Today, Royal Challengers Bangalore (RCB) take on Kolkata Knight Riders (KKR) in game six of the IPL 2022. The game starts at 7:30 p.m. IST at the Dr. DY Patil Sports Academy, Mumbai. The RCB team is managed by Faf du Plessis while the KKR team is managed by Shreyas Iyer. Also Read – IPL 2022: Twitter Tests an India-Only Cricket Tab for Android Users How to watch Tata IPL 2022 live in India To watch the live streams of upcoming IPL games in India, viewers can tune into Star Sports or Disney+ Hotstar. Also Read – IPL 2022 Sunrisers Hyderabad Vs Rajasthan Royals Match Today: When Where To Watch It’s GAME DAY, 12th Man Army! 🥳 Also Read – IPL 2022: Game between Gujarat Titans and Lucknow Super Giants starts today at 19:30 IST Time to start the AAAARRCCCBBB chants! 😎💪🏻#PlayBold #WeAreChallengers #IPL2022 #mission2022 #RCB #ನಮ್ಮRCB #RCBvKKR pic.twitter.com/KEb8GEwWms — Royal Challengers Bangalore (@RCBTweets) March 30, 2022 If you want to get a subscription Disney+ Hotstar, you can pay Rs 499 per year and get a cellular plan. This allows you to use the app on a mobile device. There is an annual subscription from Rs 899 which supports 2 devices including TVs and laptops. Finally, you can also get the premium subscription for Rs 1,499 which supports 4 devices and 4K. Also, you don’t have to deal with advertising. IPL 2022: Royal Challengers Bangalore Team Faf du Plessis, Virat Kohli, Anuj Rawat, Dinesh Karthik, Sherfane Rutherford, Shahbaz Ahmed, Wanindu Hasaranga, David Willey, Harshal Patel, Akash Deep, Mohammed Siraj IPL 2022: Kolkata Knight Riders Team Venkatesh Iyer, Ajinkya Rahane, Shreyas Iyer, Nitish Rana, Sam Billings, Andre Russell, Sunil Narine, Sheldon Jackson, Umesh Yadav, Shivam Mavi, Varun Chakaravarthy The knights are ready for their next challenge! ⏭️ 📽️ Watch episode 2 of #KnightClub in front #RCBvKKR!@StarSportsIndia #KKRHaiTaiyaar #IPL2022 pic.twitter.com/5xtrwqiseQ — KolkataKnightRiders (@KKRiders) March 30, 2022 IPL 2022: scoreboard updated Here is the latest scoreboard for IPL 2022: Scoreboard IPL 2022 Image: IPL For the amateurs there are 10 IPL teams this year instead of 8. These teams include Lucknow Super Giants, Gujarat Titans, Chennai Super Kings, Delhi Capitals, Punjab Kings, Kolkata Knight Riders, Mumbai Indians, Rajasthan Royals, Royal Challengers Bangalore and Sunrisers Hyderabad
MIT Researchers Create a Tool for Predicting the Future
Researchers are designing an easy-to-use interface that will help laypersons make forecasts using data collected over time. Whether someone is trying to predict tomorrow’s weather, predict future stock prices, identify missed retail opportunities, or assess a patient’s disease risk, they likely need to interpret time series data, which is a collection of observations recorded over time . Making predictions from time-series data typically requires multiple data processing steps and the use of complex machine learning algorithms that have such a steep learning curve that they are not readily accessible to non-experts. To make these powerful tools easier to use,[{” attribute=””>MIT researchers developed a system that directly integrates prediction functionality on top of an existing time-series database. Their simplified interface, which they call tspDB (time series predict database), does all the complex modeling behind the scenes so a nonexpert can easily generate a prediction in only a few seconds. MIT researchers created a tool that enables people to make highly accurate predictions using multiple time-series data with just a few keystrokes. The powerful algorithm at the heart of their tool can transform multiple time series into a tensor, which is a multi-dimensional array of numbers (pictured). Credit: Figure courtesy of the researchers and edited by MIT News The new system is more accurate and more efficient than state-of-the-art deep learning methods when performing two tasks: predicting future values and filling in missing data points. One reason tspDB is so successful is that it incorporates a novel time-series-prediction algorithm, explains electrical engineering and computer science (EECS) graduate student Abdullah Alomar, an author of a recent research paper in which he and his co-authors describe the algorithm. This algorithm is especially effective at making predictions on multivariate time-series data, which are data that have more than one time-dependent variable. In a weather database, for instance, temperature, dew point, and cloud cover each depend on their past values. The algorithm also estimates the volatility of a multivariate time series to provide the user with a confidence level for its predictions. “Even as the time-series data becomes more and more complex, this algorithm can effectively capture any time-series structure out there. It feels like we have found the right lens to look at the model complexity of time-series data,” says senior author Devavrat Shah, the Andrew and Erna Viterbi Professor in EECS and a member of the Institute for Data, Systems, and Society and of the Laboratory for Information and Decision Systems. Joining Alomar and Shah on the paper is lead author Anish Agrawal, a former EECS graduate student who is currently a postdoc at the Simons Institute at the University of California at Berkeley. The research will be presented at the ACM SIGMETRICS conference. Adapting a new algorithm Shah and his collaborators have been working on the problem of interpreting time-series data for years, adapting different algorithms and integrating them into tspDB as they built the interface. About four years ago, they learned about a particularly powerful classical algorithm, called singular spectrum analysis (SSA), that imputes and forecasts single time series. Imputation is the process of replacing missing values or correcting past values. While this algorithm required manual parameter selection, the researchers suspected it could enable their interface to make effective predictions using time series data. In earlier work, they removed this need to manually intervene for algorithmic implementation. The algorithm for single time series transformed it into a matrix and utilized matrix estimation procedures. The key intellectual challenge was how to adapt it to utilize multiple time series. After a few years of struggle, they realized the answer was something very simple: “Stack” the matrices for each individual time series, treat it as a one big matrix, and then apply the single time-series algorithm on it. This utilizes information across multiple time series naturally — both across the time series and across time, which they describe in their new paper. This recent publication also discusses interesting alternatives, where instead of transforming the multivariate time series into a big matrix, it is viewed as a three-dimensional tensor. A tensor is a multi-dimensional array, or grid, of numbers. This established a promising connection between the classical field of time series analysis and the growing field of tensor estimation, Alomar says. “The variant of mSSA that we introduced actually captures all of that beautifully. So, not only does it provide the most likely estimation, but a time-varying confidence interval, as well,” Shah says. The simpler, the better They tested the adapted mSSA against other state-of-the-art algorithms, including deep-learning methods, on real-world time-series datasets with inputs drawn from the electricity grid, traffic patterns, and financial markets. Their algorithm outperformed all the others on imputation and it outperformed all but one of the other algorithms when it came to forecasting future values. The researchers also demonstrated that their tweaked version of mSSA can be applied to any kind of time-series data. “One reason I think this works so well is that the model captures a lot of time series dynamics, but at the end of the day, it is still a simple model. When you are working with something simple like this, instead of a neural network that can easily overfit the data, you can actually perform better,” Alomar says. The impressive performance of mSSA is what makes tspDB so effective, Shah explains. Now, their goal is to make this algorithm accessible to everyone. One a user installs tspDB on top of an existing database, they can run a prediction query with just a few keystrokes in about 0.9 milliseconds, as compared to 0.5 milliseconds for a standard search query. The confidence intervals are also designed to help nonexperts to make a more informed decision by incorporating the degree of uncertainty of the predictions into their decision making. For instance, the system could enable a nonexpert to predict future stock prices with high accuracy in just a few minutes, even if the time-series dataset contains missing values. Now that the researchers have shown why mSSA works so
How to activate two step verification for Google account: Follow these simple steps
Nowadays, email is not only used to send or receive mail, but users also store their sensitive data here. When it comes to sensitive data, its security is also essential, as getting it into the wrong hands can cause significant damage. If you use Gmail as your personal email service, you can use 2SV (Two-Step Verification) for its security. It provides an extra layer of security for your account. Also read – How to save a Google Doc as a PDF and share it on mobile and desktop Two-step verification is provided in Google account security features, adding an extra layer to the account. A username and password are required to access a Google account. However, along with the password, an OTP password is also required if two-step verification is enabled, which arrives on your registered mobile number. This feature backs up all Google connected apps like Google+, Gmail, Hangouts, etc. Also read – HP Omen 16 review: Is the price justified? Image: Pexels To do this, you must first open your Google account. Then click on your photo in the upper right corner. Here you need to select the option to manage your Google account. Now you need to select Security from the navigation panel. On the new page, select 2-step verification for the Sign in to Google option. Now you need to enter your account password. Here you also get many other login options like prompts, security keys, text messages, voice calls and you can choose any of them. After this process, enter your cell phone number. After some time, an OTP will appear on your phone that you need to fill in the field and click on the Turn on option. After this process you will be redirected to a new page where you can also set backup codes, authenticator app and security key (additional backup steps). You can easily turn on 2-Step Verification in your Google Account by following these steps. This will secure your Google account. Also Read – Microsoft Makes It Easy to Switch Default Browser in Windows 11: Here’s How
How to save a Google Doc as PDF file and share it on mobile, desktop
Google Docs can come in handy for creating documents on the go. However, PDFs are a better way to distribute documents because they don’t allow others to make changes, but are delivered as requested. Also read – Dell XPS 15 and XPS 17 laptops refreshed with 12th Gen Intel Core processors: Here’s a look at what’s new Also, PDF looks more polished and the format uses internal compression, which makes it take up less disk space than other file types. Ideally, users create documents using another app and then convert them to PDF. Luckily, Google Docs offers a complete package where you can use one doc to write your journal, fill in details and export it as a PDF. If you haven’t tried it yet, follow this guide. Also Read – How to Download and Use Google Maps Without Internet How to export a PDF file to Google Docs desk Also read – Google could ban the sale of all Android devices in Russia: what we know – Open Google Drive on desktop or just type drive.google.com – After opening Google Docs, find your document and double click to open it – Then find File in the Taskbar tool and tap on it -Go to Download and hover over it -In the menu you will see a PDF document, click on it -The file will then be downloaded and displayed at the bottom of the screen Android, iOS – Open Drive on your device – Find and tap the document to export – Then tap on the three-dot menu in the top-right corner – Search for Share & export and tap on it – Then click Save As and select PDF document, tap Ok – The document will open externally and you need to download it by tapping the icon at the top -Your PDF file will then be saved to your device
How to switch default browser in Windows 11
Microsoft has released an update for its Windows 11 desktop operating system. This update makes it easier for users to change the default web browser on PCs running Windows 11. The company started testing settings for changing browser settings in Windows 11 back in December last year. Now, with the release of Windows 11 OS Build 22000.593, the company has introduced changes that make it easier to switch the default browser. Also read – Microsoft wants to train Indians in cyber security: Here’s how When Microsoft introduced the Windows 11 operating system last year, it was missing the button to switch the default browser that was available in Windows 11. Instead, the company forced Windows 11 users to change individual file types or protocol handlers for HTTP, HTTPS, .HTML, and .HTM. This means that Windows 11 users had to manually change the default browser settings in each of these file extensions. Otherwise, Microsoft Edge – the default browser in Windows 11 – would open randomly. Alternatively, Windows 11 users had to check a box with the message “Always use this app” that only appeared when users clicked a link outside of a browser to select the default app for opening certain types of links. Also Read – Sony’s Xbox Game Pass Competitor Could Launch Next Week: Here’s What We Know About It The old method was cumbersome and was heavily criticized by other companies. “This from the company that claims to be the most open, with ‘the widest choice’. I hope this is just a preview for developers and the shipping version of Windows 11 lives up to their claims. This is far from an “election,” Hiroshi Lockheimer, Google’s head of Android, Chrome and Chrome OS, wrote in a post on Twitter. Also read – Dell XPS 15 and XPS 17 laptops refreshed with 12th Gen Intel Core processors: Here’s a look at what’s new Microsoft justified these changes at the time by saying that they would give users more control over the preferences. The company had also said it would learn from user experience to make improvements to its operating system. Microsoft has lived up to its promise and made the changes that many Windows users have been asking for with its latest update. So here is a step-by-step guide to help users to change the default web browser on their Windows 11 PCs. How to change the default browser on Windows 11 Step 1: Open the Settings app on your Windows 11 PC. Step 2: Now go to Apps and go to Default Apps. Step 3: In the search bar, type the name of the browser you want to use and click on it. Step 4: Now you will see a button named “Set as Default” at the top. click it
Braves Notes: Rotation, Jackson, Freeman
During last year’s World Sequence run, the Braves discovered they mixed and matched towards the back of the rotation Max Fried, Charlie Morton and Ian Anderson. Atlanta hasn’t done much to solidify that group this winter, once again relying on a handful of less proven weapons in the second Finals. Supervisor Brian Snitker instructed reporters (along with Justin Toscano of the Atlanta Journal-Constitution) over the weekend that righties Kyle Wright and Huascar Ynoa seem to be the favorites for places four and five. Ynoa always seemed to have a leg up, having posted a 4.05 ERA / 3.62 SIERA in 18 games last season. However, Wright only made two joint season starts at the majors. The 26-year-old had a fine show at Triple-A Gwinnett, where he practiced 137 frames from three.02 ERA balls. Wright, a former High-5 player and well-regarded contender, still had plenty of MLB success, but his minor-league career and the level of his arsenal still give Atlanta Brass reason to consider him as a long-term option . The Braves are scheduled to play daily from their opening game on April 7 through April 20. With this heavy workload early in the year, Toscano writes that membership could potentially draw on a six-man rookie early on. If that’s true, rookie Spencer Strider – who climbed 4 minor league ranges last season to find success in the majors in September – could take the ultimate spot, writes Toscano, left-handed Tucker Davidson and Kyle Mueller additionally in this mixture. All of these pitchers outside of the Braves top-three starters have years left in the minor leagues, so anyone from that group could potentially be sent to Gwinnett throughout the season. You can also go straight into a multi-inning feature from the bullpen. Atlanta has one of the league’s strongest assists on paper, but one key member has yet to field this spring. Luke Jackson has coped with some tightness in her forearm, the group instructed reporters (along with Athletic’s David O’Brien). The 30-year-old has thrown to the side so the Braves are obviously not involved as he struggles with a major absence, but it’s not yet known if he will have time to get back into shape before next season come week. Jackson has been in the Atlanta bullpen for the last 5 years but had a very successful exhibition in 2021, pitching a 1.98 ERA / 3.75 SIERA in 63 2/3 frames. While the Braves rotation has looked pretty much the same since last season, their relocation participation was one of the many stories of the offseason. Acquired Atlanta Matt Olson and let Freddie Freeman walk in free company. Editor-in-chief Alex Anthopoulos and the editorial board were no doubt aware that the call could be divisive among the many fans, and Freeman himself said shortly after being shocked by the Olson trade. At his introductory press conference with the Dodgers, Freeman urged that Brave’s brass wasn’t as communicative as he expected them to be throughout his time on the open market. He also seemed to dismiss Anthopoulos’ claim that the Olson trade was essentially the most difficult transfer of his government job. Speaking to Journal-Constitution’s Gabriel Burns over the weekend, Freeman addressed that feedback and struck a lighter note. The five-time All-Star mentioned that he spoke to the Braves’ baseball ops chief last week and apologized for the feedback he gave to his introductory press. “It helped to listen to his facet of problems‘ Freeman instructed Burns. “I didn’t reveal what we talked about. However, you will be able to think about what we talked about in three hours. It was good for us to be good again. Now that we’ve seen each other, we’re just going to hug. I asked him to come back to LA (for the April sequence). I don’t suppose he would return to the LA sequence once they were out here. I said, “Please, I want to see you and hug you because we’ve done so many good things together.”” Regardless of whether the fences are fixed or not, the Braves and Dodgers will have plenty of memorable clashes in the seasons to come. The pair met in last year’s NL Championship sequence and once again they appear to be two of the tallest groups in the senior circuit. FanGraphs forecasts are certainly forecasting Los Angeles and Atlanta as the NL two golf kits head into the year.
GPay launches new ‘Tap to Pay’ UPI payment method: How to use it
GPay has introduced a new feature that aims to speed up UPI transactions with smartphones. The company has partnered with Pine Labs to introduce a new “Tap to Pay” feature for UPI. This new UPI feature aims to reduce the overall number of steps required to make an instant digital payment with UPI. Tap-to-pay functionality is available for credit and debit cards. Even some phones with NFC had the ability to mimic the debit or credit card to make a touch-based transaction. Also read – Apple and Google close loophole that allowed Russians to use payment services Availability The functionality will be available to any UPI user who wants to use their NFC-enabled Android smartphone to conduct transactions through any Pine Labs Android POS terminal nationwide. The update for the feature may reach your device at a later date. Also read – India made over 7,422 million digital transactions in FY22 alone Google tested this feature with Reliance Retail and is now rolling it out to other major retailers like Future Retail and Starbucks. Also Read – How to Cancel Your Netflix Subscription How does the new GPay Tap to Pay work? -Once the user needs to make a payment, all they have to do is tap their phone on the POS terminal, which should include the feature. -The user must then authenticate the payment from their phone using their UPI PIN -Once the user enters the UPI PIN, the transaction goes through smoothly. However, an internet connection is required, as is the case with the QR scanning method. How does this new feature affect your payment process? The new payment method eliminates two of the most time-consuming steps in completing a UPI transaction. You don’t need to open the camera in the app and then scan it either. The process will be much faster automatically. Commenting on the development, Sajith Sivanandan, Business Head – Google Pay and Next Billion User Initiatives, Google APAC said: “Fintech growth in India is writing the script for the world, first with enabling real-time payments with UPI and then continuing to innovate Flows that reduce transaction time to virtually zero. Tap-to-Pay for UPI is having a profound impact on busy retail stores as it seeks to greatly reduce queue management overhead and takes digital payments at the POS well beyond cards. We are very excited to bring this first-ever innovation to India in collaboration with Pine Labs.’ “At 8.26 lakhcrore INR[1] Transactions worth just a month December 2021 UPI has seen a big boost in India. Today we’re excited to partner with Google Pay, enabling tap-to-pay for UPI transactions on Pine Labs Android POS terminals. We believe this will further boost UPI acceptance in India and will appeal to consumers, particularly the young population who have developed a preference for contactless and digital payments,” said Kush Mehra, Chief Business Officer, Pine Labs. Nalin Bansal, Chief of Corporate and Fintech Relationships and Key Initiatives, NPCI, said: “We are excited to see the popular tap-and-pay technology being developed for UPI. With the growing adoption of UPI, this unique feature with Google Pay and Pine Labs will improve the customer experience and pave the way for a smarter and faster payment experience. Interoperability has always been a compelling argument for UPI, and this will be a step forward in transforming the way digital transactions are conducted in real-time, particularly at retailers.”
How the MIT Mini Cheetah Robot Learns To Run Entirely by Trial and Error
MIT’s mini-cheetah, which uses a model-free reinforcement learning system, broke the record for fastest recorded run. Photo Credit: Photo courtesy of MIT CSAIL. CSAIL scientists developed a learning pipeline for the four-legged robot, which learns to walk entirely through trial and error in simulation. It’s been around 23 years since one of the first robotic animals emerged and defied traditional notions of our cuddly four-legged friends. Since then, a barrage of walking, dancing, and door-opening machines has commanded their presence, an elegant blend of batteries, sensors, metal, and motors. Missing from the list of cardio activities was one that humans both loved and loathed (depending on who you ask) and that proved a little harder for the bots: learning to walk. researchers out[{” attribute=””>MIT’s Improbable AI Lab, part of the Computer Science and Artificial Intelligence Laboratory (CSAIL) and directed by MIT Assistant Professor Pulkit Agrawal, as well as the Institute of AI and Fundamental Interactions (IAIFI) have been working on fast-paced strides for a robotic mini cheetah — and their model-free reinforcement learning system broke the record for the fastest run recorded. Here, MIT PhD student Gabriel Margolis and IAIFI postdoc Ge Yang discuss just how fast the cheetah can run. Q: We’ve seen videos of robots running before. Why is running harder than walking? A: Achieving fast running requires pushing the hardware to its limits, for example by operating near the maximum torque output of motors. In such conditions, the robot dynamics are hard to analytically model. The robot needs to respond quickly to changes in the environment, such as the moment it encounters ice while running on grass. If the robot is walking, it is moving slowly and the presence of snow is not typically an issue. Imagine if you were walking slowly, but carefully: you can traverse almost any terrain. Today’s robots face an analogous problem. The problem is that moving on all terrains as if you were walking on ice is very inefficient, but is common among today’s robots. Humans run fast on grass and slow down on ice — we adapt. Giving robots a similar capability to adapt requires quick identification of terrain changes and quickly adapting to prevent the robot from falling over. In summary, because it’s impractical to build analytical (human-designed) models of all possible terrains in advance, and the robot’s dynamics become more complex at high-velocities, high-speed running is more challenging than walking. The MIT Mini Cheetah learns to run faster than ever using a learning pipeline that is entirely trial and error in the simulation. Q: Previous agile locomotion controllers for the MIT Cheetah 3 and Mini Cheetah, as well as for Boston Dynamics robots, are “analytically designed” and rely on human engineers to analyze the physics of locomotion, formulate efficient abstractions, and implement a specialized hierarchy of controllers to balance and run the robot. They use an “experiential learning model” to execute rather than program it. Why? A: It’s just very difficult to program how a robot should behave in every possible situation. The process is tedious because if a robot were to fail on a certain terrain, a human engineer would have to identify the cause of the failure and manually adjust the robot controls, and this process can take a lot of human time. Learning through trial and error eliminates the need for a human to dictate exactly how the robot should behave in each situation. This would work if: (1) the robot can experience an extremely wide range of terrain; and (2) the robot can automatically improve its behavior with experience. Thanks to modern simulation tools, our robot can gain 100 days of experience on different terrains in just three hours of actual time. We have developed an approach that improves the behavior of the robot through simulated experience, and crucially, our approach also enables the successful use of these learned behaviors in the real world. The intuition behind why the robot’s walking skills work well in the real world is: Of all the environments he sees in this simulator, some will teach the robot skills that are useful in the real world. When operating in the real world, our controller identifies and executes the relevant capabilities in real-time. Q: Can this approach be scaled beyond the mini cheetah? What excites you about its future applications? A: At the heart of artificial intelligence research is the trade-off between what humans have to build in (nature) and what the machine can learn on its own (care). The traditional paradigm in robotics is that humans tell the robot what task to do and how to do it. The problem is that such a framework is not scalable as it would require immense human engineering effort to manually program a robot with the abilities to work in many different environments. A more practical way to build a robot with many different abilities is to tell the robot what to do and let it figure out how. Our system is an example of this. In our lab, we’ve started applying this paradigm to other robotic systems, including hands that can pick up and manipulate many different objects. This work was supported by the DARPA Machine Common Sense Program, the MIT Biomimetic Robotics Lab, NAVER LABS and in part the National Science Foundation AI Institute for Artificial Intelligence Fundamental Interactions, United States Air Force-MIT AI Accelerator and MIT-IBM Watson AI Lab. The research was conducted by the Improbable AI Lab.
How to watch Sunrisers Hyderabad Vs Rajasthan Royals match today
In the sixth game of the IPL 2022, Sunrisers Hyderabad and Rajasthan Royals will face off to fight for the IPL trophy. The match starts today at 7.30pm IST at the Maharashtra Cricket Association Stadium, Pune. For the inexperienced, New Zealand captain Kane Williamson will lead the Hyderabad team and the Rajasthan team will be led by Sanju Samsun. Also Read – IPL 2022: Game between Gujarat Titans and Lucknow Super Giants starts today at 19:30 IST IPL 2022 Sunrisers Hyderabad Vs Rajasthan Royals: How To Watch Live To watch the live stream of upcoming IPL games in India, viewers can tune in to Star Sports or Disney+ Hotstar. Also Read – Jio Cricket Plans Bundled With Disney+ Hotstar Ahead of IPL 2022 If you want to get a subscription to Disney + Hotstar, you can pay 499 rupees per year and get a cellular plan. This allows you to use the app on a mobile device. There is an annual subscription from Rs 899 which supports 2 devices including TVs and laptops. Finally, you can also get the premium subscription for Rs 1,499 which supports 4 devices and 4K. Also, you don’t have to deal with advertising. Also read – IPL 2022 starts tomorrow: How to watch it live in India Before the Royal Rumble. 🤝 🇱🇰🇦🇺🇳🇿🇬🇾🇮🇳🔥#SRHvRR #OrangeArmy #ReadyToRise #TAAIPL pic.twitter.com/7n69npOyN7 — SunRisers Hyderabad (@SunRisers) March 29, 2022 Reliance Jio rolled out a few plans for IPL fans. Starting with the Rs 499 plan. offers its users 2 GB of high-speed data a day and a free Disney+ Hotstar Mobile subscription valid for 28 days. Under the Rs 799 plan, Customers get 2GB of daily data allowance with a Disney+ Hotstar Mobile subscription. The plan is valid for 56 days. Who returns tonight with the best numbers? predictions. Do it right. Victory. 👇#RoyalsFamily | #HelloBol | #TAAIPL2022 | #SRHvRR | #Grow together pic.twitter.com/bYDTOS58XT – Rajasthan Royals (@rajasthanroyals) March 29, 2022 the Rs 1,066 plan is valid for 84 days and comes with 2GB of daily data and a Disney + Hotstar Mobile subscription. the Rs 3,119 plan is a long-term plan that is valid for 365 days and offers customers 2 GB of data volume per day. The plan bundles a free Disney+ Hotstar Mobile subscription for the duration.
Tiny Wireless Sensors Float in the Wind Like Dandelion Seeds
Inspired by how dandelions use wind to disperse their seeds, a team from the University of Washington has created a tiny sensor-carrying device that can be blown away by the wind if it falls to the ground. This battery-free device uses solar panels (black rectangles shown here) to power its onboard electronics. Credit: Mark Stone/University of Washington Wireless sensors can monitor how temperature, humidity or other environmental conditions are changing in large swathes of land, such as farms or forests. These tools could provide unique insights for a variety of applications, including digital farming and climate change monitoring. One problem, however, is that physically placing hundreds of sensors over a large area is currently time-consuming and expensive. Inspired by how dandelions use the wind to disperse their seeds, a[{” attribute=””>University of Washington team has developed a tiny sensor-carrying device that can be blown by the wind as it tumbles toward the ground. This system is about 30 times as heavy as a 1 milligram dandelion seed but can still travel up to 100 meters in a moderate breeze, about the length of a football field, from where it was released by a drone. Once on the ground, the device, which can hold at least four sensors, uses solar panels to power its onboard electronics and can share sensor data up to 60 meters away. The team published these results recently in the journal Nature. Inspired by how dandelions use the wind to distribute their seeds, a University of Washington team has developed a tiny sensor-carrying device that can be blown by the wind as it tumbles toward the ground. The device’s onboard electronics include sensors, a capacitor to store charge overnight and a microcontroller to run the system, all contained in a flexible circuit, shown here. Credit: Mark Stone/University of Washington “We show that you can use off-the-shelf components to create tiny things. Our prototype suggests that you could use a drone to release thousands of these devices in a single drop. They’ll all be carried by the wind a little differently, and basically you can create a 1,000-device network with this one drop,” said senior author Shyam Gollakota, a UW professor in the Paul G. Allen School of Computer Science & Engineering. “This is amazing and transformational for the field of deploying sensors, because right now it could take months to manually deploy this many sensors.” Because the devices have electronics on board, it’s challenging to make the whole system as light as an actual dandelion seed. The first step was to develop a shape that would allow the system to take its time falling to the ground so that it could be tossed around by a breeze. The researchers tested 75 designs to determine what would lead to the smallest “terminal velocity,” or the maximum speed a device would have as it fell through the air. “The way dandelion seed structures work is that they have a central point and these little bristles sticking out to slow down their fall. We took a 2D projection of that to create the base design for our structures,” said lead author Vikram Iyer, a UW assistant professor in the Allen School. “As we added weight, our bristles started to bend inwards. We added a ring structure to make it more stiff and take up more area to help slow it down.” Inspired by how dandelions use the wind to distribute their seeds, a University of Washington team has developed a tiny, battery-free sensor-carrying device that can be blown by the wind as it tumbles toward the ground. The first step was to develop a shape that would allow the system to take its time falling to the ground so that it could be tossed around by a breeze. The researchers tested 75 designs (some of which are shown here in yellow) to determine what would lead to the smallest “terminal velocity,” or the maximum speed a device would have as it fell through the air. Credit: Mark Stone/University of Washington To keep things light, the team used solar panels instead of a heavy battery to power the electronics. The devices landed with the solar panels facing upright 95% of the time. Their shape and structure allow them to flip over and fall in a consistently upright orientation similar to a dandelion seed. Without a battery, however, the system can’t store a charge, which means that after the sun goes down, the sensors stop working. And then when the sun comes up the next morning, the system needs a bit of energy to get started. “The challenge is that most chips will draw slightly more power for a short time when you first turn them on,” Iyer said. “They’ll check to make sure everything is working properly before they start executing the code that you wrote. This happens when you turn on your phone or your laptop, too, but of course they have a battery.” The team designed the electronics to include a capacitor, a device that can store some charge overnight. “Then we’ve got this little circuit that will measure how much energy we’ve stored up and, once the sun is up and there is more energy coming in, it will trigger the rest of the system to turn on because it senses that it’s above some threshold,” Iyer said. These devices use backscatter, a method that involves sending information by reflecting transmitted signals, to wirelessly send sensor data back to the researchers. Devices carrying sensors — measuring temperature, humidity, pressure and light — sent data until sunset when they turned off. Data collection resumed when the devices turned themselves back on the next morning. To measure how far the devices would travel in the wind, the researchers dropped them from different heights, either by hand or by drone on campus. One trick to spread out the devices from a single drop point, the researchers said, is to vary their shapes slightly so they are carried by the breeze differently.
