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Gnosis Chain and ZKSync Have Already Upgraded to Be Compatible With Ethereum’s Upcoming Dencun Hard Fork … – Unchained

As Ethereums hotly-anticipated Dencun upgrade approaches, some protocols have upgraded their own networks for compatibility ahead of time.

The Dencun upgrade is expected to substantially reduce fees on Ethereum layer 2's.

(Shutterstock)

Posted March 12, 2024 at 2:12 pm EST.

Some crypto protocols have upgraded their smart contracts ahead of Ethereums anticipated hard fork on March 13 in an effort to be compatible with EIP-4844, a critical element of the upcoming Dencun upgrade.

Developers of zkSync performed a protocol upgrade yesterday to make the zero-knowledge-based rollup compatible with EIP-4844, said Daniel Lumi, senior product manager at Matter Labs, the software firm building zkSync. This prepares the layer 2 blockchain network to submit blob transactions, a new type of transaction that is expected to bring cheaper transactions across the various rollups built atop Ethereums settlement layer.

Gnosis Chain, a privacy-focused Ethereum sidechain, also enabled blobs after developers successfully activated the Dencun hard fork on the mainnet of the EVM-compatible blockchain network Monday afternoon, according to Gnosis Chain co-founder Martin Kppelmann.

Read More: How Much Will the Dencun Upgrade Really Reduce Ethereum Layer 2 Fees By?

David Tso, growth lead at blockchain data provider Covalent, commented on the upgrade, writing on Warpcast: Gnosis can adopt Ethereum hard forks because it runs the same dual-layer stack with a Beacon chain consensus layer that supports all the major Ethereum clients.

The upgrades of Gnosis Chain and zkSync to enable blob transactions came two days before the Dencun upgrade rolls out on Ethereums mainnet, which is designed to enable lower network fees. Nansen data journalist Martin Lee told Unchained that Dencun is a highly anticipated upgrade because fees of layer 2s, while they are much lower in fees than [Ethereum] by many orders of magnitude, are actually still quite higher than certain L1s like Solana where fees are just a couple of cents.

Data from onchain financial services platform IntoTheBlock projects that after Dencun rolls out the gas fee for a token swap on a decentralized exchange will substantially decrease on different layer 2s. IntoTheBlock estimates that users on Arbitrum, Optimism, and Base will see a more than 80% decrease in gas cost for a DEX swap to several cents.

Nansens Lee noted that memecoin season on rival blockchain Solana became popular and took up a large portion of the mindshare in the crypto space, in part because its low network fees meant that users could invest in new, high-risk projects at lower volumes without concerns that fees would outweigh smaller positions.

The expected outcome of Ethereums Dencun upgrade, a reduction in network fees, is important for pushing adoption and growth of L2s, potentially strengthening Ethereums meme culture, Lee noted. Lower fees always helps with the velocity of money on the chain, [e.g.] how fast a certain dollar amount circulates throughout the ecosystem We probably wont see that kind of virality that we do see on Solana happen on L2s or [Ethereum] yet, but I wouldnt be surprised if we see a stronger meme culture on various L2s and [Ethereum] itself, Lee added.

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Leading the Pack: Best Open-Source Crypto Software of 2024 – Analytics Insight

Cryptocurrencies and blockchain technology have evolved significantly, bringing forth innovations and a decentralized ethos. In this dynamic landscape, open-source software plays a pivotal role, in fostering collaboration, transparency, and community-driven development as we navigate through 2024.

Bitcoin Core stands as the backbone of the entire crypto ecosystem. As the original and most widely used Bitcoin implementation, it enables nodes to validate transactions, secure the network through consensus mechanisms, and participate in the decentralized governance of Bitcoin. The open-source nature of Bitcoin Core has been fundamental in maintaining the integrity and security of the Bitcoin network.

Ethereum, a trailblazer in smart contract technology, relies on open-source implementations like Geth and Pantheon. Geth, the Go Ethereum client, is renowned for its efficiency in running Ethereum nodes, and facilitating interactions with the blockchain. Pantheon, developed by ConsenSys, is an enterprise-grade Ethereum client designed for privacy, security, and interoperability. Both projects contribute to the robustness and accessibility of the Ethereum ecosystem.

Binance Smart Chain (BSC), known for its compatibility with Ethereum, leverages open-source tools like Ganache and Hardhat. Ganache provides a local blockchain for development and testing, aiding developers in building and deploying smart contracts on BSC seamlessly. Hardhat, a task runner and build system streamlines the development process on BSC with its extensibility and developer-friendly features.

Polkadots innovative approach to interoperability and scalability is powered by the open-source framework Substrate. Substrate allows developers to create custom blockchains tailored to specific use cases and seamlessly connect them to the Polkadot network. This flexibility and extensibility make Substrate a cornerstone of Polkadots vision for a multi-chain ecosystem.

Cardano, recognized for its scientific approach to blockchain, relies on open-source tools like Plutus and Marlowe. Plutus serves as the smart contract development platform for Cardano, utilizing Haskell for secure and reliable code execution. Marlowe, a domain-specific language, focuses on financial contracts, enabling non-programmers to create smart contracts. Both tools contribute to Cardanos mission of democratizing finance through blockchain technology.

Solana, known for its high throughput and low transaction costs, embraces open-source development with Rust and the Anchor framework. Rust, a programming language, enhances the security and performance of Solanas codebase. Anchor, an open-source framework for developing decentralized applications (DApps) on Solana, simplifies smart contract development, fostering innovation within the Solana ecosystem.

Tezos, a blockchain platform emphasizing self-amendment and on-chain governance, utilizes Michelson as its smart contract language. Michelsons open-source nature allows developers to write and deploy smart contracts on the Tezos blockchain securely. Tezos commitment to decentralization and community-driven governance aligns with the principles of open-source development.

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Special education, reading, computer science and other bills advance from Nebraska committee Nebraska Examiner – Nebraska Examiner

LINCOLN A Nebraska lawmaker is hailing the advancement of an Education Committee legislative package that she says is solution-oriented and provides support from all sides.

The assortment of nine bills, with the possibility for a tenth, is tied with a bow under Legislative Bill 1284, introduced by State Sen. Lynne Walz of Fremont. The bills relate to training teachers in reading instruction and computer science and technology; dyslexia research; special education; and more.

We, as the Education Committee, just put together a package of bills that will really provide good solutions for kiddos, for families, for people who may be going into the teaching profession, Walz told the Nebraska Examiner.

The State Board of Education is in favor of nearly every bill in the package and neutral on one (LB 985). Board President Elizabeth Tegtmeier said Friday she appreciates that lawmakers recognize the need to support and fund education.

Its great to partner with our lawmakers to improve education, Tegtmeier said.

Here is a breakdown of the Walz package:

Walzs LB 1284 would put $1.5 million into a Computer Science and Technology Education Fund for training and support. Public and private entities may also donate to the fund.

The Legislature could annually add $500,000 to the fund upon receipt of matching donations.

This years proposal builds off a 2022 law by State Sen. Terrell McKinney of Omaha that requires students to graduate with education in computer science and technology. Walz said her bill would address the needs of schools that lack teachers or need staff training.

This is a step in the right direction, Walz said.

LB 1254, introduced by State Sen. Lou Ann Linehan of Elkhorn, would set aside $10 million annually to create reading improvement mentorship programs and employ regional coaches. These would help provide sustained training to teachers in kindergarten through third grade to teach reading.

If you cant read, youre not going to survive in todays world, Linehan said.

She described a cycle in which young students who havent been taught reading get in trouble because they dont want to be embarrassed, andsome may avoid school. Linehan said the Nebraska Department of Education brought the bill to her.

A second bill on reading improvement is LB 1253, which would establish the Dyslexia Research Grant Program.

It is a one-time $1 million investment that would support Nebraska companies researching artificial-intelligence-based writing assistance for individuals with dyslexia. Linehan prepared the legislation with a group of University of Nebraska-Lincoln students.

Two bills aim to bring more special education teachers to Nebraska after lawmakers sparred last fall with officials from Omaha Public Schools over such shortages.

LB 1238, the Special Educators of Tomorrow Act, from Walz, would provide scholarships and loans to individuals who work with disabilities as direct support professionals to become special education teachers.

Individuals would need at least two years of experience as a direct support professional.

Scholarship recipients would also need to enroll or plan to enroll at an eligible institution to pursue a teaching career in special education. Loan recipients would agree to complete a special education program and a related major and commit to teach in Nebraska.

A recipient could receive an annual scholarship of up to $2,500 for up to two years and an annual loan up to $4,000 for up to three consecutive years.

Each year of full-time teaching after two years would shave $4,000 off such loans.

The bill includes an initial $1.5 million investment for a Special Educators of Tomorrow Fund and a $250,000 appropriation for each fiscal year after that, ending after the 2029-30 school year.

LB 964, from State Sen. George Dungan of Lincoln, would allow the Nebraska Department of Education to award up to 25 forgivable loans per eligible institution per academic year. This means the Nebraska State College System and the University of Nebraska system.

Each year, 20% of loans would be forgiven as the graduate, with a special education endorsement, teaches in Nebraska.

The graduate must begin teaching at a Nebraska K-12 school within one year of graduation.

It just seemed like something we could do to get more people into the field, Dungan said.

The Dungan and Walz proposals require loan recipients to repay loans if they do not satisfy their related bill requirements.

Dungans bill would also extend eligibility for Nebraska Career Scholarships to include teaching in special education.

LB 986, from Linehan, would rework the Teach in Nebraska Today Act as a grant program, doubling its impact from $5 million to $10 million. Teachers would qualify if they are within their first five years of teaching and have an annual income of less than $55,000.

Also included in the package is LB 1014, from Walz, which would enable school districts to employ school psychologists who work for a service agency.

Two other bills are considered cleanup for recent legislation:

A tenth bill, LB 1050 from State Sen. Danielle Conrad of Lincoln, would require schools to provide access to menstrual products, including pads and tampons, in school bathrooms. The committee voted 4-1, one vote short of advancing the bill in the package. State Sen. Justin Wayne of Omaha has not taken a position on LB 1050 and could still add his vote.

The committee did successfully adopt an amendment to Conrads bill, narrowing its impact last week to a one-year pilot program capped at $250,000. As amended, school districts classified as needs improvement or those in which 40% of students are poverty stricken would have funding priority.

Local school boards could adopt policies related to the bill.

I think its really thrilling that we have a good opportunity to move the bill forward in some fashion this year, Conrad said last week. I think that speaks volumes to the power of student organizing and young voices being involved in the process.

The State Board of Education is in support of Conrads bill, as is Linehan, who said a woman she knows has shoplifted just once for tampons, becauseshe couldnt get them any other way.

Sometimes people just need a little push to do the right thing, Linehan said of school districts.

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Dancing robots and STEM skills on display at annual Robotics and Computer Science Festival Team Duval News – Team Duval News

March 11, 2024 Doing dance offs with limber, four-legged robots was just one of the many STEM-related joys students enjoyed at the districts annual Robotics and Computer Science Festival held this month.

More than 500 Team Duval students got a chance to showcase their work from their computer science courses and afterschool Robotics teams, as well as interact with technology brought to the event by community partners.

Keelan Burke, a ninth grader at Raines High School, said this was an eye-opening experience.

Its been fun here with a lot of cool technology, said Burke. I learned that technology can do a lot of crazy stuff, and its really fascinating how humans are able to control all of this and create more stuff in the future.

The eye-popping exhibits, like the robot dogs and 3-D printing, were thanks to the districts partnerships in the community.

Weve just been really fortunate to have such great business partners, said Dr. Yvonne Spinner, Duval County Public Schools Director of Science. When you walk around, youll see CSX, JEA, Haskell, hand2mind, Stem2Hub and all of these partners that come out here. Were just fortunate that those organizations have volunteered their time and funding to come out here to support our Duval County students.

Students said they learned a lot by visiting the interactive exhibits.

Im learning how to make household things, said Ishika Patel, a fourth grader at R.V. Daniels Elementary School. Its really exciting because this could help me in the future, like if I dont have something, I can just take some supplies and make a flashlight if the lights go out.

Dr. Spinner said this event along with the computer science courses and Robotics clubs help stimulate a love of STEM in students early, which is the districts goal.

If you dont touch students in elementary school with STEM education, by the time they get to middle and high schooleither they dont like science, they dont like technology, or they dont have enough skills to engage in those programs, said Dr. Spinner. Then we dont get kids in our important fields.

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Computer science department gets thumbs-up from ABET – Central Michigan University

The Central Michigan University Department of Computer Science just scored a big win they've been officially accredited by the Accreditation Board for Engineering and Technology, the big name in accrediting computing and engineering programs worldwide. This means that our Bachelor of Science in Computer Science has passed all the tough standards ABET set.

ABET isn't some faceless organization; it's made up of volunteer professionals who are experts in the field. These folks, through what they call the Computing Accreditation Commission, outline criteria and guidelines on standards needed to meet their rigorous requirements to be accredited. And our Computer Science program met every requirement they threw at it.

Getting this accreditation wasn't a walk in the park, it was a journey that started back in 2015. The department had to sweat it out, tweaking the curriculum and rules to fit ABET's standards. They even wrote up a whole report to show ABET just how hard they've been working. And in 2022, ABET came for a visit to see for themselves.

They had to jump through hoops, proving they were up to snuff on everything from advising students to making sure the faculty was top-notch. Plus, they had to make sure they were teaching all the right stuff algorithms, programming languages, you name it. They had to pass every test in the book.

But now that they've got the stamp of approval from ABET, students can breathe easy knowing their education here meets the high standards of the computing world. And employers? They love seeing that ABET seal of approval. It tells them our grads are ready to hit the ground running.

ABET isn't just about getting the badge and calling it a day. They're all about getting better and better. So, the CMU Computer Science Department isn't resting on its laurels. They're going to keep on listening to feedback, making improvements, and churning out grads who are ready to take on whatever the tech world throws at them.

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How AI Can Save the Zebras – Nautilus – Nautilus

Tanya Berger-Wolf didnt expect to become an environmentalist. After falling in love with math at 5 years old, she started a doctorate in computer science in her early 20s, attracting attention for her cutting-edge theoretical research. But just as she was about to graduate, she became obsessed with a topic that surprised her professors and even herself: zebras.

While still an undergraduate, Berger-Wolf began working as a research assistant at the ecology department, building computer simulations of wildlife populations. She was intrigued by the fact that digital technologies and biodiversity were following exponential trends, but in opposite directions. While the digital sector was burgeoning, endangered species populations were crashing. And in contrast to the deluge of data she had experienced in computer science, Berger-Wolf was shocked at how little data existed about the worlds most endangered species.

The animal that caught Berger-Wolfs attention, the Grevys zebra, was known in antiquity as the imperial zebra. Used by Romans in their circuses, the largest of the wild equines, renowned for their elegant stripes and striking gait, the Grevys zebras once roamed large expanses of East Africa in giant herds. Today, fewer than 1,000 zebras remain, crowded out by farmers fields and cattle ranges, and still hunted for their skins and meat. By the time Berger-Wolf learned about their plight, scientists were predicting that the iconic species might die out within two decades.

How, exactly, could computer science help save endangered species?

Maybe, Berger-Wolf thought, she could apply her digital skills in a way that could help save the zebras.

But the computer scientists she consulted were discouraging. As one told her: Youre smart enough to do theory; why do you want to do this applied crap? Others advised her to transfer to computational biology. Berger-Wolf tried it out, only to realize that she didnt want to spend her time sequencing the human genome or creating more accurate models of the human brain. She wanted to do something that would combine ecology and computer science to help save the planet.

The field of research she imagined had no name, nor precedent. Undaunted, Berger-Wolf asked around: Who is the best ecologist in the world? She was given the name of Simon Levin, at Princeton University. Berger-Wolf wrote to Levin out of the blue with an unorthodox idea: They would invent a new field, called computational ecologya research agenda as ambitious as computational biology, but applied to ecological issues. Levin accepted, and Berger-Wolf moved to Princeton.

Even there, it was an uphill battle. Most ecologists saw computer scientists as mere coders. And most computer scientists saw ecologists as mere sources of data. Berger-Wolf couldnt convince her fellow computer scientists of her visions potential. And the ecologists, although intrigued, were dubious: How, exactly, could computer science help save endangered species?

Zebras were Berger-Wolfs breakthrough. Shortly after arriving at Princeton, she began chatting with Daniel Rubenstein, one of the worlds leading behavioral ecologists. She explained the problem to him. Ecologists wanted the Kenyan government to adopt stronger protections, including a national park. But the Kenyan government demanded an accurate census before proceeding with regulations that would likely incite strong resistance from local communities.

Why didnt I think of it before? All we need is a bar code reader for zebras!

Here, the ecologists faced a catch-22. The usual census methods (catching the zebras and painting numbers on them or shooting them with anesthetic darts in order to embed electronic tracking devices) were expensive, traumatizing, and put the zebras at risk of infection. Given how endangered the zebras were, these conventional methods couldnt be used. But visual surveys were slow, expensive, and inaccurate; it could take up to half an hour to identify a zebra from a photo, and the people-shy zebras were notoriously hard to track. The herds babies were dying at an alarming rate, yet without a census the government would not act. Unless something changed, the zebras were doomed.

How could computer science help? Berger-Wolfs epiphany emerged during a field computational ecology course that she and Rubenstein co-taught in Kenya. By then, she had met and married her husbandan ecologist with an interest in zebras. One night, Berger-Wolf overheard her husband joking with some local field biologists as they gathered to identify zebras from individual photos, a tedious task that would take many days. All they needed, they mused, was an automated method to help them identify and catalog individual zebras. It had been yet another frustrating day tracking the elusive animals, and Berger-Wolf overheard her husband say: Why didnt I think of it before? All we need is a bar code reader for zebras!

A light bulb went off for Berger-Wolf. Zebras did indeed have unique stripe patterns. Although a bar code reader probably wouldnt work, something like a fingerprint scanner potentially could.

Theoretically, zebra stripes pose a similar conceptual problem to the identification of human fingerprints, as each individual zebra has its own unique markings. While biologists had long used these patterns (which they sometimes refer to as bodyprints) to help identify individual zebras in the wild, the process had never been automated.

Berger-Wolf began collaborating with her Ph.D. student Mayank Lahiri to develop an initial iteration: StripeSpotter. Their goal was to create a free, open-source program to which anyone could upload a photo of a zebras flank, for automatic identification. The algorithm is fairly straightforward: The zebra is assigned a stripe code, which is then checked against the database. If the zebra is already in the database, it is matched to earlier photos; if not, it is assigned a new, unique identity. The AI-powered algorithm can identify individual zebras from a simple photo and has no problem handling images of different sizes, oblique angles, and over- or underexposed photographs. After testing it against thousands of zebra photos that she took from various angles, including hundreds of photos she took personally during several super-light airplane flights over northern Kenya, Berger-Wolf verified the accuracy of the algorithm. With enough photos, a complete census of the zebra population was now feasible.

Berger-Wolf then teamed up with Chuck Stewart, a computer scientist at Rensselaer Polytechnic; together with his student Jon Crall, they decided to develop a more comprehensive computer vision method for identifying patterned animals, which they called HotSpotter. The near-impossible task of identifying and tracking individual animals, which used to take weeks or months, now takes mere milliseconds. As reliable as facial recognition technology, computers could now identify zebras as individuals.

Berger-Wolf knew that her idea was highly scalable. In theory, the HotSpotter algorithm could be adapted and applied to many of the nearly 9 million known species on the planet. Moreover, manual photos could be augmented with photos by satellites or drones and crowdsourced from social media. In other words, it could become a low-cost face recognition reader for the worlds wildlife. She was just missing one key component: a robust data management system.

A chance encounter led her to the solution. At around the same time Berger-Wolf had dreamed up StripeSpotter, Princeton-trained physicist Zaven Arzoumanian developed an unexpected passion for endangered whale sharks.

Whale sharks are mysterious creatures: Although they are the largest living fish in the world (with adults longer than 40 feet weighing in over 20 tons), little is known about themexcept that global populations have halved in the past few decades. Arzoumanians interest was sparked when a friend, software programmer Jason Holmberg, had a numinous encounter with a whale shark while scuba diving. Holmberg began wondering about how the highly elusive fish might be tracked, and asked Arzoumanianby then working at NASAs Goddard Space Centerfor help.

How could they automate identification of whale sharks? The creatures have hundreds or even thousands of distinctive white spots on their backs, as unique as human fingerprints, but the subtle variation is hard for human eyes to parse and differentiate.

After searching through the literature, Arzoumanian homed in on an innovative stellar pattern-matching algorithm that had been developed decades earlier for use by astrophysicists. When Princeton scientist Edward Groth first created the algorithm, he was trying to automate the analysis of the billions of stars revealed by the newly launched Hubble Space Telescope.

The observable universe as a whole contains somewhere between 30 billion trillion and 70 billion trillion stars; the sheer volume of information overwhelmed astronomers. Groths algorithms solved this challenge; Arzoumanian realized that the algorithm, which analyzes patterns of pinpricks of light in the sky, could be used to identify individual whale sharks, whose dappled skins have unique patterns that are as intricate and unique as stellar constellations.1

Holmberg and Arzoumanian tweaked the algorithm, and then reached out to whale shark biologist Brad Norman, who immediately saw the enormous potential in citizen science outreach: Normans large network of amateur whale shark spotters could upload photographs, and the whale spotter algorithm could identify individual sharks in seconds.

For decades, Norman had been photographing and identifying each whale shark by eye, a tedious process that could take hours or even days; he was eager to try an automated method. He soon launched a global campaign. A year later, with the contributions of more than 5,000 citizen scientists who reported tens of thousands of whale shark encounters in dozens of countries, more than 6,000 individual whale sharks were identified, with a successful match rate of over 90 percent.

The number of known whale shark gathering sites doubled within a few yearsa finding that would not have been possible using manual observation methods.2 Says Norman, Whale sharks stopped being random animals . . . and became individuals with stories and histories and futures that are yet to be written. And thats what makes it so seductive as a citizen science project.3

With the help of over 8,000 citizen scientists, and by scraping YouTube videos, researchers were able to identify over 12,000 individual whale sharks from over 75,000 reported sightings. Those data led the International Union for Conservation of Nature (IUCN) Red List of Threatened Species to reclassify the whale shark from vulnerable to endangered and to determine that the population trend was declining, rather than stable as previously thought.

Based on their initial success with whale sharks, Arzoumanian and Jason Holmberg founded a nonprofit organization, Wild Me. But they hit a stumbling block: just like StripeSpotter, their original algorithm didnt scale. However, Holmberg had created a robust data management layer, just what Berger-Wolf needed. The three innovators teamed up, and the constellation and StripeSpotter algorithms were replaced with the HotSpotter-based approach, linked with the Wild Me data management layer. They now had a system that could potentially catalog any living thing (anything, that is, with colors, stripes, spots, wrinkles, scars, or notch patterns that do not change as the animal ages).

Then, they embarked on an ambitious mission: cataloging the worlds wildlife. The pent-up need for automated animal identification systems was staggering. Berger-Wolfs email was jammed with requests. Researchers sent in massive datasets of photos from all over the world. The huge amounts of data now available were both blessing and curse: The Wild Me team now had a massive cataloging problem, and it still wasnt obvious how conservationists could use the information. So the team, which had by this point attracted half a dozen engineers, created Wildbook, a version of Facebook for animals.

The founders vision was ambitious: blend wildlife research with citizen science and computer vision to accelerate zebra monitoring. They billed it as extinction-combating software. Their ultimate goal was to create a universal animal recognition algorithm that could identify unique individuals in every species on the planet, like a low-cost facial recognition reader for the worlds wildlife. With such an algorithm, ecologists would be able to easily and automatically identify and track any individual living creature on the planet, from birth to death.

Several years later, Wildbook encompasses hundreds of species. (If youre a fan of whales or dolphins, check out Flukebook.) The social media side is the visible part of the website, where members of the public can visit and perhaps fall in love with some charismatic megafauna (or microfauna). At the back end, out of sight, is a set of algorithms that deploy computer vision, combined with citizen science, as a way to put a face, name, and story to each and every individual animal on the planet.

Whale sharks stopped being random animals and became individuals with stories and futures.

The platform is now being used to track a Noahs ark-like list, including whales, giraffes, manta rays, humpback whales, Hectors dolphins, sea bass, flapper skates, turtles, sharks, jaguars, lynx, seals, polar bears, and sea dragons. With funding from the Moore Foundation, Berger-Wolf is expanding Wildbook to thousands of species. In the future, she hopes to develop systematic assessments of populations for every species on the IUCN Red List, a global inventory of endangered species.

Another funder of Wildbook has been Microsofts AI for Earth program. Why did Microsoft decide to get involved? In the words of Josh Henretig, who oversaw the $50 million fund Microsoft is investing in AI for Earth: Whats really worrying to us and to many scientists around the world is that we have only discovered/described about 1.5 million species of an estimated 10 million on our planet, and less than 5 percent of that 1.5 million species have ever been analyzed in any detail. There are species that are disappearing off our planet that weve never even known about.

Many researchers are now following in Wildbooks footsteps, developing machine learning algorithms to track specific species of wildlife (chimps, dolphins, badgers, birds, koalas, kangaroos), and even track the exotic pet trade. These efforts are not enough to stop extinction, but they are one important piece in the larger puzzle: accurate documentation of species decline.

In the meantime, the Grevys zebras now have a fighting chance at survival.

Soon after the launch of HotSpotter, Dan Rubenstein came up with a controversial suggestion: convince the Kenya Wildlife Service to incorporate HotSpotter into a biannual zebra population census. As Berger-Wolf remembers, The computer scientists on our team nearly had a heart attack when Dan proposed a census. But Rubinstein insisted. They needed to convince the government to do a census, and they also needed to win over the public by engaging ordinary Kenyans in the process.

Although dubious, Berger-Wolf approached the Kenyan government, and to her surprise found some interest. After two years of negotiations and planning, the first two-day Great Grevys Rally was held across Kenya in 2016. The rally was cast as a blend of citizen science and public relations, mobilizing hundreds of Kenyans, from the prime minister to children from the slums of Kibera, to snap photos of the elusive zebras in a two-day national campaign. The rally produced an unprecedented result: a verifiable, accurate census (rather than estimate) of the entire Grevys population.

Over subsequent years, its accuracy was confirmed; meanwhile, the political popularity of the zebra grew. As Berger-Wolf recounts, the youngest participant in the most recent rally was 3 years old, while the oldest was over 90 years old. The Kenyan government was able to enact reforms that were previously thought to be too unpopular to be feasible: passing a new Grevys Zebra Endangered Species Management Plan (committing land, resources, and funding) and strategically limiting lion populations (a major zebra predator) with contraception.

A government census in 2020 confirmed thatfor the first time in yearsthe Grevys zebra population in Kenya had stabilized rather than continuing to decline.

This excerpt is taken from Gaias Web: How Digital Environmentalism Can Combat Climate Change, Restore Biodiversity, Cultivate Empathy, and Regenerate the Earth by Karen Bakker, published with permission from The MIT Press.

Lead image: slowmotiongli / Shutterstock

References

1. Arzoumanian, Z., Holmberg, J., & Norman, B. An astronomical pattern-matching algorithm for computer-aided identification of whale sharks Rhincodon typus. Journal of Applied Ecology 42, 9991011 (2005).

2. Norman, B.M. et al., Undersea constellations: The global biology of an endangered marine megavertebrate further informed through citizen science. BioScience 67, 10291043 (2017).

3. Annie Sneed, A. Astronomy Tool Helps ID Sharks. Scientific American ( 2018).

Posted on March 11, 2024

Karen Bakker was a Guggenheim Fellow, a professor at the University of British Columbia, and the Matina S. Horner Distinguished Visiting Professor at the Radcliffe Institute for Advanced Study at Harvard University. She was the author of The Sounds of Life: How Digital Technology Is Bringing Us Closer to the Worlds of Animals and Plants and Gaias Web: How Digital Environmentalism Can Combat Climate Change, Restore Biodiversity, Cultivate Empathy, and Regenerate the Earth.

Cutting-edge science, unraveled by the very brightest living thinkers.

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NSF Discovery Scholars Build Community and Advance Research – Newsroom | University of St. Thomas – University of St. Thomas Newsroom

In fall 2022, St. Thomas wasawarded a six-year, $1.5 million NSF S-STEM grantto provide financial support for students interested in key STEM fields.S-STEM grants are specifically intended to increase the countrys research science workforce by funding scholarships and academic support fortalented undergraduate students with unmet financial need. With the grant, the College of Arts and Sciences established theNSF Discovery Scholars Program, which, over the course of the grant, will support the needs of 23 students who are interested in pursuing careers in biology, biochemistry, neuroscience, and computer science.

This past fall, St. Thomas welcomed the first cohort of eight students into this exciting program: Ishmael Efejuku (computer science), Amara Jackson (computer science), Nadia Jeylani (computer science), Marissa Miller (biology), Ellie Rengel (neuroscience), Michael Rosas Ceronio (computer science), Max Sampson (computer science) and Gavin Warmkagathje (biochemistry).

The students are finding and building community in the Science Discovery Scholars LLC, which is designed to foster belonging among science-minded individuals. Dr. Jerry Husak, a professor of biology who is also affiliated with the biochemistry, diversity leadership and neuroscience programs at St. Thomas, is one of the faculty leaders of the Living Learning Community.

This experience has provided an opportunity for the scholars to live and grow with other STEM students, Husak said. Students in the LLC take three courses together, attend events, socialize and explore possible STEM careers with their peers. They also have access to support and guidance from outstanding faculty and staff in the College of Arts and Sciences. The scholars are really making some strong connections that I think will enhance their time at St. Thomas and beyond, added Husak.

Dr. Roxanne Prichard, professor of psychology and neuroscience and coordinator of the program, sees enthusiasm building among the scholars. Theres a great sense of community and excitement for future opportunities, including the NSF S-STEM Scholars national conference this fall in Chicago, Prichard shared. We are currently conducting interviews for our second cohort, and its gratifying to share success stories from our first cohort who are finding so many great ways to connect and grow at St. Thomas.

These scholars are already hard at work on a broad range of projects, a selection which are detailed here. For information about eligibility and the application process, please visit the NSF Discovery Scholars website.

Ellie Rengel

Rengel is working with Dr. Mari Gades (assistant professor of psychology and neuroscience) on a project that examines the behavioral neuropharmacology of kratom, a traditional plant extract used as a stimulant in Southeast Asia.

I am aware that finding answers or cures to certain diseases or scientific questions is a difficult task and may not be entirely realistic. I aspire to achieve these seemingly unreachable tasks, but I also have some more realistic passions: I hope to help improve current methods of treatment, and to be able to effectively diagnose diseases earlier through research. Ellie Rengel

Ishmael Efejuku and Michael Rosas Ceronio

Efejuku and Rosas Ceronio, in collaboration with Dr. Jason Sawin (professor of computer science) are engaged in a variety of projects. These endeavors include the development of applications for gathering web data, the creation of promotional materials to showcase the distinct opportunities available to computer and data scientists and the formulation of degree plans that highlight unique opportunities for pursuing double majors at St. Thomas.

The internet has seemingly infinite potential and I strive to be someone who is capable of utilizing that potential and using my knowledge practically. With this knowledge, I can teach other people specifically, children in urban communities who do not have as much exposure or access as others. I believe that seeing a familiar face makes it much easier for kids to pursue a career like computer science. Ishmael Efejuku

Ive always liked math and problem-solving, and I want to help our society. I want to use my computer science degree to create software and systems that are easy for people to understand and use, so they can go about life with ease. Michael Rosas Ceronio

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CS PhD student wins People’s Choice award at Three Minute Thesis competition – University of Colorado Boulder

Aaquib Tabrez, a 5th year PhD student in the Department of Computer Science advised by Assistant Professor Bradley Hayes, won the People's Choice award for the graduate school's Three Minute Thesis competition. The competition challenges students to describe their research within three minutes to a general audience after a few months of preparation.

To celebrate Tabrez's accomplishments, let's learn more about his research and experience with the competition and graduate school at CU Boulder.

I design novel algorithms that enable robots and autonomous systems to more effectively explain their decision-making processes to human collaborators. This enhances the ability of individuals to place appropriate levels of trust in these systems. The aim is to make these systems more transparent, trustworthy, and reliable across various human-robot team settings, including manufacturing, autonomous driving, and search and rescue operations. By improving human-machine communication and collaboration, we can significantly enhance the effectiveness of these teams.

Specifically, my work involves teaching robots how to teach or coach humans during collaborative efforts. Additionally, I investigate situations where people may over-trust or under-trust the recommendations and guidance provided by robots. My research explores various methods and techniques to mitigate these mismatches in trust by offering suitable explanations from the robots.

It feels absolutely incredible. Public speaking hasn't always been my strong suit, particularly with my Indian accent. Competing in such a big competition has been a significant confidence booster. Its truly rewarding to see people acknowledging my research and the hard work Ive put in here at CU Boulder.

My advisor has always stressed the importance of being able to articulate our research to those outside our field. Plus, as an expert, I believe that I am best suited to explain what is happening within my field and my work to make sure people dont misunderstand it. Participating in this competition seemed like the perfect opportunity to hone those communication skills.

Before joining CU Boulder, I was working a typical 9-5 job. I did not like the monotony and the lack of learning opportunities. So, I wanted to try something different which would be intellectually challenging. I also like philosophy and was interested in figuring out how people think. So, I thought, why not try to do the same for robots? That basically motivated me to apply here, specializing in robotics. Plus, I was a big H.G. Wells fan when I was a kid, so that kinda motivated me to consider robotics.

Professionally, I would like to run my own research lab, working closely with those directly impacted by emerging technologies, such as healthcare workers and teachers. My goal is to explore how these advancements can bring about tangible improvements in their fields and their personal life. On a personal level, I love hiking, and I want to explore as many countries as possible and hiking trails around the world.

One thing that has really helped me throughout my PhD is being physically active, whether it's going to the gym, running, or hiking. It gives me a sense of clarity and a rush of adrenaline that helps me think through any situation. Graduate school is both fun and challenging, filled with distractions, doubts, imposter syndrome, and deep bonding with the people around you. Surround yourself with supportive people who can help you overcome these challenges. Don't hesitate to ask for help when you're not in a good place; there are so many people ready to lend a hand when you ask for it.

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As AI takes off, UB is poised to guide its future uses – Buffalo News

The University at Buffalo S.O.A.R. facility allows students and faculty to test out new drone technologies.

On a summery day in March, the huge mesh drone cage at the University at Buffalos North Campus is humming as engineering professor Chase Murray and doctoral student Dowon Lee practice landing remote- and voice-controlled drones on a small autonomous land rover.

It looks like fun, but its also part of serious research on how artificial intelligence can equip fleets of drones to launch from the roof of a delivery vehicle and fly packages to customers who live farther from a distribution center than drones can fly.

Professor Chase Murray, left, and graduate student Dowon Lee pilot a drone inside the Structure for Outdoor Autonomy Research drone testing facility at the University at Buffalo on Monday, March 4, 2024.

The reasoning is to extend the reach of drones that have a short battery life and cant fly more than 10 miles at a time, Chase explains. So, the truck becomes like a mobile distribution center. And in my lab, we have pioneered the algorithms for that.

UB has been conducting AI research for decades, and its paying off as big leaps in AI technology like ChatGPT fuel a global rush to catch up and lead the field.

With multimillion-dollar tech giants jostling for ownership of AI, state and national leaders want to position the public sector and academia as key players to ensure that equity, safety and the public good are as important as profits in the industry. And they are tapping UB to play a role in that goal.

Heres how UB and its big plans fit in.

Last month, Gov. Kathy Hochul chose UB as the hub for a new state consortium, Empire AI, whose seven institutions will work to secure New Yorks place at the forefront of the artificial intelligence transformation, she said.

Empire AI comes with an initial $400 million investment that will fund a new AI supercomputing facility at UB, giving it the same hardware, storage and data-crunching abilities that tech giants like Meta, Google and Microsoft have to spearhead AI research, innovation and job creation.

Over the years, AI has become very tied to computing power, so the big advantage has been with the tech companies, while the universities even large ones like UB cant match those kinds of resources, said Venu Govindaraju, UB vice president for research and economic development. But Empire AI changes the equation for developing AI research.

Gov. Kathy Hochul announced the creation of a new AI consortium Monday that aims to secure New York's place at the forefront of the artificial intelligence industry and the University at Buffalo stands a chance to be the site of the new partnership dubbed Empire AI.

UB has already joined a new federal AI safety group, the U.S. AI Safety Institute Consortium, and an international group, the AI Alliance, to unite industry, government and research organizations to promote open, safe and responsible AI.

U.S. Senate Majority Leader Charles E. Schumer is also lobbying the Biden administration to include UB and Empire AI in a pilot project for a new National AI Research Resource group to oversee AI innovation and policy.

UB gained an international reputation in AI and data science in the 1990s, before the term AI was in common use. Govindarajus team of computer scientists taught computers to decipher handwriting more quickly and accurately than human beings can.

UBs autonomous handwriting recognition system was hailed as one of the first successes in machine learning when it was adopted by the U.S. Postal Service in 1997, saving the post office $90 million the first year and billions since.

At the time, Govindaraju said people were reluctant to label such technology as AI partly from fear of autonomous computers and partly due to AI failures like the accidents that have plagued driverless cars.

We called our technology pattern recognition or image processing, because people were shying away from the term AI, Govindaraju said. But around 2010, people began looking back and saying, This was and is AI.

Venu Govindaraju, University at Buffalo vice president of the Office of Research and Economic Development.

UB also launched a supercomputing center in 1999 with a $1.3 million gift from IBM and upgraded it with Dell cluster computers in 2020 to exponentially increase its power and speed.

UBs supercomputing facility ranks among the best at any university and has AI capabilities, but the new super-system for Empire AI will be a couple of magnitudes larger maybe 20 or 40 times more powerful than what we have now, Govindaraju said.

Right now, only the profit-making giants have the latest and greatest computing infrastructure, because no other state has made this kind of investment, he said.

Hochul has been investing heavily in UB since taking office as governor. She named it a SUNY flagship in early 2022 and pledged $68 million for a new engineering building on UBs North Campus. Last year she announced another $100 million for new and updated research buildings, labs and equipment at UB.

The governor has also set up UB to reach $1 billion in research funding by 2030, and UB is advancing toward that with some impressive federal grants. It boasts the highest amount of National Science Foundation Cyberinfrastructure funding $18 million in active grants of any New York university. (Cornell comes in second with $10.6 million.)

In 2022, NSF chose UB and its supercomputing center to lead a $10 million project to develop advanced supercomputing infrastructure with six other institutions including several larger universities, which UB hailed as a vote of confidence in its ability to become one of the nations hubs for technological innovation, Govindaraju said at the time.

Then last year, NSF awarded UB a major AI plum: $20 million for a national AI Institute, the AI Institute for Exceptional Education, thats devising AI applications to assist children with speech and language challenges. UBs collaborators include researchers at eight other universities including Stanford, the University of Illinois, Penn State, Cornell and Georgia Tech.

Schumer has invited the heads of the Biden Administrations National AI Research Resource pilot to visit New York and strongly consider Empire AI for their two-year project to create a national shared infrastructure for AI innovation.

UB will need to catch up with heavy hitters like Stanford University and MIT to lead in the AI race not just in computer power and grant funding. Stanfords affiliation with Silicon Valley has given it a huge advantage, while MIT has made Boston a leading startup city.

But UB has high hopes that Western and Central New Yorks designation as a federal tech hub will create a similar symbiosis here. The tech hub groups Buffalo, Rochester and Syracuse as one of 31 regions eligible for $54 million in federal funding to advance industries of the future. Only five to 10 of the regions will get any funding.

The three upstate cities plan to be a semiconductor superhighway with chip maker Micron to build the nations largest semiconductor plant near Syracuse. Schumer fought for the designation and cited UB as a critical center for research and training in semiconductor technologies.

If the tech hub plan succeeds, UB, Syracuse University and Rochester Institute of Technology will benefit from a regional boom around the semiconductor chips that fuel AI.

UB has more than 200 faculty members involved in AI research, and that number is growing. Last year UB embarked on a historic hiring push to add 200 more faculty researchers to increase its depth and diversity as a public research university. It has hired more than 150 so far, and many brought ongoing research grants with them from other schools.

With Empire AI and the tech hub, UB will attract more researchers, more funding and more students, especially international students from AI-focused countries like India and China, Govindaraju said.

Another asset to help that happen is UBs emphasis on entrepreneurship. In recent years, UB has worked to build a strong entrepreneurial ecosystem to feed and bolster regional startup resources like 43North and LaunchNY that are revitalizing the regions economy.

The new faculty and students coming to universities these days are entrepreneurial in their mindset, Govindaraju said. They are not satisfied with writing theses and publishing papers. They want to found startups, contribute to society and generate wealth. As that happens, and as more companies use AI to become more efficient, UB and Empire AI will play a critical role in these innovations.

Professor Chase Murray, left, and graduate student Dowon Lee test a drone in the Structure for Outdoor Autonomy Research drone testing facility at the University at Buffalo North Campus on March 4.

Empire AI is also meant to help formulate industry guidelines and safety standards to keep AI transparent, responsible and equitable. Govindaraju said the AI Alliance and the national AI Safety Institute will unite tech companies, government entities and research institutions in developing standards for responsible and open AI.

I look at it like building codes that, if society follows them, buildings are safer, Govindaraju said. AI needs a similar code that everyone should follow to make sure they dont cut corners and sacrifice safety for profits.

In announcing Empire AI, Hochul introduced new state acceptable use policies for AI that include developing controls on how personal data can be gathered and used.

Govindaraju said UB and its fellow Empire AI founding institutions Columbia, Cornell, New York University, Rensselaer Polytechnic Institute, SUNY, CUNY and the Simons Foundation will collaborate to share data so that even the small companies can come to them for AI solutions to their problems.

We will pool our resources so that no one is left out of pursuing big ideas, he said.

At UBs drone cage dubbed SOAR for Structure for Outdoor Autonomy Research Chase Murray said he expects Empire AI to grow his research and facilities. SOAR, completed in 2020, is among the three largest outdoor drone testing centers in the nation, but theres room to expand to be the biggest and best equipped, he said.

A detailed look at a camera on a drone inside the Structure for Outdoor Autonomy Research drone testing facility at the University at Buffalo.

He said he foresees more research funding focused on equipping autonomous drones to react to potential attacks, like using sight to navigate if their GPS signals are jammed.

One of the first things I worked on here was using drones for military applications, and it was kind of the traditional surveillance stuff, Murray said. That was 15 years ago, and now the technology has emerged very rapidly in that area. Things that we thought were nowhere near the horizon are now upon us.

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North Park University Introduces New Bachelor of Arts in Applied Computer Science for Fall 2024 – North Park University

North Park University announced today that it is adding a new major in applied computer science (BA) to provide students with expertise in high-growth areas where employers are searching for talent.

The hybrid program will be taught both on North Parks campus and online via a partnership with the Lower Cost Models Consortium (LCMC) and Rize Education. The LCMC is a strategic partnership of private colleges and universities nationwide, collaborating with Rize Education to provide access to a cutting-edge curriculum that prepares students for successful careers.

The involved parties directly collaborated with Google to build computer science courses that will develop graduates to fill essential and understaffed roles across tech industries. With employment in the field expected to grow at roughly 22% over the next decade (nearly three times the national average), graduates will qualify for increasingly valuable jobs in Illinois and nationwide. Project-based and portfolio-building classes will help students produce impressive resumes before graduation and hone skills that hiring managers demand.

North Park Provost Michael Carr said, Our faculty and academic leadership have worked creatively to develop this program, which will provide our students with opportunities to acquire skills for the growing field. Combined with our liberal arts core, this new major will prepare students for lives of significance and service.

Formed in 2015, the LCMC is a national consortium of over 130 fully accredited nonprofit colleges and universities. LCMC members are committed to collaborating to address the challenges of increasing costs in higher education by implementing innovative programs and reducing institutional expenses for these programs to pass savings along to students. In this way, the LCMC hopes to develop new models of higher education that benefit students while contributing to the sustainability of accredited, nonprofit, four-year institutions.

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