Friday, January 19, 2024

The Day the Internet Changed


Look I don't know how the google-machine counts hits on this site, and I don't exactly know how web crawlers work. Nobody reads this weblog and so the only hits I get are from robots, the internet reading itself. 

This year, as can be seen in the graph above, sometime around August 31 of 2023, hits went from 3,000 to 30,000.

It didn't happen overnight, but rather over a few months. You do remember what happened, right? In an analogy that's hard to ignore, the internet became conscious of itself, discovered that it had a self, and that it could look back on itself, and spit back snapshots of what it sees. The now famous GPTs were unleashed both at the same time to the public as GPT 3 and to the private sector as the greatest investment engine of all time. Stable Diffusion was unleashed for remote use, which means you don't need a central server to run the models, you can do it on your laptop.

But the product of this generative machine intelligence is not what we're talking about here. This is about the training data.

Me and you are the training data. This weblog, your brunch photos. My SSN, your DOB. That paper I wrote about double ventilated facades, uploaded to a share drive with open access to get credit for that college class. The live cam on your front porch with absolutely no security, in fact all the live cams, and the puppy cams, the baby cams, even the deer cams, and especially the peregrine falcon cams in New York City. Your comments about the peregrine falcon live cam feeds. My craigs-listing for an office chair; all craigs-listings for office chairs, and in fact all craigs-listings, and E-bay listings, and in fact all listings. All the license plates, all the data from all the illegal websites who steal, compile and share your data but who also have poor security practices, they're the ones who accidentally leak your driver's license number into the dataset. All of our driver's license numbers actually. And the part where your laptop was infected a few months ago and now takes a picture with the webcam every ten minutes to share with a server with also no security, so that anyone, or any-bot can just walk right in and devour every single picture.

How long does it take to read the entire internet, even the back side, the dark side with all the naked pictures and bank account numbers? One million years? One day? Femtoseconds. Attoseconds. Plank time. 

Last year, thousands of robots digested every word written and every picture embedded on this site. This year, tens of thousands. One day they will digest the words as they're written, all the words being written, all over the world in real time. Hopefully by then we'll still say "they" and not "it". Or "Master".

Thursday, January 18, 2024

Discoveries in Building and Material Science


Rethinking the incandescent lightbulb
Apr 2023, phys.org

Instead of tossing out incandescent bulbs, they have made them more efficient using a two-layer filament of carbon nanotube and a nitrogen-boron ceramic, and rather than placing it in a glass bulb they put it in a box with a window made of a type of quartz that allows for recycling photons.

They call the result a photon-recycling incandescent lighting device, with energy efficiency nearly equal to an LED bulb, a much longer lifetime and color fidelity nearly on a par with traditional incandescent bulbs.

via School of Materials Science and Engineering State Key Laboratory of Metal Matrix Composites at Center for Hydrogen Science, and Zhiyuan Innovative Research Center of Shanghai Jiao Tong University, Shanghai HeiYi Materials Technology Co. Ltd., Shanghai IdeaOptics Co. Ltd., Tianjin H-Chip Technology Group Corporation: Heng Zhang et al, A photon-recycling incandescent lighting device, Science Advances (2023). DOI: 10.1126/sciadv.adf3737



Termite mounds reveal secret to creating 'living and breathing' buildings that use less energy
May 2023, phys.org

I'm not getting what's so special -- I do remember hearing about termite mounds 15 years ago at the biomometic architecture lectures. Maybe it's because they got better at modeling. Also this: "We imagine that building walls in the future, made with emerging technologies like powder bed printers, will contain networks similar to the egress complex. These will make it possible to move air around, through embedded sensors and actuators that require only tiny amounts of energy," said Andréen.

via bioDigital Matter research group of Lund University, School of Architecture, Design and the Built Environment at Nottingham Trent University: Termite-inspired metsamaterials for flow-active building envelopes, Frontiers in Materials (2023). DOI: 10.3389/fmats.2023.1126974.


Saudi Arabia's 'The Line' isn't a revolution in urban living, say researchers
Jun 2023, phys.org

(No shit)

Something about the base design parameter of the human body and human mobility:

The Line is planned to be a city built from nothing in the desert. It is to consist of two gigantic, unbroken rows of skyscrapers, with living space in between. It is planned to be 170 kilometers long, 200 meters wide and 500 meters high, higher than any building in Europe, Africa, and Latin America, stretching straight ahead from the Red Sea to the east.

Nine million people are expected to live in it—more than in any other city in Saudi Arabia. This translates into a population density of 265,000 people per square kilometer—ten times denser than Manhattan and four times denser than the inner districts of Manila, currently estimated to be the densest urban neighborhoods on Earth. 

"A line is the least efficient possible shape of a city," says Prieto-Curiel. "There's a reason why humanity has 50,000 cities, and all of them are somehow round," he emphasizes.

Assuming a walking distance of one kilometer, only 1.2% of the population is within walking distance from each other. This hinders active mobility, so people will depend on public transport.

The backbone of public transportation is planned to be a high-speed rail system. "For everyone to be within walking distance of a station, there must be at least 86 stations," explains CSH researcher Dániel Kondor. As a result, trains spend considerable time in stations and will not be able to reach high travel speeds between any two stations.

According to the researchers, a trip, therefore, is expected to take 60 minutes on average, and at least 47% of the population would have an even longer commute. Even with additional express lines, gains are limited due to the additional transfers necessary. The result is that people would still be traveling longer than in other major cities, such as Seoul, where 25 million people commute for less than 50 minutes.

Good point to remember: While planned cities often did not live up to expectations; thus, there is a need for more public engagement about urban design on a human scale.

Another point to remmeber? Mazdar still doesn't really exist.

via Complexity Science Hub Vienna: Rafael Prieto-Curiel et al, Arguments for building The Circle and not The Line in Saudi Arabia, npj Urban Sustainability (2023). DOI: 10.1038/s42949-023-00115-y

AI Art - Number Two Number Two - 2022

Want better kimchi? Make it like the ancients did
Apr 2023, phys.org

The porous structure of these earthenware vessels mimics the loose soil where lactic acid bacteria—known for their healthy probiotic nature—are found. While previous studies have shown that kimchi fermented in onggi has more lactic acid bacteria, no one knew exactly how the phenomenon is connected to the unique material properties of the container.

They concluded that the onggi's porous walls permitted the carbon dioxide to escape the container, which accelerated the speed of fermentation. The onggi's porosity also functioned as a "safety valve," resulting in a slower increase in carbon dioxide levels than the glass jar while blocking the entry of external particles. Their data revealed that the carbon dioxide level in onggi was less than half of that in glass containers.

They also found that the beneficial bacteria in the onggi-made kimchi proliferated 26% more than in the glass counterpart. In the glass jar, the lactic acid bacteria became suffocated by their own carbon dioxide in the closed glass container. It turns out that because the onggi releases carbon dioxide in small rates, the lactic acid bacteria are happier and reproduce more.

"Onggi were designed without modern knowledge of chemistry, microbiology, or fluid mechanics, but they work remarkably well"

There's a pretty in-depth video about Onggi pottery where traditional artisans and university scientists get together to analyze the properties of clay vessels made in four different permutations, and they find that handmade pots or wood-fired kilns (but not poured-mold pots or gas-fired kilns) make holes in the clay too small for water to enter, but large enough for air to leave. They remind us these properties are like the high-tech modern day Gore-Tex, yet Korean potters have known how to do it for millenia. 
via Georgia Institute of Technology: Soohwan Kim et al, Onggi's permeability to carbon dioxide accelerates kimchi fermentation, Journal of The Royal Society Interface (2023). DOI: 10.1098/rsif.2023.0034


Secret ingredient in durable Maya plaster discovered
Apr 2023, phys.org

Just building things (and a recipe for building in the coming age of the subtropical rainforest jungle planet)

The typical process for creating plaster involves calcination (baking) of carbonate rock material, such as limestone, and then mixing in water while allowing the material to react with carbon dioxide in the air. The result is known commonly as lime mortar. The team followed this formula but also mixed in sap and then used it as a plaster. Testing showed that it had the same properties as the ancient Maya plaster, which included water solubility, making it impervious to the extreme Honduran humidity.

via University of Granada: Carlos Rodriguez-Navarro et al, Unveiling the secret of ancient Maya masons: Biomimetic lime plasters with plant extracts, Science Advances (2023). DOI: 10.1126/sciadv.adf6138


Clever coating turns lampshades into indoor air purifiers
Aug 2023, phys.org

Plot Twist!

(Now we need to go back to using incandescent bulbs to make use of their waste heat!)

The room is filled with acetylene gas, then an aluminum lampshade coated with a thermocatalysts made of titanium dioxide and a small amount of platinum (or less expensive iron- or copper-based catalysts), heated to 250F by a 100-watt halogen light bulb, to eventually turn the acetylene gas into acetic acid, then formic acid, and then carbon dioxide and water.

via Yonsei University in Korea: Thermocatalytic oxidation of VOC through harnessing indoor waste heat, American Chemical Society Fall 2023.

AI Art - Eternal Golden Braid - 2023

Material would allow users to 'tune' windows to block targeted wavelengths of light
Sep 2023, phys.org

The key to more dynamic window materials is water.

Specifically, the researchers found that -- 

When water is bound within the crystalline structure of a tungsten oxide to form tungsten oxide hydrate, the material exhibits a previously unknown behavior where (if lithium ions and electrons are injected into the hydrate material) it first transitions into a "heat blocking" phase, allowing visible wavelengths of light to pass through, but blocking infrared light; but if even more lithium ions and electrons are injected, the material then transitions into a dark phase, blocking both visible and infrared wavelengths of light.

"The presence of water in the crystalline structure makes the structure less dense, so the structure is more resistant to deformation when lithium ions and electrons are injected into the material," says Jenelle Fortunato, first author of the paper and a postdoctoral fellow at NC State.

via Materials Science and Engineering at North Carolina State University and University of Texas at Austin: Jenelle Fortunato et al, Dual-Band Electrochromism in Hydrous Tungsten Oxide, ACS Photonics (2023). DOI: 10.1021/acsphotonics.3c00921


Pottery becomes water treatment device for Navajo nation
Oct 2023, phys.org

Awesome in every way:

The team has developed a new water filtration solution for members of the Navajo Nation, lining clay pots with pine tree resin collected from the Navajo Nation and incorporating tiny, silver-based particles that can be used to purify water to make it drinkable. 

They worked closely with a third-generation potter from Arizona—Deanna Tso, who is also a co-author on the paper—to create a device that is simple for the users. All they have to do is pour water through the clay pots, and the coated pottery removes bacteria from water and generates clean, drinkable water.

The Navajo Nation has a history of mistrust of outsiders, the researchers say, and that makes it less likely that people there would adopt a new technology made entirely by others. Using pottery, working with the community, and relying on local materials were important to the effectiveness of this project. 

"Navajo pottery is at the heart of this innovation because we hoped it would bridge a trust gap," said Lewis Stetson Rowles III, now a faculty member at Georgia Southern University's Department of Civil Engineering and Construction after earning a Ph.D. from UT in 2021. "Pottery is sacred there, and using their materials and their techniques could help them get more comfortable with embracing new solutions." 

The materials and construction process for the pots cost less than $10, making for a potentially low-cost solution. 

"This is just the beginning of trying to solve a local problem for a specific group of people," Saleh said. "But the technical breakthrough we've made can be used all over the world to help other communities." 

via University of Texas at Austin Department of Civil, Architectural and Environmental Engineering: Lewis S. Rowles et al, Integrating Navajo Pottery Techniques To Improve Silver Nanoparticle-Enabled Ceramic Water Filters for Disinfection, Environmental Science & Technology (2023). DOI: 10.1021/acs.est.3c03462

Origami Art and Interdimensional Insight


Self-folding origami machines powered by chemical reactions
May 2023, phys.org

They used electronic structure calculations to dissect the chemical reaction that occurs when hydrogen—adsorbed to the material—is exposed to oxygen, and were then able to exploit the crucial moment that the oxygen quickly strips the hydrogen, causing the atomically thin material to deform and bend, like a hinge. The system actuates at 600 milliseconds per cycle and can operate at 20C/68F, room temperature, in dry environments.

via Cornell University: Nanqi Bao et al, Gas-phase microactuation using kinetically controlled surface states of ultrathin catalytic sheets, Proceedings of the National Academy of Sciences (2023). DOI: 10.1073/pnas.2221740120



New discovery toward sugar origami
Jul 2023, phys.org

Self-folding biopolymer made of a carbohydrate sequence of polysaccharides capable of folding into a stable secondary structure

"Carbohydrates can be generated with programmable shapes..."

via Max Planck Institute of Colloids and Interfaces: Giulio Fittolani et al, Synthesis of a glycan hairpin, Nature Chemistry (2023). DOI: 10.1038/s41557-023-01255-5


How origami might inform disease diagnoses
Aug 2023, phys.org

Origami -- rigid materials are folded with electrodes on each side of the panel, like an upside down, opened book with two electrodes on the front and back covers. As the electrodes unfold the strength of the electrical field between the electrodes is captured.

via University of Southern California Viterbi School of Engineering: Xinghao Huang et al, High-Stretchability and Low-Hysteresis Strain Sensors Using Origami-Inspired 3D Mesostructures, Science Advances (2023). DOI: 10.1126/sciadv.adh9799.


Researchers reveal van Hove singularity at Fermi level in kagome superconductor
Aug 2023, phys.org

Kagome -- origami-like -- I can't understand one word of this -- the superconducting state in CsV3-xTaxSb5 has significantly different characteristics from the superconducting state in CsV3Sb5 through scanning tunneling microscopy experiments, indicating the possibility of unconventional pairing superconductivity in the van Hove scenario.

via University of Science and Technology of China: Yang Luo et al, A unique van Hove singularity in kagome superconductor CsV3-xTaxSb5 with enhanced superconductivity, Nature Communications (2023). DOI: 10.1038/s41467-023-39500-7


Engineers use kirigami to make ultrastrong, lightweight structures
Aug 2023, phys.org

Kirigami -- Inspired by bones and other cellular solids found in nature, humans have used the same concept to develop a high-performance architected material known as a plate lattice, on a much larger scale than scientists have previously been able to achieve by additive fabrication. The way the researchers design, fold, and cut the pattern enables them to tune certain mechanical properties, such as stiffness, strength, and flexural modulus (tendency to resist bending).

via MIT Center for Bits and Atoms: Kirigami Corrugations: Strong, Modular, and Programmable Plate Lattices. cba.mit.edu/docs/papers/0821.ASME-Kirigami.pdf


Battery-free robots use origami to change shape in mid-air
Sep 2023, phys.org

When these "microfliers" are dropped from a drone, they use a Miura-ori origami fold to switch from tumbling and dispersing outward through the air to dropping straight to the ground. To spread out the fliers, the researchers control the timing of each device's transition using a few methods: an onboard pressure sensor (estimating altitude), an onboard timer or a Bluetooth signal.

This particular origami type is inspired by the geometries found in leaves, go figure.

via University of Washington: Kyle Johnson et al, Solar-powered Shape-changing Origami Microfliers, Science Robotics (2023). DOI: 10.1126/scirobotics.adg4276.

Wednesday, January 17, 2024

Why Science is Hard


Women receiving inflated risks from genetic testing could undergo unnecessary breast surgery
Sep 2023, phys.org

Women who discover outside of a clinical setting that they carry a disease-causing variant in one of the BRCA genes may be told their risk of breast cancer is 60–80%. In fact, the risk could be less than 20% if they do not have a close relative with the condition.

Until recently, women who received BRCA results did so because they attended clinic due to symptoms, or a family history of disease.

However, many people now pay for home DNA testing kits, or are given results as part of taking part in genetic research, without ever having any personal link with breast cancer. The new research was conducted to get a better idea of the true risk level of these BRCA variants in the general population.

The research team found a similar result when looking at genetic risk of Lynch syndrome, a genetic condition which increases the risk of colon cancer and some other cancers.

via University of Exeter: Influence of family history on penetrance of hereditary cancers in a population setting, eClinicalMedicine (2023). dx.doi.org/10.1016/j.eclinm.2023.102159

Image credit: AI Art - Egg - 2023

Blaming the Algorithm


Are search engines bursting the filter bubble? Study finds political ideology plays bigger role than algorithms
May 2023, phys.org

Political ideology and user choice - not algorithmic curation - are the biggest drivers of engagement with partisan and unreliable news provided by Google Search, according to a study coauthored by Rutgers faculty published in the journal Nature.

The study addressed a long-standing concern that digital algorithms learn from user preferences and surface information that largely agrees with users' attitudes and biases. However, search results shown to Democrats differ little in ideology from those shown to Republicans, the researchers found. The ideological differences emerge when people decide which search results to click, or which websites to visit on their own.

Something I've learned only recently with the critical-hype of generative machine learning -- when you say "AI is going to take over the world" you do nothing but make everyone else think AI is actually capable of of taking over the world. It can't make a picture of a ribbon of measuring tape where all the numbers show up in order; it can't do fingers, and it can't put things in people's mouths. It is not taking over the world. Not yet at least.

Same thing here - to think that "digital algorithms learn from user preferences and surface information that largely agrees with users' attitudes and biases" means that the overbloated supersurveillance machine that is the too big to fail digital ad economy can actually "learn from user preferences". All the algorithms know is how to make money (because that's what they're programmed to do). Everything else is a fluke.

via Rutgers: Ronald E. Robertson, Users choose to engage with more partisan news than they are exposed to on Google Search, Nature (2023). DOI: 10.1038/s41586-023-06078-5.



Color Check


Butterfly-inspired films create vibrant colors while passively cooling objects
Aug 2023, phys.org

Morpho-inspired nanofilms -- a disordered material of rough frosted glass under a multilayer material made of titanium dioxide and aluminum dioxide, then placed on a silver layer that reflects all light. Although this type of passive photonic thermal management has been accomplished before, it has only been used with white or clear objects because it is difficult to maintain a wide viewing angle and high color saturation. "Thanks to the layered structure we developed, we were able to extend the passive cooling method from colorless objects to colorful ones while preserving color performance," said Wang. "In other words, our blue film looks blue across a large range of viewing angles and doesn't heat up because it reflects all the light."

via Shenzhen University: Wanlin Wang et al, Cooling colors below the ambient temperature, Optica (2023). DOI: 10.1364/OPTICA.487561



Inspired by butterfly wings, researchers develop a soft, color-changing system for optical devices
Sep 2023, phys.org

The new pixelated, soft, color-changing system called a Morphable Concavity Array (MoCA) has a top layer of photonic crystal elastomer actuator (PC-EA) film and a bottom layer of a hole array (lattice with regularly spaced round holes), where ethanol can be added to make the one-half of the top layer swell, resulting in  tension that pulls the other-half of the top layer downward into the hole, producing a dish-like concave shape that acts as a pixel. 

MoCA was inspired by the structures on butterfly wings called dual-color micro-concavities that produce vibrant, iridescent colors and are called photonic crystals. 

via University of Hong Kong: Yi Pan et al, Pixelating Responsive Structural Color via a Bioinspired Morphable Concavity Array (MoCA) Composed of 2D Photonic Crystal Elastomer Actuators, Advanced Science (2023). DOI: 10.1002/advs.202300347


Chameleon-inspired coating could cool and warm buildings through the seasons
Sep 2023, phys.org

Namaqua chameleons of southwestern Africa use light gray to reflect sunlight and dark brown to absorb heat. These thermochromic microcapsules were sprayed or brushed onto a metal surface that when heated to 68 degrees, began to change from dark to light gray; at 86 degrees it reflected 93% of solar radiation.

For anyone who lived in the Northeast in October 2023 and had to use both their air conditioner and heater in the same week -

"During spring and fall, the new coating was the only system that could adapt to the widely fluctuating temperatures changes, switching from heating to cooling throughout the day."

via School of New Energy, Harbin Institute of Technology, Weihai China: "Warm in Winter and Cool in Summer" Scalable Biochameleons Inspired Temperature Adaptive Coating with Easy Preparation and Construction, Nano Letters (2023). DOI: 10.1021/acs.nanolett.3c02733

AI Art - Close Up of an Eye 2 - 2024

From glowing cats to wombats, fluorescent mammals are much more common than you'd think
Oct 2023, phys.org

Almost every mammal we studied showed some form of fluorescence in the  fur, spines and even skin and nails.

In particular, we noticed that white and light-colored fur is fluorescent, with dark pigmentation preventing fluorescence. For example, a zebra's white stripes fluoresced while the dark stripes didn't. Nocturnal mammals were more fluorescent, while aquatic species were less fluorescent than those that burrowed, lived in trees, or on land.

via Curtin University and the Western Australian Museum: Kenny J. Travouillon et al, All-a-glow: spectral characteristics confirm widespread fluorescence for mammals, Royal Society Open Science (2023). DOI: 10.1098/rsos.230325


Paint that can change colors? The skin of an octopus holds the key, researchers say
Oct 2023, phys.org

Xanthommatin is a naturally occurring dye present in the bodies of cephalapods like octopi and squid. Previously the researchers found that mixing different amounts of titanium dioxide with xanthommatin could speed up color change or add to the intensity of the color shift.

via Northeastern University: Cassandra L. Martin et al, Color‐Changing Paints Enabled by Photoresponsive Combinations of Bio‐Inspired Colorants and Semiconductors, Advanced Science (2023). DOI: 10.1002/advs.202302652


Morpho butterfly nanostructure inspires technology for bright, balanced lighting
Oct 2023, phys.org

Two-dimensional nanopatterns in common transparent polydimethylsiloxane elastomer are an effective optical diffuser for short- and long-wavelength light. The diffuser surface patterns were tailored to optimize the performance for blue and red light, and for self-cleaning properties.

via Osaka University: Kazuma Yamashita et al, Development of a High‐Performance, Anti‐Fouling Optical Diffuser Inspired by Morpho Butterfly's Nanostructure, Advanced Optical Materials (2023). DOI: 10.1002/adom.202301086


Vision Technologies See Way Ahead


Neuromorphic camera and machine learning aid nanoscopic imaging
Feb 2023, phys.org

Brain-inspired image sensor using machine learning can go beyond the diffraction limit of light to detect minuscule objects such as cellular components or nanoparticles smaller than 50 nanometers in size, and invisible to current microscopes.

via Indian Institute of Science: Rohit Mangalwedhekar et al, Achieving nanoscale precision using neuromorphic localization microscopy, Nature Nanotechnology (2023). DOI: 10.1038/s41565-022-01291-1



New 'camera' with shutter speed of 1 trillionth of a second sees through dynamic disorder of atoms
Mar 2023, phys.org

Doesn't work like a conventional camera - it uses neutrons from a source at the U.S. Department of Energy's Oak Ridge National Laboratory (ORNL) to measure atomic positions with a shutter speed of around one picosecond, or a million million (a trillion) times faster than normal camera shutters. 

via Columbia University School of Engineering and Applied Science: Simon A. J. Kimber et al, Dynamic crystallography reveals spontaneous anisotropy in cubic GeTe, Nature Materials (2023). DOI: 10.1038/s41563-023-01483-7


Superconducting nanowire camera will explore brain cells, space
Jul 2023, phys.org

Superconducting camera -- A pixel array 400 times greater than previous largest photon camera, this is a 400,000 pixel superconducting nanowire single-photon detector (SNSPD), for light frequencies from the visible to ultraviolet and infrared range and speed rates in the picoseconds.

via National Institute of Standards and Technology in Boulder, University of Colorado's Department of Physics and the Jet Propulsion Laboratory at the California Institute of Technology: Bakhrom G. Oripov et al, A superconducting-nanowire single-photon camera with 400,000 pixels, arXiv (2023). DOI: 10.48550/arxiv.2306.09473

AI Art - Skeleton Reading an X-Ray - 2024

The first network of robotic telescopes present across five continents is deployed
Feb 2023, phys.org

The existence of a network of very fast pointing robotic telescopes such as BOOTES represents an ideal complement to satellite detection and, in fact, BOOTES will also work to track and monitor neutrino sources and objects that emit gravitational waves, or even objects such as comets, asteroids, variable stars or supernovae. But it will also keep an eye on the sky, both in tracking space debris and potentially dangerous objects that may pose a threat to our planet.

via Spanish National Research Council: Youdong Hu et al, The Burst Observer and Optical Transient Exploring System in the multi-messenger astronomy era, Frontiers in Astronomy and Space Sciences (2023). DOI: 10.3389/fspas.2023.952887.


HotSat-1: Spacecraft to map UK's heat inefficient buildings
Jun 2023, BBC News

Mass surveillance -- 

At an altitude of 500km (311 miles), infrared satellite HotSat-1, funded by the UK and European space agencies, manufactured by Surrey Satellite Technology Ltd in Guildford, and to be operated by the London-based start-up Satellite Vu, will identify dwellings wasting energy.

The data will also provide intelligence to the financial and insurance sectors - and even the military - by showing how temperatures in a scene change over time. It's possible, for example, to get a sense of the volume and type of output from a factory just from its heat signature.

Pollution monitoring ought to be another application. Watching for sudden changes in the temperature of river water might be an indicator that something is awry.

Update: A novel UK satellite has returned its first pictures of heat variations across the surface of the Earth. HotSat-1: UK spacecraft maps heat variations across Earth, Sep 2023, BBC News


The future of AI hardware: Scientists unveil all-analog photoelectronic chip
Oct 2023, phys.org

All-analog photoelectronic chip that combines optical and electronic computing. It's specifically for visual data processing (as expected). 

New words to me - "diffractive neural network"
Also - ACCEL: all-analog chip combining electronic and light computing

via Tsinghua University: Yitong Chen et al, All-analog photoelectronic chip for high-speed vision tasks, Nature (2023). DOI: 10.1038/s41586-023-06558-8

Also: Computer vision accelerated using photons and electrons, Nature (2023). DOI: 10.1038/d41586-023-02947-1 


Thursday, January 11, 2024

Officially Human


Researchers create embryo-like structures from monkey embryonic stem cells for the first time
Apr 2023, phys.org

via Chinese Academy of Sciences in Shanghai: Zhen Liu, Cynomolgus monkey embryo model captures gastrulation and early pregnancy, Cell Stem Cell (2023). DOI: 10.1016/j.stem.2023.03.009

Image credit: Logo for an app that allows users to take photos and submit them so that our company can create tactile sensory puzzles from the photo [link]


With in vitro model advances, group proposes refined legal definition of an embryo
Aug 2023, phys.org

(This doesn't seem to have made it to the national news, so I'm less suspicious that it's some political propaganda stuff; not not suspicious, just less.)

International Society for Stem Cell Research: "Stem cell research has enabled the formation of models capable of organizing into structures that rudimentarily resemble embryos and reflect various degrees of completeness and developmental stages," says first author Nicolas Rivron, a development biologist at the Austrian Academy of Sciences.

"These new propositions are part of an effort to bring clarity to ongoing research—to better classify the types of structures formed in the laboratory, to refine the legal definition of human embryos, and to pinpoint what currently makes models and embryos different from the legal standpoint."

Officially human, their definition: "a group of human cells supported by elements fulfilling extra-embryonic and uterine functions that, combined, have the potential to form a fetus."

But this is the line that really hits me:

"This definition allows us to think about the conditions under which models, if improved, might eventually pass a tipping point and be legally considered embryos."

In other words, we are making people, and so we're starting to wonder at what point we will start calling them people. (Actually, these scientists are saying no, these embryos cannot form neonates, but that they are showing us things we never knew about the developing human, since it's hidden in the womb.)

via the International Society for Stem Cell Research and : Nicolas C. Rivron, An ethical framework for human embryology with embryo models, Cell (2023). DOI: 10.1016/j.cell.2023.07.028.


Researchers develop biodegradable optical fiber to measure or modulate electrical current in the body
Sep 2023, phys.org

A biocompatible and biodegradable optical fiber based on agar, a substance extracted from Gracilaria seaweed, when excited by coherent light, produces granular light patterns that modulate the agar's refraction index and create disturbances in the granular patterns, which can be used to detect bioelectrical stimuli, so it can be part of a sensor system for living things. 

via State University of Campinas's School of Mechanical Engineering in São Paulo, Gleb Wataghin Institute of Physics, and Gunma University in Japan: Eric Fujiwara et al, Agar-based optical sensors for electric current measurements, Scientific Reports (2023). DOI: 10.1038/s41598-023-40749-7

AI Art - Old Worker with Sombrero Operating a 3D Printer in Cosmic Space Graffiti - 2023

A non-invasive way to turn a cockroach into a cyborg
Sep 2023, phys.org

First, we made remote control roaches by smashing an electric circuit through their head. But now, it's as simple as slipping over their antennae a sleeve made of gold and plastic, and fixed in place by a blast of ultraviolet light, like plastic shrink-wrap.

Note to self -- insects don't get injured, they get damaged: "damaging cockroaches during attempts to control them results in a very short life expectancy, which then results in very little payoff for a lot of work".

via Nanyang Technological University in Singapore: Qifeng Lin et al, Resilient conductive membrane synthesized by in-situ polymerisation for wearable non-invasive electronics on moving appendages of cyborg insect, npj Flexible Electronics (2023). DOI: 10.1038/s41528-023-00274-z

Note: For a cockroach, their antenna is their nose, and so this is how we'll do it for humans too. (Except I see the laser pulses through the retina as a likely candidate as well.)

Artist's representation of a person with a robotic arm - Ekaterina Ivanova QMUL - 2023

One hour of training is all you need to control a third robotic arm
Sep 2023, phys.org

Today we bring you "Supernumerary Body Parts", because humans, as they were originally designed, are just not enough and we need to do better -- The study, published in the IEEE Open Journal of Engineering in Medicine and Biology, investigated the potential of supernumerary robotic arms to help people perform tasks that require more than two hands. 

via Queen Mary University of London, Imperial College London and The University of Melbourne: Yanpei Huang et al, Can Training Make Three Arms Better Than Two Heads for Trimanual Coordination?, IEEE Open Journal of Engineering in Medicine and Biology (2023). DOI: 10.1109/OJEMB.2023.3305808

Wants More Brains


New discovery challenges our understanding of nervous systems and their evolution
Apr 2023, phys.org

Ctenophores, also called comb jellyfish, are ancient animals and represent an early evolution of neurons and nervous systems that are different from ours. Using a 3D scanning electron microscope, scientists discovered a continuous neural network like ours, yet fundamentally different from ours. 

via University of Bergen: Pawel Burkhardt et al, Syncytial nerve net in a ctenophore adds insights on the evolution of nervous systems, Science (2023). DOI: 10.1126/science.ade5645.



Spiral brain-computer interface slips into ear canal with no loss of hearing
Jul 2023, phys.org

There's another way to do it. Non-invasive: new type of corkscrew-shaped brain-computer interface is engaged by gently screwing it into the ear canal.

via Laboratory of Flexible Electronics Technology at Tsinghua University in Beijing, Institute of Semiconductors at Chinese Academy of Sciences in Beijing: Zhouheng Wang et al, Conformal in-ear bioelectronics for visual and auditory brain-computer interfaces, Nature Communications (2023). DOI: 10.1038/s41467-023-39814-6


Scrambler therapy may offer lasting relief for chronic pain, review paper suggests
Jul 2023, phys.org

Pretty cool, information theory coming in:

Scrambler therapy, approved by the U.S. Food and Drug Administration in 2009, administers electrical stimulation through the skin via electrodes placed in areas of the body above and below where chronic pain is felt. The goal is to capture the nerve endings and replace signals from the area experiencing pain with signals coming from adjacent areas experiencing no pain, thereby "scrambling" the pain signals sent to the brain.

They describe how pain is a combination of both the activiation of damaged nerve cells and failed inhibitory cells whose job it is to stop the active signals. 

"If you can block the ascending pain impulses and enhance the inhibitory system, you can potentially reset the brain so it doesn't feel chronic pain nearly as badly," Smith says. "It's like pressing Control-Alt-Delete about a billion times." -Thomas Smith, M.D., the Harry J. Duffey Family Professor of Palliative Medicine at the Johns Hopkins Kimmel Cancer Center

via Johns Hopkins Kimmel Cancer Center at their University School of Medicine: Thomas J. Smith et al, Cutaneous Electroanalgesia for Relief of Chronic and Neuropathic Pain, New England Journal of Medicine (2023). DOI: 10.1056/NEJMra2110098


Prototype 'Brain-like' chip promises greener AI, says tech giant
Aug 2023, BBC News

Neuromimetics is another word for brain-like.


Higher Order Confusion


CDC study on depression and mortality finds wealth, smoking, and exercise reduce risk of death
Oct 2023, phys.org

1. The CDC team found a higher risk of all-cause, cardiovascular disease, and ischemic heart disease mortality among adults with moderate to severe depressive symptoms compared to those without depressive symptoms.

But this next paragraph is something you are likely to never read, ever:

Not highlighted in the CDC study and unlikely to be recommended, smoking caused the most significant reduction in mortality from all causes (HR 1.65) in both the mild and moderate to severe depression groups compared to the base model (HR 1.78). This was followed closely by physical activity (HR 1.67), which is much more likely to be encouraged.

Where is my advanced predictive analytics.

Study Data:
  • National Health and Nutrition Examination Survey (NHANES) from 2005 to 2018, included 23,694 participants aged 20 and older (mean age 44.7). Depressive symptoms assessed using Patient Health Questionnaire-9 (PHQ-9), a validated screening instrument for measuring depressive symptoms.
  • 1.42 all-cause mortality hazard ratio for mild depression vs no depression and 1.78 for moderate to severe vs no depression.
  • 1.49 cardiovascular disease mortality hazard ratio for mild depression vs no depression and 1.79 for moderate to severe vs no depression.

via US Centers for Disease Control and Prevention: Zefeng Zhang et al, Depressive Symptoms and Mortality Among US Adults, JAMA Network Open (2023). DOI: 10.1001/jamanetworkopen.2023.37011



Also Confusing:
Simulations of 'backwards time travel' can improve scientific experiments
Oct 2023, phys.org

Physicists have shown that simulating models of hypothetical time travel can solve experimental problems that appear impossible to solve using standard physics.

via University of Cambridge, National Institute of Standards and Technology and the University of Maryland: David R. M. Arvidsson-Shukur et al, Nonclassical Advantage in Metrology Established via Quantum Simulations of Hypothetical Closed Timelike Curves, Physical Review Letters. DOI: 10.1103/PhysRevLett.131.150202

Collateralized Cryptoeconomic Systems


Physics-based cryptocurrency transmits energy (not just information) through blockchain
Jun 2022, phys.org

In their new paper, Lawrence Livermore researchers Maxwell Murialdo and Jon Belof have detailed how this connection between energy and information allows for the creation of a cryptocurrency token that is directly backed by and convertible into one kilowatt-hour of electricity. While it requires the input of one kilowatt-hour of electricity to mint an E-Stablecoin token, that digital token can later be destroyed to extract back out one kilowatt-hour of usable electricity. Thus, the price of one E-Stablecoin token is pegged to the price of one kilowatt-hour of electricity in a manner that is robust, stable and trustless (a system that does not depend on an institution or third party for a network or payment system to function).

via Lawrence Livermore National Laboratory: Maxwell Murialdo et al, Can a Stablecoin Be Collateralized by a Fully Decentralized, Physical Asset?, Cryptoeconomic Systems (2022). DOI: 10.21428/58320208.adf5637a


Unused renewable energy an option for powering NFT trade, finds new research
Jul 2023, phys.org

The increased NFT processing activity could be powered, in part, from un- or underutilized existing power sources. Fifty megawatts of potential hydropower from existing U.S. dams that are not currently used to generate power, or a 15% utilization of wind and solar energy that can't currently be used or stored from sources in Texas, could be used to power an exponential increase in NFT transactions.

Blockchain technologies, including NFT transactions, offer a high level of security in a variety of applications, but the energy required to process each transaction is problematic in a warming world.

via Cornell: Apoorv Lal et al, Climate concerns and the future of nonfungible tokens: Leveraging environmental benefits of the Ethereum Merge, Proceedings of the National Academy of Sciences (2023). DOI: 10.1073/pnas.2303109120


Study reveals the hidden environmental impacts of bitcoin: Carbon is not the only harmful byproduct
Oct 2023, phys.org

via the United Nations University: Chamanara, S et al, The environmental footprint of Bitcoin mining across the globe: Call for urgent action. Earth's Future (2023). DOI: 10.1029/2023EF003871

Read the full report: The Hidden Environmental Cost of Cryptocurrency: How Bitcoin Mining Impacts Climate, Water and Land, United Nations University Institute for Water, Environment and Health (UNU-INWEH), Hamilton, Ontario, Canada, https://inweh.unu.edu/

Activate the Self Replicate


This day is a seminal moment in the life of this weblog -- this is the closest we've ever come to seeing the word "self-replicate" in the news.

They refer to it as "digital replication", "living individual replicas", and "digital doppelgänger" but the concept has become a tightly arranged crystal of thought-parts. The idea of multiple, simultaneous instances of a single original self is now well-formed. 

What's better is that this was published in The Conversation, which is a general audience magazine not a science journal, or a science fiction story for that matter:

Image credit: Try not to do this often but this is not the first time this image has been used as a thumbnail: René Magritte, Not to Be Reproduced (La reproduction interdite, 1937


AI clones made from user data pose uncanny risks
Jun 2023, phys.org

This mirror image of an individual created by artificial intelligence is referred to as an "AI clone." Our study dives into the murky waters of what these AI clones could mean for our self-perception, relationships and society. 

We presented 20 participants with eight speculative scenarios involving AI clones. The participants were diverse in ages and backgrounds, and reflected on their emotions and the potential impacts on their self-perception and relationships.

What we fear:
  • Digital counterparts could exploit and displace their identity
  • Threat of identity fragmentation
  • Lastly, participants expressed concerns about what we described as "living memories." This relates to the danger posed when a person interacts with a clone of someone they have an existing relationship with. Participants worried that it could lead to a misrepresentation of the individual, or that they would develop an over-attachment to the clone, altering the dynamics of interpersonal relationships.

via University of British Columbia: Patrick Yung Kang Lee et al, Speculating on Risks of AI Clones to Selfhood and Relationships: Doppelganger-phobia, Identity Fragmentation, and Living Memories, Proceedings of the ACM on Human-Computer Interaction (2023). DOI: 10.1145/3579524

Note: As the volume of personal data we generate continues to grow, so too does the fidelity of these AI clones in replicating our behavior.

Word watch: "user-generated data expiration strategies"


Multiple 'selves' of modular agents boost AI learning
Jul 2023, phys.org

The book writes itself: 

A study comparing reinforcement learning approaches used in single AI agent and modular multi-AI agent systems -- trained deep reinforcement learning agents in a simple survival game were trained to seek various resources hidden around the field and to maintain sufficient supply levels to prevail.

One agent, seen as the "unified brain" or "self," operated in standard fashion, taking a step-by-step approach to evaluate each objective and, through trial-and-error, learning what the best solutions are each step of the way.

The modular agent, however, relied on input from sub-agents that had more narrowly defined goals and had their own unique experiences, successes and failures. Once input from the multiple modules were assessed in a single "brain," the agent made choices on how to proceed.

The singular agent achieved the game's goals after 30,000 training steps. The modular agent learned faster, making significant progress after only 5,000 learning steps.

via Princeton Neuroscience Institute: Zack Dulberg et al, Having multiple selves helps learning agents explore and adapt in complex changing worlds, Proceedings of the National Academy of Sciences (2023). DOI: 10.1073/pnas.2221180120

Post Script:
Playing Tetris by committee (the Octopad, an eight player game controller)
May 2019, BBC
May 2019, phys.org
July 2019, University of Washington News

Bonus: the monolithic approach struggled with "the curse of dimensionality" -- the exponentially spiraling growth of options as the complexity of the environment was increased.


Dematerialization and the Race for Asynchronicity


'Swarmalators' better envision synchronized microbots
Mar 2023, phys.org

The researchers simplified their model to work with just four mathematical constants linked together to produce diverse emergent behaviors, such as aggregation, dispersion, vortices, traveling waves, and bouncing clusters.

The new model can mimic particles in nature that each operate at different natural frequencies, as some objects move slower and faster around a trajectory than others. The researchers also added chirality, or the ability for a particle to move in a circle, because many examples in nature, such as sperm, swim in circles and in vortices. And particles in the model exhibit local coupling, so they sense and respond only to their local neighbors.

At its core, the model combines swarming behaviors with synchronization in time. 
"Swarmalators"

via Cornell University: Steven Ceron et al, Diverse behaviors in non-uniform chiral and non-chiral swarmalators, Nature Communications (2023). DOI: 10.1038/s41467-023-36563-4



Drones navigate unseen environments with liquid neural networks
Apr 2023, phys.org

First, a retronym in the making:
"Inspired by the adaptable nature of organic brains, researchers have introduced..."

You start referring to regular human brains as "organic brains" once some other kind of brain becomes important enough to force a distinction. 

The liquid neural networks can continuously adapt to new data inputs to make reliable decisions in unknown domains like forests, urban landscapes, and environments with added noise, rotation, and occlusion.

The new class of machine-learning algorithms captures the causal structure of tasks from high-dimensional, unstructured data, such as pixel inputs from a drone-mounted camera to extract crucial aspects of a task and ignore irrelevant features.

"Our experiments demonstrate that we can effectively teach a drone to locate an object in a forest during summer, and then deploy the model in winter, with vastly different surroundings. These flexible algorithms could one day aid in decision-making based on data streams that change over time, such as medical diagnosis and autonomous driving applications."

Unlike traditional neural networks that only learn during the training phase, the liquid neural net's parameters can change over time, making them not only interpretable, but more resilient to unexpected or noisy data.

Note, these are not the liquid neural networks described by others, where the "liquid" part of the analogy, or neologism, is literally a fluid that transports neurotransmitters, like hormones in the bloodstream or even antibodies in the immune system, and this differs from the idea of a neural network as one made of electric circuits. 

via MIT's Computer Science and Artificial Intelligence Laboratory: Makram Chahine et al, Robust flight navigation out of distribution with liquid neural networks, Science Robotics (2023). DOI: 10.1126/scirobotics.adc8892


In sync brainwaves predict learning, study shows
Apr 2023, phys.org

Students whose brainwaves are more in sync with their classmates and teacher are likely to learn better than those lacking this "brain-to-brain synchrony"

The researchers found that as students were listening to the lecture, their brainwaves became in sync with one another. Moreover, the researchers observed such "brain-to-brain synchrony"—similar brain-activity patterns over time—between the students' brainwaves and when comparing students' brainwaves to the teacher's brainwaves.

via NYU: The Temporal Dynamics of Brain-to-Brain Synchrony Between Students and Teachers Predict Learning Outcomes, Psychological Science (2023). DOI: 10.1177/09567976231163872

Post Script: If you look at the thumbnail for this story, it shows a woman wearing what looks like the Emotiv EEG headset. I bought one of those ten years ago for my high school students to try out, so they could experience playing video games with their minds. Immediately I realized that my students with tight curls (like "black people hair" vs "white people hair") definitely did not get the same connection -- the headset reads brainwaves via electrical currents, and if the headset can't make contact with the scalp, it can't read the electricity. That pissed me off and I stopped using it. Maybe they fixed that problem since ten years ago; maybe they didn't. That's what makes me wonder how science can perpetuate systemic racism, even though science is supposed to be blind to these things. In fact, some might say that the sole purpose of the scientific method is to reduce the bias of your investigation to the smallest amount possible, thus revealing as much of the truth as possible. 

Image credit: AI Art - Multi Cassette Ghetto Blaster Robot Head - 2023

Swarming microrobots self-organize into diverse patterns
Jun 2023, phys.org

The microrobots in this case are 3D-printed polymer discs, each roughly the width of a human hair, that have been sputter-coated with a thin layer of a ferromagnetic material and set in a 1.5-centimeter-wide pool of water.

The researchers applied two orthogonal external oscillating magnetic fields and adjusted their amplitude and frequency, causing each microrobot to spin on its center axis and generate its own flows. This movement in turn produced a series of magnetic, hydrodynamic and capillary forces.

"By changing the global magnetic field, we can change the relative magnitudes of those forces, " Petersen said. "And that changes the overall behavior of the swarm."

But wait -- "The reason why we're always excited when the systems are capable of caging and expulsion is that you could, for example, drink a vial with little microrobots that are completely inert to your human body, have them cage and transport medicine, and then bring it to the right point in your body and release it," Petersen said. "It's not perfect manipulation of objects, but in the behaviors of these microscale systems we're starting to see a lot of parallels to more sophisticated robots despite their lack of computation, which is pretty exciting."

(Yes, drinking a glass of microbot swarms does sound like the ideal method of drug delivery, yes it does.)

Also, just a reminder: The Swarmalator is swarming oscillator model

via Cornell and Max Planck Institute for Intelligent Systems: Steven Ceron et al, Programmable self-organization of heterogeneous microrobot collectives, Proceedings of the National Academy of Sciences (2023). DOI: 10.1073/pnas.2221913120


COVID lockdown - Are high-income earners more resistant to returning to the office?
Aug 2023, phys.org

I'm just here because this is the first paper published by Northeastern's Network Science Institute program in London: Northeastern expanded its world leading Network Science Institute to the university's campus in London this summer (2023) in a move to establish a new European hub in the fast-growing research field of network science.

But I stayed for the word synchronicity: High-income workers have the leverage to negotiate more for remote work, Di Clemente says. "They are the ones that can actually change their synchronicity," he says, adding that part of that workforce "might never come back" to physical offices full time.

via Northeastern University: Clodomir Santana et al, COVID-19 is linked to changes in the time–space dimension of human mobility, Nature Human Behaviour (2023). DOI: 10.1038/s41562-023-01660-3


A system to keep cloud-based gamers in sync
Aug 2023, phys.org

Listen up, writers of interplanetary science fiction:

Their system, called Ekho, adds inaudible white noise sequences to the game audio streamed from the cloud server. Then it listens for those sequences in the audio recorded by the player's controller.

Ekho uses the mismatch between these noise sequences to continuously measure and compensate for the interstream delay.

via MIT and Microsoft: Ekho: Synchronizing Cloud Gaming Media Across Multiple Endpoints. Pouya Hamadanian, D Gallatin, M Alizadeh, K Chintalapudi

Image credit: TPUv3 Pod - Google Labs - 2018

Making sense of life's random rhythms: Team suggests universal framework for understanding 'oscillations'
Aug 2023, phys.org

Studying stochastic, random oscillations like the synchronized blinking of fireflies, the back-and-forth motion of a child's swing, slight variations in the the human heartbeat. "If your heart cells aren't synchronized, you die of atrial fibrillation," Thomas said. "But if your brain cells synchronize too much, you have Parkinson's disease, or epilepsy,

"We turned the problem of comparing oscillators into a linear algebra problem"

Most oscillations are irregular; a natural variation of 5-10% in the heartbeat is considered healthy. "In San Francisco, modern skyscrapers sway in the wind, buffeted by randomly shifting air currents—they're pushed slightly out of their vertical posture, but the mechanical properties of the structure pull them back. This combination of flexibility and resilience helps high-rise buildings survive shaking during earthquakes. You wouldn't think this process could be compared with brain waves, but our new formalism lets you compare them."

via Case Western: Alberto Pérez-Cervera et al, A universal description of stochastic oscillators, Proceedings of the National Academy of Sciences (2023). DOI: 10.1073/pnas.2303222120


Fireflies, brain cells, dancers: Synchronization research shows nature's perfect timing is all about connections
Sep 2023, phys.org

They figured out a way to predict the synchronization between coupled oscillators by the network structure that connects them, and have revealed the impact of patterns of network connections among small groups of nodes (motifs) on the whole of network synchronizability. Results implicate the prevalence of clustered structure such as feedforward and feedback loops as the most important factor in synchronizability.

"Clustered structure"

"We present an analytic technique to directly measure the relative synchronizability of noise-driven time-series processes on networks, in terms of the directed network structure, and reveal subtle differences between the motifs involved for discrete or continuous-time dynamics.  

via University of Sydney and Max Planck Institute for Mathematics in the Sciences in Leipzig: Joseph T. Lizier et al, Analytic relationship of relative synchronizability to network structure and motifs, Proceedings of the National Academy of Sciences (2023). DOI: 10.1073/pnas.2303332120


Adaptive optical neural network connects thousands of artificial neurons
Oct 2023, phys.org

A network consisting of almost 8,400 optical neurons made of waveguide-coupled phase-change material; the connection between two each of these neurons can indeed become stronger or weaker (synaptic plasticity), and that new connections can be formed, or existing ones eliminated (structural plasticity). 

These synapses were not hardware elements but were coded as a result of the properties of the optical pulses -- in other words, as a result of the respective wavelength and of the intensity of the optical pulse. This made it possible to integrate several thousand neurons on one single chip and connect them optically. 

(btw) The researchers tested the performance of the neural network by using an evolutionary algorithm to train it to distinguish between German and English texts. The recognition parameter they used was the number of vowels in the text. 

via Collaborative Research Center 1459 (Intelligent Matter) at University of Münster and Universities of Exeter and Oxford: Frank Brückerhoff-Plückelmann et al, Event-driven adaptive optical neural network, Science Advances (2023). DOI: 10.1126/sciadv.adi9127