exteriors which could be packed in together much more closely. “Understanding their phase behavior was a massive leap forward for us,” said Portner.
The full range of applications remains unclear, but the scientists can think of multiple areas where the technique could lead. “For example, perhaps each crystal could be a qubit in a quantum computer; coupling qubits into arrays is one of the fundamental challenges of quantum technology right now,” said Talapin.
Portner is also interested in exploring the unusual intermediate state of matter seen during supercrystal growth: “Triple phase coexistence like this is rare enough that it’s intriguing to think about how to take advantage of this chemistry and build new materials.”
The study included scientists with the University of Chicago, Technische Universität Dresden, Northwestern University, Arizona State University, SLAC, Lawrence Berkeley National Laboratory, and the University of California, Berkeley.
Here’s a link to and a citation for the paper,
Self-assembly of nanocrystals into strongly electronically coupled all-inorganic supercrystals by Igor Coropceanu, Eric M. Janke, Joshua Portner, Danny Haubold, Trung Dac Nguyen, Avishek Das, Christian P. N. Tanner, James K. Utterback, Samuel W. Teitelbaum¸ Margaret H. Hudson, Nivedina A. Sarma, Alex M. Hinkle, Christopher J. Tassone, Alexander Eychmüller, David T. Limmer, Monica Olvera de la Cruz, Naomi S. Ginsberg and Dmitri V. Talapin. Science • 24 Mar 2022 • Vol 375, Issue 6587 • pp. 1422-1426 • DOI: 10.1126/science.abm6753
An April 5, 2022 news item on Nanowerk explains the connection between honey and a neuromorphic (brainlike) computer chip, Note: Links have been removed,
Honey might be a sweet solution for developing environmentally friendly components for neuromorphic computers, systems designed to mimic the neurons and synapses found in the human brain.
Hailed by some as the future of computing, neuromorphic systems are much faster and use much less power than traditional computers. Washington State University engineers have demonstrated one way to make them more organic too.
In a study published in Journal of Physics D (“Memristive synaptic device based on a natural organic material—honey for spiking neural network in biodegradable neuromorphic systems”), the researchers show that honey can be used to make a memristor, a component similar to a transistor that can not only process but also store data in memory.
“This is a very small device with a simple structure, but it has very similar functionalities to a human neuron,” said Feng Zhao, associate professor of WSU’s School of Engineering and Computer Science and corresponding author on the study.“This means if we can integrate millions or billions of these honey memristors together, then they can be made into a neuromorphic system that functions much like a human brain.”
For the study, Zhao and first author Brandon Sueoka, a WSU graduate student in Zhao’s lab, created memristors by processing honey into a solid form and sandwiching it between two metal electrodes, making a structure similar to a human synapse. They then tested the honey memristors’ ability to mimic the work of synapses with high switching on and off speeds of 100 and 500 nanoseconds respectively. The memristors also emulated the synapse functions known as spike-timing dependent plasticity and spike-rate dependent plasticity, which are responsible for learning processes in human brains and retaining new information in neurons.
The WSU engineers created the honey memristors on a micro-scale, so they are about the size of a human hair. The research team led by Zhao plans to develop them on a nanoscale, about 1/1000 of a human hair, and bundle many millions or even billions together to make a full neuromorphic computing system.
Currently, conventional computer systems are based on what’s called the von Neumann architecture. Named after its creator, this architecture involves an input, usually from a keyboard and mouse, and an output, such as the monitor. It also has a CPU, or central processing unit, and RAM, or memory storage. Transferring data through all these mechanisms from input to processing to memory to output takes a lot of power at least compared to the human brain, Zhao said. For instance, the Fugaku supercomputer uses upwards of 28 megawatts, roughly equivalent to 28 million watts, to run while the brain uses only around 10 to 20 watts.
The human brain has more than 100 billion neurons with more than 1,000 trillion synapses, or connections, among them. Each neuron can both process and store data, which makes the brain much more efficient than a traditional computer, and developers of neuromorphic computing systems aim to mimic that structure.
Several companies, including Intel and IBM, have released neuromorphic chips which have the equivalent of more than 100 million “neurons” per chip, but this is not yet near the number in the brain. Many developers are also still using the same nonrenewable and toxic materials that are currently used in conventional computer chips.
Many researchers, including Zhao’s team, are searching for biodegradable and renewable solutions for use in this promising new type of computing. Zhao is also leading investigations into using proteins and other sugars such as those found in Aloe vera leaves in this capacity, but he sees strong potential in honey.
“Honey does not spoil,” he said. “It has a very low moisture concentration, so bacteria cannot survive in it. This means these computer chips will be very stable and reliable for a very long time.”
The honey memristor chips developed at WSU should tolerate the lower levels of heat generated by neuromorphic systems which do not get as hot as traditional computers. The honey memristors will also cut down on electronic waste.
“When we want to dispose of devices using computer chips made of honey, we can easily dissolve them in water,” he said. “Because of these special properties, honey is very useful for creating renewable and biodegradable neuromorphic systems.”
This also means, Zhao cautioned, that just like conventional computers, users will still have to avoid spilling their coffee on them.
Nice note of humour at the end. There are a few questions, I wonder if the variety of honey (clover, orange blossom, blackberry, etc.) has an impact on the chip’s speed and/or longevity. Also, if someone spilled coffee and the chip melted and a child decided to lap it up, what would happen?
Everyone knows that humans and most other vertebrate species hear using eardrums that turn soundwave pressure into signals for our brains. But what about smaller animals like insects and arthropods? Can they detect sounds? And if so, how?
Distinguished Professor Ron Miles, a Department of Mechanical Engineering faculty member at Binghamton University’s Thomas J. Watson College of Engineering and Applied Science, has been exploring that question for more than three decades, in a quest to revolutionize microphone technology.
A newly published study of orb-weaving spiders — the species featured in the classic children’s book “Charlotte’s Web” — has yielded some extraordinary results: The spiders are using their webs as extended auditory arrays to capture sounds, possibly giving spiders advanced warning of incoming prey or predators.
Binghamton University (formal name: State University of New York at Binghamton) has made this fascinating (to me anyway) video available,
Binghamton University and Cornell University (also in New York state) researchers worked collaboratively on this project. Consequently, there are two news releases and there is some redundancy but I always find that information repeated in different ways is helpful for learning.
It is well-known that spiders respond when something vibrates their webs, such as potential prey. In these new experiments, researchers for the first time show that spiders turned, crouched or flattened out in response to sounds in the air.
The study is the latest collaboration between Miles and Ron Hoy, a biology professor from Cornell, and it has implications for designing extremely sensitive bio-inspired microphones for use in hearing aids and cell phone
Jian Zhou, who earned his PhD in Miles’ lab and is doing postdoctoral research at the Argonne National Laboratory, and Junpeng Lai, a current PhD student in Miles’ lab, are co-first authors. Miles, Hoy and Associate Professor Carol I. Miles from the Harpur College of Arts and Sciences’ Department of Biological Sciences at Binghamton are also authors for this study. Grants from the National Institutes of Health to Ron Miles funded the research.
A single strand of spider silk is so thin and sensitive that it can detect the movement of vibrating air particles that make up a soundwave, which is different from how eardrums work. Ron Miles’ previous research has led to the invention of novel microphone designs that are based on hearing in insects.
“The spider is really a natural demonstration that this is a viable way to sense sound using viscous forces in the air on thin fibers,” he said. “If it works in nature, maybe we should have a closer look at it.”
Spiders can detect miniscule movements and vibrations through sensory organs on their tarsal claws at the tips of their legs, which they use to grasp their webs. Orb-weaver spiders are known to make large webs, creating a kind of acoustic antennae with a sound-sensitive surface area that is up to 10,000 times greater than the spider itself.
In the study, the researchers used Binghamton University’s anechoic chamber, a completely soundproof room under the Innovative Technologies Complex. Collecting orb-weavers from windows around campus, they had the spiders spin a web inside a rectangular frame so they could position it where they wanted.
The team began by using pure tone sound 3 meters away at different sound levels to see if the spiders responded or not. Surprisingly, they found spiders can respond to sound levels as low as 68 decibels. For louder sound, they found even more types of behaviors.
They then placed the sound source at a 45-degree angle, to see if the spiders behaved differently. They found that not only are the spiders localizing the sound source, but they can tell the sound incoming direction with 100% accuracy.
To better understand the spider-hearing mechanism, the researchers used laser vibrometry and measured over one thousand locations on a natural spider web, with the spider sitting in the center under the sound field. The result showed that the web moves with sound almost at maximum physical efficiency across an ultra-wide frequency range.
“Of course, the real question is, if the web is moving like that, does the spider hear using it?” Miles said. “That’s a hard question to answer.”
Lai added: “There could even be a hidden ear within the spider body that we don’t know about.”
So the team placed a mini-speaker 5 centimeters away from the center of the web where the spider sits, and 2 millimeters away from the web plane — close but not touching the web. This allows the sound to travel to the spider both through air and through the web. The researchers found that the soundwave from the mini-speaker died out significantly as it traveled through the air, but it propagated readily through the web with little attenuation. The sound level was still at around 68 decibels when it reached the spider. The behavior data showed that four out of 12 spiders responded to this web-borne signal.
Those reactions proved that the spiders could hear through the webs, and Lai was thrilled when that happened: “I’ve been working on this research for five years. That’s a long time, and it’s great to see all these efforts will become something that everybody can read.”
The researchers also found that, by crouching and stretching, spiders may be changing the tension of the silk strands, thereby tuning them to pick up different frequencies. By using this external structure to hear, the spider could be able to customize it to hear different sorts of sounds.
Future experiments may investigate how spiders make use of the sound they can detect using their web. Additionally, the team would like to test whether other types of web-weaving spiders also use their silk to outsource their hearing.
“It’s reasonable to guess that a similar spider on a similar web would respond in a similar way,” Ron Miles said. “But we can’t draw any conclusions about that, since we tested a certain kind of spider that happens to be pretty common.”
Lai admitted he had no idea he would be working with spiders when he came to Binghamton as a mechanical engineering PhD student.
“I’ve been afraid of spiders all my life, because of their alien looks and hairy legs!” he said with a laugh. “But the more I worked with spiders, the more amazing I found them. I’m really starting to appreciate them.”
Charlotte’s web is made for more than just trapping prey.
A study of orb weaver spiders finds their massive webs also act as auditory arrays that capture sounds, possibly giving spiders advanced warning of incoming prey or predators.
In experiments, the researchers found the spiders turned, crouched or flattened out in response to sounds, behaviors that spiders have been known to exhibit when something vibrates their webs.
The paper, “Outsourced Hearing in an Orb-weaving Spider That Uses its Web as an Auditory Sensor,” published March 29  in the Proceedings of the National Academy of Sciences, provides the first behavioral evidence that a spider can outsource hearing to its web.
The findings have implications for designing bio-inspired extremely sensitive microphones for use in hearing aids and cell phones.
A single strand of spider silk is so thin and sensitive it can detect the movement of vibrating air particles that make up a sound wave. This is different from how ear drums work, by sensing pressure from sound waves; spider silk detects sound from nanoscale air particles that become excited from sound waves.
“The individual [silk] strands are so thin that they’re essentially wafting with the air itself, jostled around by the local air molecules,” said Ron Hoy, the Merksamer Professor of Biological Science, Emeritus, in the College of Arts and Sciences and one of the paper’s senior authors, along with Ronald Miles, professor of mechanical engineering at Binghamton University.
Spiders can detect miniscule movements and vibrations via sensory organs in their tarsi – claws at the tips of their legs they use to grasp their webs, Hoy said. Orb weaver spiders are known to make large webs, creating a kind of acoustic antennae with a sound-sensitive surface area that is up to 10,000 times greater than the spider itself.
In the study, the researchers used a special quiet room without vibrations or air flows at Binghamton University. They had an orb-weaver build a web inside a rectangular frame, so they could position it where they wanted. The team began by putting a mini-speaker within millimeters of the web without actually touching it, where sound operates as a mechanical vibration. They found the spider detected the mechanical vibration and moved in response.
They then placed a large speaker 3 meters away on the other side of the room from the frame with the web and spider, beyond the range where mechanical vibration could affect the web. A laser vibrometer was able to show the vibrations of the web from excited air particles.
The team then placed the speaker in different locations, to the right, left and center with respect to the frame. They found that the spider not only detected the sound, it turned in the direction of the speaker when it was moved. Also, it behaved differently based on the volume, by crouching or flattening out.
Future experiments may investigate whether spiders rebuild their webs, sometimes daily, in part to alter their acoustic capabilities, by varying a web’s geometry or where it is anchored. Also, by crouching and stretching, spiders may be changing the tension of the silk strands, thereby tuning them to pick up different frequencies, Hoy said.
Additionally, the team would like to test if other types of web-weaving spiders also use their silk to outsource their hearing. “The potential is there,” Hoy said.
Miles’ lab is using tiny fiber strands bio-inspired by spider silk to design highly sensitive microphones that – unlike conventional pressure-based microphones – pick up all frequencies and cancel out background noise, a boon for hearing aids.
It’s like the flood gates have opened and I am being inundated with event notices. The latest is from Toronto’s (Canada) ArtSci Salon (again). From a September 21, 2022 notice (received via email),
Basic Necessities Connectivity and cultural creativity in Cuba
A public lecture by Nestor Siré With online participation by Steffen Köhn
Join me in welcoming Nestor Siré. Nestor Siré is a multimedia artist based in Cuba. His projects and collaborations explore unofficial methods for circulating information and goods, such as alternative forms of economic production, and phenomena resulting from social creativity and recycling, piracy, as well as a-legal activities benefitting from loopholes. Siré will discuss some of his recent creative works in the Cuban context. His “Paquete Semanal” is an offline digital media circulation system based on in person file sharing to provide a solution to connectivity and infrastructure failure in Cuba. “Basic Necessities”, a recent collaboration with Steffen Köhln, portraits the dynamics of the informal economy in Cuba as it unfolds in Telegram groups and analyses the eclectic and creative uses of product photography within this digital context. Köhln will join him in conversation via zoom.
October 3, 2022 4:30-6:00 pm [ET] Room YH 245 Glendon Campus [York University] 2275 Bayview Ave North York, ON M4N 3M6 Directions
Nestor Siré (*1988), lives and works in Havana, Cuba. www.nestorsire.com Nestor Siré’s artistic practice intervenes directly in social contexts in order to analyze specific cultural phenomena, often engaging with the particular idiosyncrasies of digital culture in the Cuban context. His works have been shown in the Museo Nacional de Bellas Artes (Havana), Queens Museum (New York), Rhizome (New York), New Museum (New York), Hong-Gah Museum (Taipei), Museo de Arte Contemporáneo (Mexico City), Museo de Arte Contemporáneo, Santa Fe (Argentina), The Photographers’ Gallery (London), among other places. He has participated in events such as the Manifesta 13 Biennial (France), Gwangju Biennale (South Korea), Curitiba Biennial (Brazil), the Havana Biennial (Cuba) and the Asunción International Biennale (Paraguay), the Festival of New Latin American Cinema in Cuba and the Oberhausen International Festival of Short Film (Germany).
Steffen Köhn is a filmmaker, anthropologist and video artist who uses ethnography to understand contemporary sociotechnical landscapes. For his video and installation works he engages in local collaborations with gig workers, software developers, or science fiction writers to explore viable alternatives to current distributions of technological access and arrangements of power. His works have been shown at the Academy of the Arts Berlin, Kunsthaus Graz, Vienna Art Week, Hong Gah Museum Taipei, Lulea Biennial, The Photographers’ Gallery and the ethnographic museums of Copenhagen and Dresden. His films have been screened (among others) at the Berlinale, Rotterdam International Film Festival, and the Word Film Festival Montreal.
I tried to find out if this event will be webcast or streamed but was unsuccessful. You can check the ArtSci Salon website, perhaps they’ll post something closer to the event date.
The Canadian Science Policy Centre’s September 22, 2022 announcement (received via email) includes this nugget of information,
The Canadian Forum on Innovation and Societal Impact [CFSI] will launch in the Fall 2022 with a first series of catalyst roundtables, deliberative dialogues and concertation workshops at McMaster University on October 12th and 13th, 2022. A joint-venture of the Canadian Science Policy Centre and The/La Collaborative, CFISI will convene social research and innovation stakeholders across sectors with the purpose of exploring alignment on policies and practices that leverage impact-first training and knowledge mobilisation in the Social Sciences, Humanities and Arts (SSHA) to foster innovation and build capacity in the social and municipal sectors. For more information, please click here.
I went to the CFSI webpage on the McMaster University website and found this,
The objective of the inaugural meeting is to understand how universities can better utilize and mobilize social and human knowledge into their communities, in particular into social sector organizations (non-profit, charities, funders) and municipal governments. What are the knowledge gaps? What are the needs and priorities in social sector organizations and the social innovation ecosystem? Which approaches to cross-sectoral and interdisciplinary collaborations can help address the biggest social and policy challenges?
The event is by invitation only [emphasis mine], and will proceed under the Chatham House rules. Sessions will leverage strategic visioning and deliberative dialogue to create stakeholder alignment and deliver a first series of action plans.
Participants will bring individual and organisational perspectives on a range issues including:
The nature and structure of innovation in the social sector.
Campus-community relationship and the challenges of knowledge mobilisation in social innovation ecosystem
The role of municipal governments in fostering innovation in the social space
Needs around policy innovation and talent in the social and municipal sector.
Contribution of Indigenous knowledge to social sector, local policy making
Who are the Participants?
Social sector organisation leaders
Social Innovation stakeholders
Research and higher education policy stakeholders
Decision- and policy-makers from municipal governments
Social and human sciences researchers
Concertation and Action Plan
The event is intended as a concertation and consultation. Sense-making workshops and consultative roundtables will aim at building consensus around key concepts and best-practices. Catalysts panels and reporting sessions will aim to establish a shared vision for an action plan around cross-sectoral strategies for innovation in the social impact ecosystem.
The genuinely cross-sectoral setting will provide an opportunity to learn from a variety of perspectives in an effort to reduce barriers to knowledge-driven collaboration and partnerships and increase the social capital of research institutions to streamline impact.
This is where it got interesting,
SUBMIT A LETTER OF INTENT TO REQUEST PARTICIPATION
The event is by invitation only and will proceed under the Chatham House rules. Those with a demonstrated interest in the theme of the Forum can submit a letter of intent to request participation in the meeting. The number of places is limited.
Please fill out the participation request FORM and return it to:
If you’ve been longing for an opportunity to discover more and to engage in discussion about brain-machine interfaces (BMIs) and their legal, technical, and ethical issues, an opportunity is just a day away. From a September 20, 2022 (US) National Academies of Sciences, Engineering, and Medicine (NAS/NASEM or National Academies) notice (received via email),
Sept. 22-23  Workshop Explores Technical, Legal, Ethical Issues Raised by Brain-Machine Interfaces [official title: Brain-Machine and Related Neural Interface Technologies: Scientific, Technical, Ethical, and Regulatory Issues – A Workshop]
Technological developments and advances in understanding of the human brain have led to the development of new Brain-Machine Interface technologies. These include technologies that “read” the brain to record brain activity and decode its meaning, and those that “write” to the brain to manipulate activity in specific brain regions. Right now, most of these interface technologies are medical devices placed inside the brain or other parts of the nervous system – for example, devices that use deep brain stimulation to modulate the tremors of Parkinson’s disease.
But tech companies are developing mass-market wearable devices that focus on understanding emotional states or intended movements, such as devices used to detect fatigue, boost alertness, or enable thoughts to control gaming and other digital-mechanical systems. Such applications raise ethical and legal issues, including risks that thoughts or mood might be accessed or manipulated by companies, governments, or others; risks to privacy; and risks related to a widening of social inequalities.
A virtual workshop [emphasis mine] hosted by the National Academies of Sciences, Engineering, and Medicine on Sept. 22-23  will explore the present and future of these technologies and the ethical, legal, and regulatory issues they raise.
The workshop will run from 12:15 p.m. to 4:25 p.m. ET on Sept. 22 and from noon to 4:30 p.m. ET on Sept. 23. View agenda and register.
For those who might want a peak at the agenda before downloading it, I have listed the titles for the sessions (from my downloaded Agenda, Note: I’ve reformatted the information; there are no breaks, discussion periods, or Q&As included),
Sept. 22, 2022 Draft Agenda
12: 30 pm ET Brain-Machine and Related Neural Interface Technologies: The State and Limitations of the Technology
2:30 pm ET Brain-Machine and Related Neural Interface Technologies: Reading and Writing the Brain for Movement
Sept. 23, 2022 Draft Agenda
12:05 pm ET Brain-Machine and Related Neural Interface Technologies: Reading and Writing the Brain for Mood and Affect
2:05 pm ET Brain-Machine and Related Neural Interface Technologies: Reading and Writing the Brain for Thought, Communication, and Memory
4:00 pm ET Concluding Thoughts from Workshop Planning Committee
Regarding terminology, there’s brain-machine interface (BMI), which I think is a more generic term that includes: brain-computer interface (BCI), neural interface and/or neural implant. There are other terms as well, including this one in the title of my September 17, 2020 posting, “Turning brain-controlled wireless electronic prostheses [emphasis mine] into reality plus some ethical points.” I have a more recent April 5, 2022 posting, which is a very deep dive, “Going blind when your neural implant company flirts with bankruptcy (long read).” As you can see, various social issues associated with these devices have been of interest to me.
I’m not sure quite what to make of the session titles. There doesn’t seem to be all that much emphasis on ethical and legal issues but perhaps that’s the role the various speakers will play.
I got a notice (via email) from Toronto’s ArtSci Salon about Sensoria: The Art and Science of Our Senses 2022. This looks interesting and it is confusing as to which site is hosting which installations/art pieces. It starts nice and easy and then … Here’s more from the notice,
Sensoria: the Art & Science of Our Senses is a multi-site exhibition and symposium that bridges LAZNIA Centre for Contemporary Art (LCCA) in Gdansk, Poland and Sensorium: Centre for Digital Arts & Technology at York University in Toronto, Canada.
Held simultaneously in both locations, the exhibition and symposium will engage multi-sensory research that revitalizes our sensory connections to our surroundings, through and despite technological tools, networks and latencies.
The exhibition component is co-curated by distinguished curator Nina Czegledy (Agents for Change: Facing the Anthropocene, 2020 & Leonardo/ ISAST 50th Celebrations, 2018) and Sensorium director Joel Ong. Czegledy brings together an international network of artists and scholars who explore the intersection of art, science and the senses. Sited concurrently in both Poland and Toronto, the exhibition will explore the dissociative potential of contemporary technologies on the senses, treating it not only as a social crisis but also an opportunity for creative play and experimentation. It aims to engage a conversation about the senses from the perspective of art, but also science, incorporating artists that straddle the boundaries of knowledge production in a variety of ways.
The event will be complemented by a workshop by Csenge Kolozsvari.
Kolozsvari brings together somatic practices (crawling side by side, drawing, moving with bags full of water, walking backwards, playing with breath, touching textures, voicing etc.) with the concept of the schiz, cut, or interval, following philosophers Deleuze and Guattari in their book Anti-Oedipus. The aim is to build practices that do not presuppose where bodies begin and end, and to agitate the habitual narratives of bodily borders and edges as solid and knowable.
The symposium leverages the exhibition content as the starting point for more in-depth conversation about the connective aesthetics of everyday sensing and the knowledge-creation potential of artists and scientists collaborating in innovative ways. The socio-political turbulences we have experienced worldwide during the last decade have created unprecedented social and personal strife. While connections are sustained now amongst virtual networks that straddle vast spaces, how might we consider the sharing of intimate senses through smell, touch, and bodily movement as a form of mutual support? The symposium explores questions such as these with keynote presentations by Ryszard Khuszcynski [I believe this is the correct spellling: Ryszard Kluszczyński], Chris Salter and David Howse, as well as roundtables between artists and scientists, and performances by Csenge Kolozsvari and York University’s DisPerSions Lab (led by Doug Van Nort). All aspects of the symposium will be presented with virtual components, so as to allow both in-person engagement in Toronto and virtual presence in Gdansk and elsewhere.
Now for details about the Gdansk portion, from the LAZNIA Centre for Contemporary Art (LCCA) event page, (Note 1: This is quite lengthy. Note 2: If you follow the link to the LCCA event page, you may need to click the English language option [upper right hand corner of the screen] and, then, scroll down to click MORE at the bottom of the left text column.)
Dates of the exhibition: 16 September–30 October 2022 Location: CCA Laznia 1 oraz CCA Laznia 2 Curator: Nina Czegledy
Exhibition: September 16-October 30, 2022 Places: Laznia 1 ( Jaskółcza 1) and Laznia 2 (Strajku Dokerów 5), Gdańsk
Opening: September 16, 2022 – time. 19.00 (Laznia 1, Dolne Miasto) – time. 20.30 (Laznia 2, Nowy Port)
During the vernissage, we provide transport by bus from Łaźnia 1 to Łaźnia 2 and back.
Artists: Guy van Belle | Karolina Hałatek | Csenge Kolozsvari | Hilda Kozari | Agnes Meyer-Brandis | Gayil Nalls | Raewyn Turner and Brian Harris | Artur Żmijewski
Sensoria, The Art & Science of Our Senses
Sensoria, The Art & Science of Our Senses a multi-site project is focused on multisensory perception in the arts and the sciences. The cross-disciplinary initiative explores our sensory world through scientific, social, cultural and scholastic interpretations. The exhibitions, performances and the symposium link LAZNIA Centre for Contemporary Art (LCCA) in Gdansk, Poland (1) and Sensorium: Centre for Digital Art and Technology at York University, Toronto, Canada (2) in a cross-institutional and inter-cultural collaboration. The participation of international artists in the exhibition and symposium span the globe from New Zealand to Finland to the Czech Republic and reflect on the effects of recent ecological and socio-cultural alterations on sensory organisms in humans and other species.
We perceive the world through our senses, yet for a long time the senses were treated as independent perceptual modules. Contemporary research confirmed that our senses are fundamentally interrelated and interact with each other (3). Moreover, our perception of visual, auditory or tactile events change as a result of information exchange between receptors (4). The impact of radical changes such as the constraints of the COVID 19 Pandemic caused extensive psycho-emotional stress and has affected every aspect of our life from geopolitics to economies to the arts and sciences including sensory awareness (5). Considering implications of COVID-19 for the human senses Derek Victor Byrne noted that initial work has shown short- and likely longer-term negative effects on the human senses (6). Curatorial reflection of these issues presented in the last years became essential.
The way that we perceive our environment via our sensory systems has been frequently a source of controversy concerning one of the basic characteristics of our existence. (7).
As David Howes observed ”The perceptual is cultural and political, and not simply (as psychologists and neuroscientists would have it) a matter of cognitive processes or neurological mechanisms located in the individual subject” (8)
With the changing notions of the constitution of sentient beings a revision of knowledge – led to a closer engagement with the traditional experience by indigenous peoples. The benefits of Nature on our sensorial being are well known, however it is important to remember that our attitude to, and representation of Nature is always closely linked to political, religious, environmental and social considerations. In investigating sensory awareness the impact of the geographical, cultural and social context on individual sensory perception cannot be underestimated (9).
Curatorial research and development of the Sensoria project since 2019 was aimed to present the theme in an unconventional way. International artist residencies, workshops, presentations and thematically related round table discussions in collaboration with local Polish academic and corporate research institutions were offered before the Pandemic in 2019 and 2020. Strategically, the exhibitions now focus on a “return” to the sensory capacity of the body after the last two and a half years of telematic and virtual modes of communication that have biased the audio-visual spectrums of sensory experience.
While the estrangement of the senses have been exacerbated by technologies in the way media elements have contributed to the dissociation of the senses from one another and a subsequent bias of audio-visual content in our digital and virtual environments, the SENSORIA exhibition adapt what Caroline Jones (10) has described as the “creatively dissociated self”. In her landmark exhibition “Sensorium” of 2006 , she considers the dissociative potential of contemporary technologies on the senses as an invitation to engage in creative play and experimentations around this prospect. In this way, SENSORIA builds on the unique interests of the artists curated around the olfactory, tactile and sonic senses; and explores the tensions of telematic/virtual co-presence over two geographically separate galleries.
The exhibition’s primary goal is to create a broad visibility for the wide variety of art project concerning sensory perception. It aims to engage a conversation about the senses from the perspective of art, but also science, incorporating artists that straddle the boundaries of knowledge production in a variety of ways. In Poland, the exhibition linked established European artists with local Polish ones; the Toronto hub similarly links international artists in the main hubs with local artists. In this way, the exhibition forges networks across continents and ideas, bringing a range of different perspectives together to explore how our globalized world has both linked and disconnected us from one another. In addition, being situated simultaneously in both sites, Sensoria also builds on the unique interests of the artists curated around the olfactory, tactile and sonic senses; and explores the tensions of telematic/virtual co-presence over two geographically separate galleries. Sensoria artists, curated through a collaborative process with the project’s lead curators and team members, have been invited to considered site-specific adaptations of their internationally renowned artworks. In this way, the goal of the project is to revitalize our sensory connections to our immediate surroundings, through and despite technological tools, networks and latencies; and to share in a collective experience and discussion of them. In addition, the symposium component hosted by Sensorium at York University focuses on a “return” to the sensory capacity of the body after the last two and a half years of telematic and virtual modes of communication that have biased the audio-visual spectrums of sensory experience. The constraints of the Pandemic have precipitated our current estrangement from our sensuous surroundings, and with the gradual and tentative reopening of regulations in North America, Europe and the world this Spring, we expect a resurgence in a desire for people to engage once again with the multi-sensory sensorium, prioritizing the senses of smell, touch and taste that have broadly been neglected in collective experience. The Sensoria symposium will feature artists, curators and theorists through a series of keynote lectures, performances and artist panels.
Sincere thanks to the LAZNIA Team, especially Lila Bosowska and Aleksandra Ksiezopolska for our curatorial collaboration in the difficult times of the last three years. Sincere thanks to Ryszard Kluszczyński for advising the Sensoria project.
Respectful acknowledgements to Jadwiga Charzynska Director of Laznia.
Last but not least deepest thanks to Prof. Yu-Zhi Joel Ong for his role in expanding Sensoria into an international cross-institutional collaboration.
2 Sensorium: Centre for Digital Art and Technology at York University (Sensorium) Toronto, Canada. https://sensorium.ampd.yorku.ca/
3 Burston, D and Cohen J. 2015 Perceptual Integration, Modularity, and Cognitive Penetration In: Cognitive Influences on Perception: Implications for Philosophy of Mind, Epistemology, and Philosophy of Action (pp.123-143). Oxford University Press
4 Masrour F, Nirshberg, G, Schon Nm Leardi J and Barrett Emily Revisiting the empirical case against perceptual modularity Front Psychol. 2015; 6: 1676. Published online 2015 Nov 4. doi: 10.3389/fpsyg.2015.01676
5. Tasha R Stanton, T,R and Spence Charles. The Influence of Auditory Cues on Bodily and Movement Perception. Front. Psychol., 17 January 2020 Sec. Perception Science https://doi.org/10.3389/fpsyg.2019.03001
6. Byrne, V Effects and Implications of COVID-19 for the Human Senses, Consumer Preferences, Appetite and Eating Behaviour: Volume I Foods. 2022 Jun; 11(12): 1738. Published online 2022 Jun 14. doi: 10.3390/foods11121738
7. Mc Cann, H. Our sensory experience of the pandemic https://pursuit.unimelb.edu.au/
8 Howes, D Architecture of the Senses. https://www.david-howes.com/DH-research-sampler-arch-senses.htm
9 D B Rose Val Plumwood’s Philosophical Animism: Attentive Inter-actions in the Sentient World Environmental Humanities 3(1):93-19
10 Jones C. The Mediated Sensorium. https://citythroughthebody.files.wordpress.com/2013/08/sensorium.pdf
Descriptions of the artworks presented at Sensoria:
Agnes Meyer Brandis Berlin based artist contributes One Tree ID and Have a tea with a Tree“ to the Sensoria exhibition. One Tree ID is a biochemical and Biopoetic Odour Communication Installation The project One Tree ID transforms the ID of a specific tree into a perfume that can then be applied to the human body. By applying it, a person can invisibly wear not just characteristics of the tree he/she is standing next to, but also use parts of its communication system and potentially have a conversation that – although invisible and inaudible by nature – might still take place on the biochemical level plants use for information exchange. VOC and Have a tea with a Tree provides a booking link to a personal video conference with up to 16 trees. The trees will participate in real time. Address for conference booking: www.teawithatree.com. The internet protocol is secured.
Polish artist Karolina Hałatek will present “Ascent” – a large-scale site-specific light installation that embodies a variety of archetypical and physical associations – from microscopic observations, electromagnetic wave dynamics, and atmospheric phenomena of a whirlwind to a spiritual epiphany. Most importantly, Ascent offers a unique immersive experience, that invites the viewer to become its central point, and transforms the perception of the viewer on a sensual level. The light and the fog create a monumental dynamic space that is participatory, the space that opens up a new dimension and directs the attention toward the bodily sensations in the explicit environment. The viewer is free to approach the work according to its own sensual response, but direct interaction can offer the potential to evoke a new perceptual imagination.
Bodylandscapes by Csenge Kolozsvari is a single channel video piece feeling-with the fascial planes (connective tissues) of bodies; thinking them beyond human scales and temporalities, as constantly emerging fields. The camera is a listening device for the softness of skin-talk; a composition of detailed skin-textures and close-ups of body parts that are imperceptibly transitioning into one another, following creases and swellings, creating landscapes in-the-making. The video is a proposition for remembering the ecological ways of our belonging, of other ways of knowing, connecting into the vastness that surrounds us and moves across us, of becoming-environment once again.
Artur Zmijewski a Polish artist asked a group of visually impaired people to paint the world as they see it. The result is compiled in Blindly a video with sound. Some of the volunteers were congenitally disabled; others became blind in their lifetime. In the film they draw self-portraits and landscapes, occasionally asking the artist for instructions or giving verbal explanation for their decisions. Their paintings are clumsy and abstract. It is however not the resulting works but the process of making them that is at the core of the film.
Hilda Kozari leads a 3 hour-long memory workshop with visually impaired participants and Emilia Leszkowicz a local neuroscientist coordinated with the Education Department of LAZNIA. The workshop is focused on, triggering smell memories and discussions of the scents and the memories triggered by them. Tactility is also a theme of this workshop for the visually impaired participants which is conveyed via felt discs in various sizes. From the different sizes of the discs it is possible to form the Braille verbs and messages.
The findings and results of the workshop material to be transferred on the Sensoria exhibition walls. The multisensory installation is accessible for visually impaired visitors during the exhibition. For other visitors for rethinking perception, enjoying the smell and touch of the installation and seeing the Braille signs as spatial, visually fascinating structure. It is hoped that this is an opportunity recognising the visually impaired as active members of the community.
Gayil Nalls from New York city brings her World Sensorium project to Sensoria World Sensorium which was officially part of New York City’s millennium event “Times Square 2000: The Global Celebration at the Crossroads of the World,” where for 24 hours around New Year’s Eve, the peoples and cultures of nations around the world were celebrated through sight, sound, and—with World Sensorium— scent. World Sensorium is a large-scale, transdisciplinary, olfactory artwork comprised of botanical substances formulated by country population percentages into a single global essence. The phytoconstituents are those most valued by humanity since ancient times, plants established through ethnobotanical research and a global survey process with world governments. Discussion of the World Sensorium link between psychology and olfaction, and the phenomena of odor-evoked memory follows. Individuals attending are invited to participate in ‘Experience World Sensorium:Poland “ and have a chance to dive beneath the insightful a fragmentary memoir of their own experience at a future date.
Raewyn Turner & Brian Harris, New Zealand based artists present Read Reed at Sensoria. Read Reed proceeds from the mythological story of the discretion of Midas’s hairdresser who, feeling that he may betray Midas’s trust, dug a hole in the earth and spoke into it whereby he laid his secret, only to have the secret broadcast to the world via the whispering reeds which grew over the hole. ReedRead relates to data misinterpretation, hidden secrets and the desire for vast wealth. The artists are using the story of secrets whispered into a hole in the earth and the inevitable leakage and exposure of secrets as a starting point. Data from any source including reeds swishing in the wind may be formed into letters and words that relate to digital capitalism and the obscuring of knowledge through the unknowns of ambiguity, uncertainty and risk. Both the clandestine nature of pervasive monitoring and the authorization for increasing the scope and breadth of collected information originates with NSA’s aspiration to sniff it all, know it all, exploit it all etc., and is part of creating the conditions for digital capitalism.
Guy Van Belle in collaboration with Krzysztof Topolski and the Gdansk University Choir present Fanfara Gdansk performance using a simple and open setup for the participatory visitors/performers. For centuries the arts were rather interested in the non-human expressions around or communication and phenomena that we faintly or hardly understand. To quote Paul Demarinis “Music is sound to my ears”. The sound score gives an indication of discrete and continuous time, pitches and amplitudes, complexities and silences, some combinatory ideas, etc. in the form of sounds you can listen to, sing/play along with it or counter, imitate and enrich it… The expressivity and performativity aims at providing a real time interpretation of the sound score.
The Fanfara Gdansk performance consists of a backtrack with recorded and computer generated birdsongs, which is transmitted over local FM, and received by the musicians on headsets from their phones, tables, portable radio receivers. All musicians are ‘singing’ along with the birdsongs, but they can also bring additional small handheld objects that produce sound: battery operated electronics; resonating objects, … some megaphones and small amplifiers will be available, but all wearable. The singers from the choir move slowly in formation together with the additional musicians and participatory audience, towards the entrance of the exhibition. Any single movement from the musicians and the audience influences the position of the others.
There’s more about the Toronto portion of the exhibitions, etc. on York University’s Sensorium Centre for Digital Arts and Technologies’ events page, Note: This is where it gets a little confusing as it seems that some of these artists are displaying the same pieces in two different cities at the same time: World Sensorium has a version in Poland and a version in Toronto; Read Reed is in Poland and ReedRead is in Toronto; I’m not sure about One Tree ID, which seems to be in two places at once,
SENSORIA: the Art & Science of Our Senses is a multi-site exhibition and symposium that bridges LAZNIA Centre for Contemporary Art (LCCA) in Gdansk, Poland and Sensorium: Centre for Digital Arts & Technology at York University in Toronto, Canada. Held simultaneously in both locations, the exhibition and symposium will engage multi-sensory research that revitalizes our sensory connections to our surroundings, through and despite technological tools, networks and latencies.
September 26 – October 14, 2022 Gales Gallery, York University 105 Accolade West Building, 86 Fine Arts Road, Toronto, ON
Held at the Gales Gallery, the Sensoria exhibition will feature the works:
One Tree ID. Agnes Meyer-Brandis, SunEaters. Grace Grothaus, World Sensorium. Gayil Nalls, Emergent: A Mobile Gallery featuring “The Connection”, Michaela Pňaček, Roberta Buiani, Lorella Di Cintio and Kavi ReedRead. Raewyn Turner/ Brian Harris Kinetic Shadows. Hrysovalanti Maheras Marching Choir Guy Van Belle
Running from Oct. 4–5 (9am – 12noon EST), The symposium will feature keynote lectures by Ryszard Kluszcynski , Chris Salter and David Howse; roundtable discussions by the artists/theorists/scientists Agnes Meyer-Brandis, Gayil Nalls, Rasa Smite, Katarzyna Pastuszak, Grace Grothaus, Katarzyna Sloboda, Raewyn Turner/Brian Harris, Hilda Kosari [a web search suggests that Kozari is a more correct spelling] and Agnieszka Sorokowska.
In addition, Csenge Kolozsvari will be leading the Schizo-Somatic Workshop on Oct. 3, 2022. Please click on the hyperlinks for separate registration.
Tuesday, Oct. 4: 9am – 130pm EST 9:00 : Introductions and land acknowledgement (Joel Ong) 9:05 : Introduction from Sensoria Curator (Nina Czegledy) 9:10 : Introduction from LAZNIA (Jadwiga Charzynska, Director) 9:30 : Keynote 1 —Professor Ryszard Kluszcynski 10:30 : Sensoria Panel 1 — Agnes Meyer-Brandis, Gayil Nalls, Rasa Smite, Katarzyna Pastuszak, Grace Grothaus (Discussant) 12:00 : Lunch Break 12:30 : Keynote Performance 1 — Csenge Kolozsvari [Sensorium Flex Space] + Q&A 1:30 : End
Wednesday Oct 5th 9am – 130pm EST
9:00 : Introductions and land acknowledgement 9:10 : Curatorial presentation (Toronto curatorial team) 9:30 : Keynote 2 — Professors Chris Salter and David Howse 10:30 : Sensoria Panel 2 — Katarzyna Sloboda, Raewyn Turner/Brian Harris, Hilda Kosari, Agnieszka Sorokowska, Hrysovalanti Maheras (Discussant) 12:00 : Lunch Break 12:30 : Keynote Performance 2 — Doug Van Nort Telematic Orchestra [DisPerSions Lab] + Q&A 1:30 : Ending Notes
SENSORIA: the Art & Science of Our Senses is a multi-site exhibition and symposium that bridges LAZNIA Centre for Contemporary Art (LCCA) in Gdansk, Poland and Sensorium: Centre for Digital Arts & Technology at York University in Toronto, Canada. Held simultaneously in both locations, the exhibition and symposium will engage multi-sensory research that revitalizes our sensory connections to our surroundings, through and despite technological tools, networks and latencies.
The exhibition is co-curated by distinguished curator Nina Czegledy (Agents for Change: Facing the Anthropocene, 2020 & Leonardo/ISAST 50th Celebrations, 2018) and Sensorium director Joel Ong, with the support of assistant curators Eva Lu and Cleo Sallis-Parchet. Sensoria explores the intersection of art, science and the senses, bringing together an international network of artists: Guy van Belle, Roberta Buiani, Lorella Di Cintio, Grace Grothaus, Kavi, Hrysovalanti Maheras, Agnes Meyer-Brandis, Gayil Nalls, Michael Palumbo, Michaela Pnacekova, Raewyn Turner and Brian Harris. Sited concurrently in both Poland and Toronto, the exhibition will explore the dissociative potential of contemporary technologies on the senses, treating it not only as a social crisis but also an opportunity for creative play and experimentation. It aims to engage a conversation about the senses from the perspective of art, but also science, incorporating artists that straddle the boundaries of knowledge production in a variety of ways.
The symposium leverages the exhibition content as the starting point for more in-depth conversation about the connective aesthetics of everyday sensing and the knowledge-creation potential of artists and scientists collaborating in innovative ways. The socio-political turbulences we have experienced worldwide during the last decade have created unprecedented social and personal strife. While connections are sustained now amongst virtual networks that straddle vast spaces, how might we consider the sharing of intimate senses through smell, touch, and bodily movement as a form of mutual support? The symposium explores questions such as these with keynote presentations by Ryszard Khuszcynsk [Kluszcynski]i, Chris Salter and David Howse, as well as roundtables between artists and scientists: Agnes Meyer-Brandis, Gayil Nalls, Rasa Smite, Katarzyna Pastuszak, Grace Grothaus, Katarzyna Sloboda, Hilda Kosari [Kozari], Agnieszka Sorokowska, Hrysovalanti Maheras, Raewyn Turner and Brian Harris. All aspects of the symposium will be presented with virtual components, so as to allow both in-person engagement in Toronto and virtual presence in Gdansk and elsewhere.
The event will be complemented by a workshop byCsenge Kolozsvari. Kolozsvari’s Schizo-Somatic Session brings together somatic practices (crawling side by side, drawing, moving with bags full of water, walking backwards, playing with breath, touching textures, voicing etc.) with the concept of the schiz, cut, or interval, following philosophers Deleuze and Guattari in their book Anti-Oedipus. The aim is to build practices that do not presuppose where bodies begin and end, and to agitate the habitual narratives of bodily borders and edges as solid and knowable.
Csenge Kolozsvari’s performance The Power of the Spill is a multidisciplinary live performance working at the intersection of digital and imaginary technologies. It uses live video feedback, algorithmic processes of image (Hydra), sound as well as a movement-choreography informed by somatic practices. This project is a study on visual perception and how it affects our ways of making sense of the world, aiming to create an alternative lens that acknowledges the vitality of objects, a topology that is cross-species, the ways seemingly separate entities are in constant exchange, towards a more ecological way of being. The performance is in collaboration with Kieran Maraj, with original live coding by Rodrigo Velasco. Performance will be followed by a Q&A with the artist.
Doug Van Nort’s performance The Telematic Orchestra
The sense of touch (or tactility) is not highlighted in the image for the poster but there are some workshops which incorporate that sense.
I apologize for the redundancies and for not correcting or noting the errors in the various texts and with people’s names.
One final note, York University’s Sensorium Centre for Digital Arts and Technologies was last mentioned here in an October 26, 2020 posting about an ArtSci Salon event.
Late last week (at the end of Friday, Sept. 16, 2022) I saw a notice about a Science Summit at the 77th United Nations (UN) General Assembly. (BTW, Canadians may want to check out the Special note further down this posting.) Here’s more about the 8th edition of the Science Summit from the UN Science Summit webpage (Note: I have made some formatting changes),
ISC [International Science Council] and its partners will organise the 8th edition of the Science Summit around the 77th United Nations General Assembly (UNGA77) on 13-30 September 2022.
The role and contribution of science to attaining the United Nations Sustainable Development Goals (SDGs) will be the central theme of the Summit. The objective is to develop and launch science collaborations to demonstrate global science mechanisms and activities to support the attainment of the UN SDGs, Agenda 2030 and Local2030. The meeting will also prepare input for the United Nations Summit of the Future, which will take place during UNGA78 beginning on 12 September 2023.
The UN General Assembly (UNGA) has elected, by acclamation, Csaba Kőrösi, Director of Environmental Sustainability at the Office of the President of Hungary, to serve as President of its 77th session. In his acceptance speech, Kőrösi said his presidency’s efforts will be guided by the motto, ‘Solutions through Solidarity, Sustainability and Science.’ He will succeed Abdulla Shahid of Maldives, current UNGA President, assuming the presidency on 13 September 2022
The Summit will examine what enabling policy, regulatory and financial environments are needed to implement and sustain the science mechanisms required to support genuinely global scientific collaborations across continents, nations and themes. Scientific discovery through the analysis of massive data sets is at hand. This data-enabled approach to science, research and development will be necessary if the SDGs are to be achieved.
SSUNGA77 builds on the successful Science Summit at UNGA76, which brought together over 460 speakers from all continents in more than 80 sessions.
SSUNGA77 will bring together thought leaders, scientists, technologists, innovators, policymakers, decision-makers, regulators, financiers, philanthropists, journalists and editors, and community leaders to increase health science and citizen collaborations across a broad spectrum of themes ICT, nutrition, agriculture and the environment.
Present key science initiatives in a series of workshops, presentations, seminars, roundtables and plenary sessions addressing each UN SDG.
Promote collaboration by enabling researchers, scientists and civil society organisations to become aware of each other and work to understand and address critical challenges.
Promote inclusive science, including increasing access to scientific data by lower and middle-income countries.
Focus meetings will be organised around each of the UN SDGs, bringing key stakeholders together to understand and advance global approaches.
Priority will be given to developing science capacity globally to implement the SDGs.
Demonstrate how research infrastructures work as a driver for international cooperation.
Promote awareness of data-enabled science and related capacities and infrastructures.
Understand how key UN initiatives, including The Age of Digital Interdependence, LOCAL 2030, and the Summit of the Future,can provide a basis for increasing science cooperation globally to address global challenges.
Two days of meetings on Wall Street at the New York Stock Exchange while highlighting the theme of science contribution to the SDGs and launching a series of meetings with corporate financiers on science funding.
Science and ICT [Information and Communications Technology]/Digital ministers in the world will be approached for their engagement and support, to have their respective missions at the United Nations host individual meetings and to request the participation of their Prime Minister.
A powerful youth programme for children, teens and students. This includes a space-related initiative currently involving some 60 countries, and this number is; very likely to increase. To inspire the world’s youth to come together and lead regional inter-generation projects to attain the “moonshots” of the 21st century – the first in this series would be the 2030 SDGs.
13-30 September 2022: Thematic Sessions and Scientific Sessions: approximately 400 sessions are planned: approximately 100 hybrid events will take place in New York City, with the remainder taking place online;
20 Keynote Lectures by eminent scientists and innovative thinkers;
Dr. Mona Nemer, Chief Science Advisor of Canada, is presenting at 4 pm EDT (1 pm PDT) today, on Monday, September 19, 2022. Here’s more from the session page (keep scrolling down past the registration button)
(REF 19052 – Hybrid) Keynote Speech: Dr Mona Nemer, Chief Science Advisor of Canada (In-Person)
“Science knows no country, because knowledge belongs to humanity,” Pasteur famously said nearly 150 years ago. In the time since, the world has seen an enormous increase in the pace of scientific discovery and consequent need for collaboration, as our challenges become both more urgent and more complex. From climate change and food security to pandemic preparedness and building the societies of tomorrow, science has a major role to play in guiding us toward a peaceful, healthy and sustainable future, and getting there requires that we work together.
In this talk, Canada’s Chief Science Advisor, Dr. Mona Nemer, shares her insights on the importance of a global science culture that promotes openness, diversity and collaboration, and how growing our science advisory systems will help to both frame the emerging issues that the world faces and provide the evidence needed to solve them.
“Science knows no country …” Really?
One final bit, it’s regarding the second highlight (Science and ICT [Information and Communications Technology]/Digital ministers …), Canada did have a Minister of Digital Government and, sometimes, has a Minister of Science. Currently, neither position exists. For the nitpicky, there is Innovation, Science and Economic Development Canada (ISED) which seems to be largely dedicated to monetizing science rather than the pursuit of science.