by Anika D | Mar 24, 2022 | Data Science, Emerging Technology
The main role of data scientists is to identify issues and use the employee’s data for creating better solutions. Also, they are responsible for constructing algorithms, designing experiments, and extracting and managing data to support coworkers and customers. However, if you want to become a data scientist, you need to possess additional skills apart from basic educational qualifications. These skills help you to do your job efficiently. Some of them are listed below:
Programming Knowledge
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Programming provides you with a medium to communicate with different machines. Though you don’t need to become an expert in programming, you should have basic knowledge. First, pick the programming language as per your interest and caliber—for instance, R, Python, and Julia. “Python,” a general-purpose programming language, has several data science libraries with rapid prototyping. In contrast, you can use the R language to analyze and visualize statistics. Julia provides the best in both languages and is much faster.
Knowledge of Analytical Tools
A data scientist should properly understand some analytical tools like SAS, Spark, Hadoop, Hive, R, and Pig. These tools help you to extract valuable information from the data set. In addition, you can establish your expertise in such analytical tools by doing certifications.
Effective Communication
Companies that hire data scientists look for people who can clearly translate the technical conclusions to all team members. In addition, they should effectively communicate with people from different backgrounds. It helps them to strengthen their relationship and improve productivity.
Problem Solving by Critical Thinking
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Data scientists will often have to determine insights into different problems independently. So, problem-solving with critical thinking is the basic key. In addition, it is essential to remember that the right questions can significantly impact the firm’s bottom line. Therefore, all analyses you do are not worth your time. You need to have critical thinking skills to tell the main differences.
Intellectual Curiosity
Data scientists should have a deep curiosity to solve all problems and find solutions. So, they should understand what data represents and how to use the information on a broader scale. There is always something to learn and improve on. Therefore, update your knowledge regularly by reading good books, data science trends, and online content. It can keep you updated and ensure the usage of the right role practices.
Business Strategy for Data Scientists
Data scientists should be able to make a proper business strategy by properly understanding the business and conducting problems analyses. In addition, it enables them to construct their infrastructure by data dicing and slicing with the latest technology to improve the scientific instruments and work.
SQL Knowledge
Regardless of whatever language you learn, you must know SQL. It is a specialized programming language used to request or filter the information from the database. Data scientists need to learn SQL because most companies store their crucial data in the SQL database.
Final Words
Every company has its data that needs proper analysis and monitoring. Therefore, data scientists are highly in demand. You must possess the skills mentioned above to flourish in this role. It will help you in your career elevation and work to the best of your potential.
by Anika D | Mar 18, 2022 | Emerging Technology
A working group formed to promote North America’s leadership in the 6G superpower network field has made a roadmap drafting six bold goals. They transform ambitions into a reality. The 6G development and deployment is a “trillion-dollar opportunity” for the mobile industry, whereas technical supremacy is increasingly a priority of governments worldwide.
Research attempts are in full swing in China, Europe, Japan, and North America to become leaders in 5G applications and services development. But also in technologies that compromise worldwide standards.
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6G Superpower Initiatives in North America
Wireless connectivity is becoming essential to business and society, so any interference with global standards is desirable as per geographical perspective. The next generation alliance is an attempt in the industry formed last year to bring more than 80 firms and industry 600 professionals. Moreover, the roadmap to 6G is the significant outcome of its activities.
The release drafts the steps stakeholders should take to offer the best opportunity to North America for technical leadership. It also provides a timeline encouraging joint research, marketing, and adoption techniques.
The 7s key precedences include promoting security, trust, and resilience, the enhanced experience in the digital world. Also, it prioritizes cost efficiency across the distributed cloud, mobile infrastructure, and communications systems.
This report makes sure that North America dynamically aligns the critical sectors to 6G success. Susan Miller is President of ATIS and CEO of the Industry association behind the Next G Alliance.
Apart from its technical additions, the roadmap represents how 6G can help industry and society across a vast range of sectors. It also shows how North America will become a focal point of economic growth driven by innovation in the wireless communications era.
It is too early to forecast the ultimate form of the 6G standards and the technologies it will add. But there are a few plausible speculations about its capabilities and the threat operators, makers, and scientists will face.
Advancement with 6G
Undoubtedly, 6G networks will bring immense advances in capacity, speed, and low latency while being smarter and more reliable. It will release superior mobile broadband and enable advanced services like Extended Reality (XR), digital twins, and more.
6 G’s expertise to balance current limitations will be halfway through these applications to balance current constraints. For instance, mobile devices have limited processing capacity and the integration of networks and intelligence. Once ambitious goals are met, 6G will provide 100 times the 5G capacity and can support 10 million devices in 1 square kilometer.
The signals will broaden 10,000 meters above the surface by providing “3D coverage” within the space, sky, and underwater. These capabilities will allow edge computing, intelligent positioning, sensing, and high-resolution imaging.
Final Words
Though 6 G is real, it is not yet a functioning technology. Instead, it is still in the early research phase. Wireless telecom companies are more focused on 5G to remarkably deal with 6G technology. However, early research has begun thanks to government funding.
by Anika D | Mar 15, 2022 | Emerging Technology
Marine biotechnology uses different cultivation techniques and genetic engineering to produce marine compounds with a minimum negative impact on the ecosystem. The rise of the circular economy determines global market growth. The wide application of marine ingredients in the agriculture, food, and cosmetic industries stimulates market growth.
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The global biopolymers and bioplastics market overlooks the latest advances made in marine biotechnology to make biodegradable polymers. For example, recent research reveals the potential to process prawns, shrimp, and crabs biowastes into naturally developing biopolymers chitosan and chitin.
The development of methods to make microbial energy conversion holds promise in using forest biomass inventory to generate electricity. Emerging technologies, including phenomics and bioprocessing, and sustainability benefits, play an essential role in pushing the total microalgae production in the nutraceutical industries. New findings and marine peptide development will accelerate the growth of peptide therapeutics in the future.
During the COVID-19 crisis, the Marine Biotechnology global market, estimated around US$3.7 Billion in 2020, expects to reach US$5 Billion by 2026. Active substances are forecast to record a 6.7% CAGR by the analysis period. Biotechnological techniques and tools play an essential role in isolating and cultivating bioactive compounds present in seaweed. Bioactive marine compounds formed till now include Lactones, Alkaloids, Hydroxybenzene, Peptides, Quinones, Aether, Strides, and Ketal.
Marine Biotechnology Market Review – By Source
Algae covers more than 20% of the marine biotechnology market in 2020. Algae are unexploited reservoirs found in oceans to play a major role in primary and secondary sources regarding food or bioactive compounds. Moreover, due to its adaptability, it offers various possibilities in unlike environments.
Biotechnology incorporates the characteristics to boost algae production and bioactive compounds. Marine algae bear nutraceuticals and therapeutic properties. Some marine microalgae cultivated like Dunaliella and Spirulina have omega-3 fatty acids, β-carotene, and antioxidants.
Market Review – By Application
Medicine captured the largest share of above 25% in the marine biotechnology market in 2020. Extracts from organisms get added to medicine in recent years. To make marine compounds copies in the laboratory, researchers have used biotechnology. So they do not need to harvest from marine life.
Some get commercialized, while others undergo pre-clinical or clinical testing. Certain medicines obtained from marine organisms include Vidrabine/Ara-A, Cephalosporin, Ziconotide, and Trabectedin.
Market Review – By End-Use Industry
Pharmaceutical and Medical held the biggest share in the marine biotechnology market in 2020. And it projects to grow at a CAGR of 9.1% during 2021-2026. Recently, the natural products chemistry extracted from marine organisms is subject to the much greater research effort. Medical biotechnology uses cell materials and living cells to produce diagnostic and pharmaceutical products that fix or forestall human ailments.
Marine Biotechnology Market Review – By Geography
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Europe captured the maximum share of 37% in the marine biotechnology field in 2020. The rise of the European marine biotechnology market is attributable to increasing research and development activities and natural product demand. Also, the healthcare industry growth and the marine products demand in cosmetics, agriculture, and the food industries are driving the market growth.
Conclusion
Marine resources represent interesting sources of active ingredients for different industries. In addition, these ingredients act as an unusual and creative approach to traditional medicinal and pharmaceutical issues.
by Anika D | Mar 9, 2022 | Blockchain, Emerging Technology
With the emergence of cryptocurrency, there are a lot of speculations in the industry. It causes significant price change and attracts various investors who want high returns. At last, regardless of price changes, there are several developments in the crypto world. All significant organizations are migrating to the crypto world, starting from traditional finance companies to the technology sector. So, cryptocurrency is not going anywhere in the coming future. Here are the top 5 crypto predictions for 2022:
Bitcoin will Outperform
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The price of Bitcoin has dropped to 41 % in the last few months. But such drops are nothing for BTC holders. With the news of Microstrategy buying the dip, Bitcoin seems to bounce higher in the coming year. Several experts have predicted that it can rise up to $100 K, mainly as government and financial institutions include it in their balance sheets. Therefore, bitcoin will likely outperform with an increase in the stock market in 2022.
Ethereum’s Predictions
Ethereum is the second-most-valuable cryptocurrency in the world. As per the current scenario, Ethereum’s blockchain can process 30 transactions per second at max. As a result, it improves the platform’s reliability and reduces transaction fees. Experts believe that it will do well in 2022 due to the surge in NFT sales volumes.
Shiba Inu Performance
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It is one of the high-performing cryptocurrencies. According to Coinmarketcap, its digital currency priced at $0.000000000078 at the start of 2021. Then, till November the same currency rises to $0.0000312. It means Shiba Inu generated profits of nearly 40 million% in less than 12 trading months. However, there is plenty of upside potential pending with this token.
Dogecoin Predictions
Once DOGE began as a joke. But now, it has become one of the most valuable cryptocurrencies in the world. It reached almost a high of $0.70 in 2021, and it shows no sign to stop. Moreover, with its current acceptance as a payment form by Tesla, many analysts believe it can eventually surpass $1. So, it will make its way to the recognizable territory.
Polygon (MATIC)
Polygon (MATIC) is a special coin created to scale Ethereum. Polygon’s ultimate goal is to ensure integration by joining all Ethereum-based decentralized apps. Network validators fully protect the transactions of MATIC. Thanks to its low threshold, potential investors may find it exciting as you need only two MATIC coins to start staking. To do it, connect your MetaMask wallet to the Polygon wallet. The predicted annual return relies on the number of coins you stake.
Closing Thoughts
Now you can guess what value cryptocurrency can have for all investors in the future. But the reality is it is still a speculative investment, without any history for predictions. So no matter what an expert says, no one can really know. Therefore, it is essential to invest only what you are ready to lose and make conventional investments for the long term. Make small crypto investments and never put them above other financial goals like paying off high-interest debt or saving for retirement.
by Anika D | Mar 7, 2022 | Blockchain, Cybersecurity, Emerging Technology, Industrial IoT
The worldwide military apparatus undergoes significant transformation to strengthen capabilities. Some of the latest technologies like Artificial Intelligence, Robotics, and the Internet of Things optimize military efficiency and defense operations. Nowadays, hybrid approaches replace traditional warfare. The latest technology trends are transforming battlefields in the aspects like lethality, connectivity, sustainability, and autonomy.
Connectivity solutions mark concerns like how to communicate or direct operations. In addition, advances in weapons and missiles improve lethality, making effective battlefield operations. In the case of autonomy, companies utilize AI and robotics to execute strategies without human interference. Finally, startups are increasing sustainability with technologies including electrification and additive manufacturing.
Some of the emerging technologies that advance the defense field are listed below:
Artificial Intelligence
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The usage of AI in the army boosts computational military reasoning for ISR (intelligence, surveillance, and reconnaissance) missions. It empowers autonomous weapon systems and enables equipment safety management resulting in minimum casualties. By controlling machine learning and digital twin technology, defense manufacturers check new military product iterations and allow predictive military assets maintenance.
Advanced Military Equipment
Defense is making more advanced and sophisticated defense equipment to counter increasing threats. Innovations starting from space militarization to directed energy weapons are underway. Moreover, the defense industry is placing its goal to achieve net-zero emissions.
For example, it invests in electrification methods by using electric propulsions in military aircraft and testing hydrogen fuels. In addition, many companies are advancing research in nanotechnology and biotechnology for creating equipment like self-healing armors, etc.
Internet of Things (IoT)
Applications of IoT in the army include connecting planes, ships, drones, soldiers, tanks, and operating bases in the cohesive network. It enhances perception, response time, and situational awareness. AI, 5G, and Edge computing support the smooth data flow across all military branches, strengthening the control and command structure.
Big Data Analytics
The warfare future depends on information and the ability to extract in-depth knowledge. Army with the capabilities to pull out the critical data quickly and accurately and then securely spread the information will have an advantage. Big data analytics decipher insights from the various sources to do that.
Cyber Wars
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Military systems are most vulnerable to cyber-attacks that potentially lead to classified military information loss and army systems damage. Over the last ten years, the severity and frequency of cyberattacks have increased.
As a result, related army equipment security for significant institutions and nuclear security are substantial areas to deal with. In addition, militaries are developing aggressive cyber warfare capabilities, from ransomware and malware to phishing attacks.
Blockchain
Blockchain offers information security while sharing relevant data with the concerned parties. Therefore, defense startups create blockchain-based solutions to save confidential military data and prevent cyber threats. Its other applications in the defense industry include procurement process streamlining, supply chain security, and device tracking.
Final Thoughts
Understanding that the war landscape changes exponentially with new technologies is essential. For example, intelligent systems, lethal autonomous weapons, and AI are significant drivers for offensive and defensive army capabilities. Therefore, companies make dual-use technologies and military modernization solutions for civilian and military benefits.
by Anika D | Mar 4, 2022 | Data Science, Emerging Technology, Industrial IoT, System Engineering
The physicists of the University of Western Australia collaborate with a team of international researchers. They together developed a new technology to improve the world’s one of the most sensitive instruments called “Gravitational Wave Detectors.” This new technology allows existing gravitational wave detectors worldwide to attain sensitivity. Previously, researchers thought they could only achieve it by constructing much bigger detectors.
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The ARC centers of excellence for Gravitational Wave Discovery and engineered quantum systems collaborated to publish the paper in Communications Physics. The California Institute of Technology in Pasadena and the Niels Bohr Institute in Copenhagen supported them in this study.
David Blair is a retired professor of UWA’s Department of Physics. He states that particles of sound vibration called phonons and photons of laser light merge with the help of technology. As a result, they create a new amplification type that consists of merged particles that cycle back and forth billions of times.
Einstein already proved that light comes in little energy packets. According to professor Blair, these energy packets are now called photons. Gravitational-wave detectors are one of the most sophisticated applications of these photons. So, it enables physicists to notice the time and space’s ripples originated by cosmic collisions.
After two years of discovering light’s energy packets, Einsteins stated that sound and heat waves also come in energy packets. Professor Blair named these sound and heat energy packets as Phonons. However, it is tricky to harness the phonons individually in quantum form. It is because random phonons known as thermal backgrounds usually flood them.
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In 2020, professor Blair got the prestigious Prime Minister’s Prize for Science. He received it for his significant contribution to the first discovery of gravitational waves.
Dr. Michael Page, the lead author, stated that the strategy combined photons with phonons. As a result, gravitational wave frequencies can amplify. He also said that the latest breakthrough would allow physicists to see the extreme and concentrated matter in the universe. It collapses into the black hole when two neutron stars collide with each other.
On the other hand, professor David Blair stated that waveforms sounded similar to a brief scream. They pitched to the top for detectors to hear. The technology will surely make these waveforms audible. It will also tell if neutrons in neutron stars split up into the constituents known as quarks once they are in an extreme state.
Do you know the fascinating thing regarding nuclear matter spinning into a black hole? It is exciting that the method is like a reverse of the Big Bang theory created in the universe. So, when you observe it happening there, you will feel like you are watching a Big Bang movie.
Professor Blair stated that the latest technology may not represent a quick solution to improve gravitational-wave detectors. But it provides a low-cost improvement route.
To Sum Up
Gravitational waves travel at the speed of light. Therefore, detecting the gravitational waves allows you to see the universe in a way you have never seen before. LIGO can help detect the cosmic gravitational waves and make gravitational-wave observations.
