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XRP Price Today

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XRP Price Today

XRP Price

There are hundreds of crypto assets offered in the market, so beginner crypto investor may face difficulties picking a project to invest in. We recommend paying attention to the top 10 cryptos in rankings. Among them, you will find:

  • Bitcoin
  • Cardano
  • Ethereum
  • Ripple
  • and other crypto assets.

Let’s talk about one of them.

Ripple XRP

Ripple is a network initially envisioned as an ultimate service for global quick fund transfers. In fact, it is an exchange network and payment system that has all the chances to replace traditional SWIFT and similar networks.

XRP is a network token. Users buy it as an investment or a means to transfer funds worldwide. XRP USDT rate is $0,3359 (mid-September 2022).

The advantages of Ripple:

  • Quick transactions. It takes 4-5 seconds for transactions to be confirmed in the Ripple network. It is really fast compared with transactions that banks offer, or even the Bitcoin network can afford.
  • The lowest fee of 0,00001 XRP.
  • The Ripple network can be used for other crypto and fiat transfers.

The platform has partnered with many financial establishments that are now successfully using the network for money settlements.

To know the current Ripple XRP price, you can address the WhiteBIT crypto exchange. It always provides up-to-date crypto rates. WhiteBIT charges low fees for transactions – 0,10%. The exchange is focused on user experience and safety and has earned a good reputation among European users. 

You can buy crypto assets with fiat currencies on WhiteBIT. You will have to register an account and pass KYC for that purpose. To access the full functionality of WhiteBIT, you need to verify your account. It is a necessary condition aimed at providing a safeguard for all exchange’s clients. KYC usually lasts a few days, after which you access all the benefits of crypto exchange. 

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Twitter pulls paid verification after impersonators flourish

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Twitter pulls paid verification after impersonators flourish

The sudden absence of the service adds to a series of whiplash product moves in the two weeks Musk has controlled the company.

Twitter has suspended subscriptions to its Blue subscription service after the initial launch was marred by users receiving a paid verification badge and then impersonating celebrities, politicians and brands.

Twitter users started noticing a change Thursday night when the blue subscribe option was no longer in the app’s sidebar. The Twitter Blue registration page still points to a page with information about the service, but without the ability to register.

It was not immediately clear if service would be restored and when.

The sudden absence of the service, which CEO Elon Musk called a major step as Twitter seeks to increase revenue and reduce the prevalence of bots and trolls, was the result of a series of product moves in the two weeks that Musk controlled the business. .

A Twitter sales official said the company decided to remove the verified service from Twitter Blue after several accounts started impersonating businesses using accounts with paid verification badges that looked just like the original Twitter.Twitter confirmation badges for public figures and famous brands.

Even Elon Musk’s other company, electric car maker Tesla, has failed to protect Twitter from brand-degrading copycats.

The employee, who asked to remain anonymous for fear of retaliation, said the account, set up under the guise of pharmaceutical company Eli Lilly, caused a particularly serious problem on Thursday, when he tweeted: “We are pleased to announce that insulin is now available for free.”

The tweet went viral and stayed on social media for at least two hours before being deleted. The real Eli Lilly account later tweeted, “We apologize to those who received a misleading message from a fake Lilly account.”

Eli Lilly’s stock price plummeted after the fake tweet was posted, as did shares in other pharmaceutical companies, including AbbVie, which was also given away. Major stock indices were broadly positive on Thursday, with the S&P 500 posting its biggest rally in two years.

Internal messages obtained by CNBC show that Twitter support initially determined that a tweet impersonating Eli Lilly did not violate the company’s terms of service. The seller said they encourage customers to tweet directly to Elon Musk about their concerns.

Twitter has also reintroduced a new “Official” badge for some accounts. The company confirmed the news on one of its Twitter accounts.

The Twitter Blue Verified recall also comes as the company’s new management is considering how to comply with FTC oversight, according to company-wide emails sent to employees Thursday night and obtained by CNBC.

Twitter is currently under an FTC consent decree that requires, among other things, to notify the agency of new products with a written plan.

Some employees expressed doubts about Musk’s willingness to comply with FTC supervision. Earlier in the week, internal communications on a company message board, seen by NBC news, showed that employees were concerned that Twitter’s new leaders would ask them to do work that might involve a violation. of the consent decree, or any other. laws and regulations.

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DUBAI INVESTMENTS REPORTS A 227% SURGE IN NET PROFIT

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DUBAI INVESTMENTS REPORTS A 227% SURGE IN NET PROFIT

Dubai Investments, a leading diversified investment firm listed on the Dubai Financial Market, reported net income of AED 1,489 million for the period ended September 30, 2022, up 227% from AED 456 million for the nine-month period . . last year.

Profits of AED 1,033 million were higher year on year, mainly due to gains from the sale of a 50% majority stake and an increase in the fair value of the remaining AED 980 investment in Emirates District Cooling (Emicool) LLC. Millions The Group’s production, works and services segment also showed good results. Total Group revenue increased to AED 3.3 billion compared to AED 2.6 billion for the nine months ended September 30, 2022, compared to the same period last year.

Khalid Bin Kalban, Vice President and CEO of Dubai Investments, said: “The group has maintained momentum this year and delivered strong results, reflecting the resilience of the business model.

This quarter’s exceptional results are the result of a significant value discovery through an organized sale process that demonstrates Dubai Investments’ value creation strategy. In line with the Group’s strategy of offering greater returns to shareholders, an interim dividend of 7.5% was approved for the quarter. The Group is focused on taking the appropriate steps related to strategic investments and will complete its planned exit from mature assets in the coming years.”

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Project aims to boost ag tech through improved field connectivity

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Project aims to boost ag tech through improved field connectivity

Many farmers and agricultural experts see digital farming tech AS improved field connectivity. Managing farms using sensors, drones and robots, artificial intelligence, advanced data analytics and more will be key to efficiently feeding the world’s increasing population, expected to reach 10 billion by 2050.

But maximizing agricultural technology’s potential hinges on a tool that most fields lack: high-speed internet connectivity.

An interdisciplinary Nebraska research team, led by computer engineer Mehmet Can Vuran, is trying to change that fact. The team includes Shuai Nie, Qiang Liu, Christos Argyropoulos, Yufeng Ge and Santosh Pitla. With a three-year, $1 million grant from the National Science Foundation, the team is designing a next-generation wireless network for agricultural fields that would catalyze an array of digital farming technologies and buoy the businesses of countless farmers. Currently, at least two-thirds of farmers say they lack sufficient internet connectivity to run their operations, and 25% of U.S. farms do not have internet at all.

“We have started to redesign the wireless network according to the constraints and requirements of agricultural fields,” said Vuran, Jensen Chair and professor of computing. “Right now, the best farmers and researchers can do is grab wireless technologies from whatever is available in nearby urban environments. They try to use Wi-Fi or existing cellular connections, which were not designed for the field. This is like trying to fit a square peg into a round hole.”

It’s a mismatch because the two environments are vastly different. Urban connectivity leverages the vertical infrastructure inherent to cities: tall buildings, streetlights and traffic lights house the necessary equipment. Agricultural fields lack this robust vertical infrastructure, making it much more difficult to build a network.

Additionally, agricultural fields are subjected to harsh environmental and weather conditions that can interrupt wireless connections. The type of crop, its stage of growth and even a plant’s moisture content can also affect signals. Vuran’s group is devising a wireless architecture called Field-Nets to address these challenges.

A cornerstone of their approach is deployment of millimeter wave technology on farms. This technology, increasingly used to support 5G connections in urban areas, sends signals on a bandwidth of the radio-frequency spectrum that is not overcrowded. Plentiful bandwidth means signal transmission is fast, at gigabits per second, with minimal disruption.

Last summer, Vuran’s group conducted some of the first-ever experiments of millimeter wave technology in agricultural fields. These studies showed how easily corn and soybean growth can impact these delicate, high-frequency signals, whose wavelength size is just millimeters long. The resulting datasets are publicly available to help other researchers and practitioners. With the NSF funding, Vuran’s team will develop the computer processing abilities and complex algorithms necessary to support robust and reliable connections.

Another key strategy of Field-Nets is edge computing: a type of networking architecture that shifts computation and data storage closer to the data sources. Because rural environments lack what’s called backhaul — the high-speed connections between a remote site and the core network — cloud computing is a challenge. This is problematic because in the future, precision farming devices are likely to generate as much data as a typical city environment.

Vuran’s solution is to push processing to the “edge” of the network, which in this case means moving it to the farm. When a farm’s robots, sensors and other devices produce data streams, they will be processed and stored on-site, protecting farmers’ data privacy.

The team is also ensuring the Field-Nets infrastructure only uses the spectrum when and where it’s needed. Although there is currently abundant spectrum available in rural areas, this will change as digital farming gains momentum. A crowded spectrum could thwart rural residents’ ability to use the internet – creating a digital divide between farms and the towns next door.

“We are designing with the understanding of this potential divide from the beginning. We need to adopt advanced spectrum sharing solutions from scratch,” Vuran said. “We don’t want to have to go back and redesign spectrum sharing solutions later, which has been done in some urban environments. We’re learning from that history.”

The project advances Vuran’s longer-term research mission, which is to bridge the original digital divide: the gap between urban and rural areas. Of the 24 million Americans who lack high-speed internet, 80% live in rural areas. As society increasingly relies on digital tools, the gap in internet access exacerbates gaps in prosperity, education, health care and more.

The work represents an increasingly important merger between computing and agriculture. To maintain its position at the forefront of ag innovation, Husker researchers are prioritizing enhanced partnerships between these two disciplines.

“Computer scientists and agricultural engineers will have to work together more and more, and this is one of the first funded projects representing this joining of hands,” said Pitla, associate professor of biological systems engineering.

Pitla, an expert in agricultural robotics, has been developing small autonomous robots that plant seeds and apply fertilizers since he joined the university in 2014. Although the technology can work without connectivity, a reliable wireless infrastructure would unleash the robots’ full potential: They could communicate with each other or summon a drone for a supply refill.

“Connectivity solutions could really amplify what we do and catalyze and facilitate a lot of things, especially with logistics and operational efficiency,” he said.

The research group will test the Field-Nets infrastructure using Pitla’s technology.

The project includes partnerships with members of Nebraska’s agricultural community, farmers and industry members, and will enable Husker students to train in a highly interdisciplinary environment.

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