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What is Internet of things (IoT)? About everything IOT 2020

August 17, 2019 TECH TEAM About everything IOT, what-is-internet-of-things-iot

What is the Internet of things (IoT)? About everything IOT:- Have you ever dreamed that when you wake up in the morning automatically your coffee starts brewing, some unseen computing device turn on the TV news starts reading your schedule and responds to your voice commands, etc?
Such types of things we have seen in the movie, or in science fiction Isn’t it! But now, in reality, all this will be possible. The technique that supports the above-mentioned things is known as the Internet of Things (IoT).
What is the Internet of Things(IoT)?
Sometimes it is known as the Internet of Everything (IoE). It consists of a web-enabled device that will collect or send data and also act on the data found in the surrounding, environments embedded with sensors, processors and communication hardware. This device is known as “connected “or small devices and is able to talk to other related devices. The process which is necessary for communication is machine-to-machine (M2M). It acts only with that information that they get from one another. Read Also: Every 5G networks city and region for every major carrier in the US
Amazing is that humans can give instructions or access the data but the device will do most of the work on their own that is without human intervention.
The existence of this technique has been made possible due to the tiny mobile components that are available these days.
The devices that will be connected, generate a huge amount of internet traffic like loads of data that can be used to make devices useful.
But can also be used for other purposes. No doubt, all this new data and the accessible nature of the internet devices will raise both privacy and security concerns.
Uses of Internet of Things (IoT) technology
Through this technique, you will be able to see real-time information that we have never done before. Even though we can monitor our families and homes by using remote to keep them safe.
Businesses can be improved, productivity increases, material waste will be reduced. By placing sensors in the infrastructure of the city will help in reducing the congestion on-road and also warn us before the infrastructure in danger.
Even the environmental conditions can be improved by the gadgets used openly and also reduce disasters. Read Also: Artificial Intelligence, Quantum Computing and The Laws of encryption
No doubt nowadays these types of gadgets and techniques are emerging everywhere to enhance any physical object.
Internet of Things (IoT): History
Kevin Ashton, co-founder of the Auto-ID Center in 1999 at made a presentation to Procter and Gamble (P&G) and in that he mentioned the Internet of Things and focused to incorporate new technologies.
In fact, MIT Professor Neil Greshenfeld’s in his book namely ‘When things Start to Think’ in 1999 did not use the IoT but provided a clear vision of IoT and its benefits.
It is said that IoT is evolved from several technologies that are from wireless technologies, microelectromechanical systems (MEMS), microservices and the internet.
It helped in bridging the gap between Operational Technology (OT) and information technology (IT) that will help in generating unstructured machine data and analyzed it for further improvements. Read Also: Sodium Batteries will Replace Lithium-ion Ones, says Scientist C N R Rao
Therefore, Ashton was the first person who had mentioned about the internet of things, who have presented an idea of connecting devices which already was there since the 1970s under the monikers embedded internet and pervasive computing.
IoT will take machine-to-machine (M2M) to the next level. IoT is a sensor of the network of billions of smart devices that connect people, systems and other applications to collect and share data. With the foundation, M2M offers the connectivity that enables IoT.
It is also said that the Internet of Things is a natural extension of supervisory control and data acquisition (SCADA) which is a category of the software application program for process control, to gather data from remote locations from real-time to control equipment and conditions. Let us tell you that SCADA systems include hardware and software components.
Also, we can’t forget that the concept of IoT ecosystem does not come on its own until the middle of 2010 when, in part, the government of China announced to make IoT a strategic priority in its five-year plan. Read Also: 5 Reasons to Buy Research Papers in Computer Science

How IoT work?

IoT ecosystem consists of web-enabled smart devices that use embedded processors, sensors and communication hardware to collect, send and act on data they acquire their environments.
IoT devices will share the sensor data that they take by connecting to an IoT gateway or another device where data is either sent to the cloud to be analyzed or analyzed locally.
Sometimes these devices communicate with other devices and act on the information that they get from one another. Human intervention is not required for the processing of the data. Read Also: Strategic investments by the operators will be key to India’s 5G evolution
IoT Benefits
Several benefits are offered by the IoT to an organization.
– Help in monitoring the overall business processes.
– Help in improving the experience of the customer.
– Save time and money.
– The productivity of the employee will increase.
– Adapt and integrate business models.
– Business decisions can be made better by IoT.
– Revenue generation can also be increased.
– IoT encourages companies to rethink the ways they approach their business, industries, markets and can also improve their strategies.
Disadvantage of IoT
– As several pieces of information will be shared by different devices so, the potential of a hacker to hack data or to steal confidential information will increase.
– Enterprisers have to deal with millions of IoT devices and so collecting and managing data will be a difficult task.
– If there is any virus in the system then all the connected devices will also become corrupted.
– As there is no international standard of compatibility for IoT, it is difficult for devices from different manufacturers to communicate with each other.
So we can say that the Internet of Things (IoT) is the interconnection through the internet of computing devices that are embedded in everyday objects, enabling them to send and receive data. Also, how it is used, what will be the benefits and disadvantages of IoT etc. Read Also: India’s growing manufacturing sector props up industrial automation equipment demand
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Smart World

5g network countries and region for every major carrier in the US

August 16, 2019 TECH TEAM city US, Every 5G networks

5g network countries and regions for every major carrier in the US. Smartphone networks area unit perpetually evolving: adding additional capability, increasing to new areas, and customarily making an attempt to induce a leg abreast of the competition. however whereas enhancements area unit continually being created, every few years we have a tendency to see a colossal shift because of the business transitions to the most recent technology. it has been concerning eight years currently since we have a tendency to saw 3G begin giving thanks to 4G, and immediately we’re witnessing the first days of the move from 4G to 5G.
Of course, to take advantage of 5G you’re going to need more than just a 5G smartphone — you’ll have to be connecting to a 5G network. How can you make sure you’re ready to do that? We’re taking a look at the availability of 5G in the US: where it is now, where it’s coming next, and how to get it.

The slow path to 5G availability

Considering the physical size of the US, and the mountains of existing infrastructure in place, upgrading the nation’s cellular backbone for 5G is no small undertaking. And while all the carriers are eager to demonstrate high-speed 5G availability, actual access to 5G has been plagued by stipulations, misrepresentations, and half-truths.
Some of that stems from confusion and ambiguity over just what counts as “5G,” a situation particularly capitalized on by AT&T and its 5G Evolution scheme. And to be fair, there are a lot of moving parts to keep track of, like which frequency bands a particular carrier is using — and understanding why factors like that could influence performance more than on previous-generation networks. How IOT AND AI can be used to replace manpower in agriculture
But mostly, we’re just waiting for the carriers to flip 5G on, and that’s a slow process, market by market. As we inch our way along towards more-or-less nationwide coverage, we’re keeping track of the four big networks and their efforts to deliver 5G. Where coverage is currently available, we’ve listed it — though keep in mind that access can be very, very spotty for now, and some cities don’t see more than a few isolated blocks of 5G reception.
Where available, we’ve also listed those markets set to receive 5G “soon.” Depending on the carrier, that might be in a few months, or maybe in a year or more, but all these cities are on the road maps. There also may be more markets in the works than just those displayed below, but these are the ones we’ve seen publicly disclosed. Artificial Intelligence, Quantum Computing and The Laws of encryption
5G coverage for all four carriers should be up to date as of the time of publication. We’ll check back in with this list each couple weeks to update it with new entries as 5G sweeps across the state.
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5G Smart World

Strategic investments by the operators will be key to India’s 5G evolution

August 14, 2019 TECH TEAM 4G, 5G, mobile internet, network, Ookla, RJio, telco

The Internet speed testing and analysis company, Ookla is betting on its recent acquisitions to bring valuable insights for the telecom operators and services providers into the performance, quality, and accessibility of the available networks worldwide.
The company did three acquisitions last year- Mosaik, mobile coverage analytics; Downdetector, real-time status, and outages report service; and Ekahau, industry-standard Wi-Fi network planning and site survey tools. The expanded capabilities are helping Ookla get a comprehensive view of worldwide network dynamics and performance. Related: 10 CLOUD COMPUTING PREDICTIONS THAT WILL TRANSFORM 2019
The data also helps telecom operators and services providers as well as governments to plan the services better.
To help the operators and the industries track 5G network deployment, the company has also launched a first-of-its-kind interactive 5G Map tracking the 5G rollouts worldwide including the limited and commercial availability of it. As India also prepares for the 5G era with a spectrum auction process just around the corner, Related: Google launches an international council to advise on AI and technical ethics
Doug Suttles, Co-founder & General Manager at Ookla talks about the company’s success mantra and shares his observations on the state of Internet connectivity in India, and the challenges faced by the operators as they prepare to usher into a whole-new connectivity paradigm with 5G.

What’s the key to your success in being a widely trusted Internet speed test app?

I believe our success stems from our commitment to providing transparency into the performance of networks through an objective, accurate approach for the benefit of both consumers and the industry in everything we do. For years, Ookla has offered an unparalleled view into the state of the global telecommunications industry by pioneering mobile and broadband testing applications and network intelligence. Our approach puts consumer empowerment at the forefront and we are trusted by consumers, regulators and operators alike because of our reliable test, data and associated methodologies. Related: What is cybersecurity? What you need to know

What are your learnings about Indian network providers vis-a-vis the international providers?

A multitude of factors can impact the performance of a network in any country, including the quality of physical infrastructure and the geographical features in the regions where that infrastructure is placed. Since India is both large in population and vast in geographic size, operators and networks in the country are specifically affected by a unique set of challenges.
Indian operators are faced with the challenge of servicing an expansive landmass with a diverse set of topographical features that other smaller countries do not have to address. For instance, Norway and Singapore both rank near the top in global country rankings, but they are also in an advantaged position because of their small size. Along the same lines, rural areas can be hard to service because they are less connected to a developed network system that is more readily present in an urban environment.
Separate from geographical complications, among the largest factors in network congestion and an unreliable connection is due to the number of people using a network at a given time. For example, while some cities may have a strong infrastructure in place, multiple connections being made to the same network at the same time is often the cause of an experience plagued with poor speed and quality. Given the complexities of the Indian market, it’s clear operators are taking the most advantageous approach possible in offering their users a quality experience.

How do you see the current state of the networks in India and how is it evolving for the upcoming 5G era?

Since the launch of Jio’s free data offering in 2016, the Indian telecom industry has changed drastically over the span of just three years. The market shift created a rippling effect where India became the leading country in data consumption, which then led to a severe impact on network capacity. Due to these factors, the need for operators and regulators alike to develop the country’s networks and focus on infrastructure improvements has become apparent. In a positive light, consumers have benefited from more 4G accessibility, and other operators have been competitively driven towards improvement in both network development and service pricing. Related: Internet Of Everything (IoE) Market Likely to Emerge over a Period of 2015-2020
Now as the country is set for the 5G spectrum auction, there are mixed opinions among operators as to how best to prepare the industry for a successful rollout. While Jio prepares to launch 5G services in 2020, Vodafone and Airtel keep their focus on 4G in the midst of regulatory and infrastructure blocks. As we observe operators taking different approaches, the evolution of networks in India will depend largely on where and how they choose to invest in the face of 5G developments. Along with the technology, 5G deployment strategies are brand new and the transition will likely happen over an extended period of time.
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Smart World

Artificial Intelligence, Quantum Computing and The Laws of encryption

August 13, 2019 TECH TEAM Artificial Intelligence, Quantum Computing

Quantum computing is undeniably the next generation of computing as quantum power has the ability to complete operations that took days within seconds. The last decade has seen several science and technology breakthroughs. From self-driving cars to 3D-printing, clean energy technologies to artificial intelligence assistants, progress has been swift. While some technologies take decades to become useful, others disrupt quickly. In 2019, two major technologies have been making headlines but aren’t being taken very seriously – artificial intelligence (AI) and quantum computing (QC). These technologies would change the nature of cyberattacks. Artificial intelligence can be used to not only probe but also to specifically tailor attacks against organizations and other targets. We’ve already seen some instances of AI used to copy the voice and mannerisms of a person to create something that looks and sounds as though the real person said it called “deep fakes”.Related: This Machine Suck Carbon Dioxide From Atmosphere And Make Gasoline, Diesel fuel
Quantum computing took off in the early 90s and is now emerging as the next generation of computing. Operations that take hours and days, will happen in seconds with quantum power. With that technology, the scaling of computations goes up dramatically, to the point where the time needed for breaking traditional encryption would shrink to weeks, or maybe even minutes. This means breaking some of the foundational encryption we see in use today. The estimates for when QC will really take off range anywhere from 5 to 20 years. One thing we do know, however, is that QC has the potential to completely transform the cyber threat landscape. Related: Internet Of Everything (IoE) Market Likely to Emerge over a Period of 2015-2020
That said, quantum computing poses risks to some cryptography algorithms. For instance, public-key cryptographic algorithms, which are based on the discrete logarithm problem, elliptic curve logarithm problem, and integer factorization problem (RSA encryption) are susceptible to brute-force attacks using Shor’s algorithm. Whoever develops the quantum computers first would be able to break legacy encryption protecting historical information. Parallel to the development of quantum computing has been that of “post-quantum” or “quantum-resistant” cryptography to create encryption mechanisms that are resistant to quantum computing decryption capabilities. It remains to be seen whether these will achieve widespread adoption prior to quantum computers’ ability to trivialize existing encryption schemes. Related: What is cybersecurity? What you need to know
While threat actors may use quantum computing to defeat some encryption algorithms, we expect that the adoption of quantum key distribution (QKD) will increase the secrecy of communication networks. The nature of quantum key generation and distribution guarantees communication systems’ security because the observation of a quantum-generated key will necessarily degrade or otherwise alter the key in a detectable fashion. As a result, we predict this will severely inhibit traffic interception schemes, as recipients would be able to identify messages that have been viewed prior to their receipt. Related: Google launches an international council to advise on AI and technical ethics
As of today, quantum computers exist, and developers can access them through the cloud. However, current quantum computers have some limitations, including the instability of quantum computing environments, which makes their practical use more difficult. Researchers are currently working to mitigate these inhibitions. It should be noted that quantum computing is still primarily in the research and development phases; large-scale application production and rollout has not occurred yet. Companies and countries are spending millions of dollars to win the race to get there first. U.S. quantum computing development has achieved good performance in terms of the raw number of qubits (72-qubit processor); however, China currently has the record on experimentally demonstrating 18-qubit entanglement that is the basis of quantum computation and quantum communication. China may be behind in raw quantum computing hardware, but they are making good headway on finding applications for quantum computing once it becomes a reality. While quantum computing is still years away from becoming a conventional technology, it is a tight arms race. Related: 10 CLOUD COMPUTING PREDICTIONS THAT WILL TRANSFORM 2019
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Future Technology

This Machine Suck Carbon Dioxide From Atmosphere And Make Gasoline,Diesel fuel

August 10, 2019 TECH TEAM Carbon Dioxide From Atmosphere And Make Gasoline, Diesel fuel, Future Technology

Carbon Dioxide Suck From Atmosphere And Make Gasoline, Diesel fuel That can possible in the future because there is A Harvard – Affiliated Canadian Company is making a liquid fuel that is carbon neutral, and they are hoping economic is on there side. a project is already proved that is possible. This Machine Suck Carbon Dioxide From Atmosphere And Make Gasoline, Diesel fuel
“This isn’t going to save the world from the effects of climate change, but it’s going to be a big step on the path to a low-carbon economy,” said David Keith, a Harvard professor of Applied Physics and founder of Carbon Engineering. Keith said capturing CO2 from the air and making fuel requiring to require scientific breakthroughs per se as much as $ 30 million, eight years of engineering, and a “million little details” to get the process right.

The gasoline you buy might trace its heritage to carbon dioxide pulled straight out of the sky rather than from oil pumped out of the ground. By removing emitted carbon dioxide from the atmosphere and turning it into fresh fuels, engineers at a Canadian firm have demonstrated a scalable and cost-effective way to make deep cuts in the carbon footprint of transportation with minimal disruption to existing vehicles. His work appears June 7 in the journal Joule.
The carbon dioxide generated via direct air capture can be combined with sequestration for carbon removal, or it can enable the production of carbon-neutral hydrocarbons, which is a way to take low-cost carbon-free power sources like solar or wind and channel them into fuels that can be used to decarbonize the transportation sector, “says lead author David Keith, founder and chief scientist of carbon engineering, a Canadian CO2-capture and clean fuels enterprise, and a professor of applied physics and public policy at Harvard University.

Direct air capture technology works almost exactly as it sounds. Giant fans draw ambient air into contact with an aqueous solution that picks out and traps carbon dioxide. Through heating and a handful of familiar chemical reactions, that same carbon dioxide is re-extracted and ready for further use – as a carbon source for making valuable chemicals like fuels, or for storage via a sequestration strategy of choice. It’s not just theory – Carbon Engineering’s facility in British Columbia is already achieving both CO2 capture and fuel generation.
The idea of direct air capture is hardly new, but the successful implementation of a scalable and cost-effective working pilot plant is. After conducting a full process analysis and crunching the numbers, Keith and his colleagues claim that realising direct air capture on an impactful scale will cost roughly $ 94- $ 232 per ton of carbon dioxide captured, which is on the low end of estimates that have ranged up to $ 1,000 per ton in theoretical analyses.

That Price point is low enough to use direct air capture to start tackling the roughly 20% of global carbon emissions that result from driving, flying, trucking, and other ways of getting people and goods around. “Electricity from solar and wind is intermittent; we can take this energy straight from big solar or wind installations at great sites where it’s cheap and apply it to reclaim and recycle carbon dioxide into new fuel,” Keith says, adding that “Making fuels that are easy to store and transport eases the challenge of integrating renewables into the energy system.
“The resulting fuels, including gasoline, diesel, and jet fuel, are compatible with existing fuel distribution and transportation infrastructure. Thanks to ultra-low life cycle carbon intensities, they are a promising route for reducing carbon emissions in heavy transportation and other sectors of the energy system that are demanding and difficult to electrify.

The next step is to have a number of scaled-up plants producing hundreds of thousands of barrels of carbon-free fuel, to drive down costs further, much as solar and wind energy costs have plummeted over the past decades as scale has risen. As prices fall, more governments may get on board with the idea of pulling CO2 out of the air“We will need a trillion-dollar industry to [keep warming below 2 degrees C]. That seems like a lot, but the airline industry is larger, ”Lackner said.

Carbon Engineering is building a larger plant, utilizing low-cost renewable energy, that will produce 200 barrels of synthetic fuel a day. It should be operational in 2020, said Keith. The company is also looking to license its technology.

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Smart World

Internet Of Everything (IoE) Market Likely to Emerge over a Period of 2015-2020

July 17, 2019 TECH TEAM

The Internet of Everything (IoE) brings folks, process, data, and things along to make a networked affiliation that is a lot of useful. The market remains in its emergent stage. the world web of Everything (IoE) Market offers operational potency and permits higher deciding. Increase in web usage drives the IoE market growth. sturdy demand across many entities – high-speed processors, web security and high network speed instrumentality sustains demand for IoE.
Market Analysis
The Global web of Everything (IoE) Market are going to be growing at a CAGR of fifteen.3% throughout the forecast period of 2015–2020.
Increased adoption of IoE by state, federal, and native governments, non-governmental organizations, care organizations, utilities, academic establishments drive the expansion of the net of Everything (IoE) Market.
Internet proliferation, specialize in huge knowledge, government initiatives, innovation in producing technology square measure few growths propulsive factors. knowledge transfer speed may be a major constraint within the IoE surroundings thanks to the necessity for prime traffic knowledge transfer.
The Global web of Everything (IoE) Market is compact by many technology trends like quality, knowledge analytics, social networks, and cloud computing.
Growth potential is high within the rising markets of the Asia Pacific and geographic region. India and China square measure the fastest-growing countries within the developing market. SMEs square measures the key end-users for this technology because it yields them a competitive advantage. Increasing FDI investments, rising property, infrastructural investments and government initiatives for digital can absolutely impact the market.
Regional Segmentation
The Global web of Everything (IoE) Market is metameric and analyzed by six regions- North America, Western Europe, Asia Pacific, Central jap Europe, geographic region, and therefore the geographical area. every region is analyzed in terms of technology, services, applications, and devices.
Segmentation by Technology
The Internet of Everything (IoE) Market is metameric and analyzed by Infrastructure and Network Technologies and Application Technologies.
Key Vendors
Some of the key business players embody Jerom Bos, Cisco, Ericson, IBM, Intel, and Oracle. The report additionally includes firms to look at for like Axiros, Sigfox, and Wireless Logic cluster.
Current and foreseen business ways for the leading firms of the market like Cisco System INC., PTC Inc. & Qualcomm Technologies, and Intel. Total of twenty-three firms is roofed.
Competitive Analysis
Competitive analysis (i.e. current and future key business ways of the competitors and their regional growth). The elaborate competitive identification of all the key vendors within the market. Competitive benchmarking in terms of product/service offerings, mergers, and acquisitions, strategic alliances, business ways, etc.
Benefits
The report is going to be helpful for the key stakeholders of the IoE market like technology suppliers, device suppliers, and application suppliers within the following ways:
Competitive analysis (i.e. current and future key business ways of the competitors and their regional growth)
Drivers, growth opportunities and regional IoE trends
The report provides associate degree in-depth analysis of the net of Everything (IoE) market globally. delivery out the key insights of the business, the report aims to supply a chance for players starting from SMEs to larger enterprises and even for the start-ups to know the most recent trends and technologies associated with the IoE market.
The report provides a close analysis of the world industries in terms of technology, services, applications, devices, verticals, and regions. The report entails data associated with the most recent business and market trends, key stakeholders, business tormentor analysis and competitive landscape. It includes implementation, opportunities, and adoption rate of IoE within the business. It additionally includes an end-user analysis. This analysis was done supported by the world user survey.

Samsung ready for 5G trials; says India will come up with local 5G use cases

April 22, 2019 TECH TEAM

Korean telecom gear maker Samsung said India will come up with its own 5G specific use cases that could be applicable to other markets and it will ensure that those use cases are supported by the company.
“Government as part of the 5G forum included many of other partners who are focusing on identifying specific use cases [for India]. We just want to make sure the technology is available to support any of these uses cases,” Srini Sundarajan, Samsung India Senior Vice President and Head (Network Business), told ET in a recent interaction.
India has some different sets of needs and the focus of the government is to develop 5G use cases around farming, education and next-gen manufacturing.
“Education is something we are working with Japan that will be very useful for India… there are many use cases which have a lot of societal value and that could also play a big part on the 5G rollout,” he said.
Sundarajan said that the company is working with the telecom department to help devise the 5G roadmap for the country. “Our goal primarily is to work with the DoT and ensure that we are able to show the value of 5G to all relevant people in government and partners of the government,” he added.
The Narendra Modi government aims to kickstart the deployment of ultra-high speed 5G networks in the country by 2020.
The company said that it is ready for 5G field trials in India, and is awaiting clarity from the telecom department (DoT). “We agreed that we will do trials with the government. But the clarity has to come from the government on various things.”
Samsung said that it is ready to support 5G services on both 3.5Ghz and 26-28Ghz in India. 5G services using the mid-band or 3.5GHz will power use cases such as surveillance, smart city, and smart factories among others. Fixed wireless access (FWA) could become one of the main use cases of 5G using the 28Ghz band, Sundarajan said.
In India, Samsung is the sole 4G equipment provider for Jio’s pan-India network and is also a technology provider for the telco’s narrowband IoT network.
“We are agnostic since we have commercial deployments on both sides. We are opening up and showing these use cases. Depending upon where the interest comes both from government and operators, we will drive those use cases,” Sundarajan said.
The much-anticipated 5G field trials have hit the policy roadblock with the department of telecom (DoT) wireless planning and coordination wing (WPC) averse to allocating airwaves beyond 90 days, which according to industry, would not serve any purpose.
On February 25, the department has formed a committee with representation from the academia, industry and the government, to make recommendations related to licensing for carrying out 5G pilots, and also asked for the quantum, size, price and other aspects for offering experimental spectrum.
The telecom department had previously invited vendors like Ericsson, Samsung, Nokia, Huawei, and Cisco to conduct 5G field trials in the country and test use cases. The department is expected to provide 100MHz of spectrum for these field trials in the country, along with the backhaul support.
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Electric Cars Smart World

Micromax Co-Founder’s EV Startup Revolt Intellicorp to Launch India’s 1st AI-Enabled Bike in June

April 6, 2019 TECH TEAM electrical motorbike, Micromax, motorbike, Revolt

Revolt Intellicorp Pvt. Ltd. Associate in Nursing freelance electrical vehicle (EV) venture by Micromax’s co-founder, Rahul Sharma, is prepared to launch an Asian country’s 1st computing (AI) -enabled electrical motorbike in India in June.
The approaching AI-enabled bike will be connected to LTE (a 4G mobile communications standard) and for same, it’ll carry a 4G Sim.
The motor and batteries of the bike are going to be foreign. However, the BMS (Battery Management System) and also the Eu (Electronic Management Unit) is Associate in Nursing in-house style.
This motorbike contains a prime speed to provide a spread of 156.8 kilometers on a full charge. The futurist bike also will have an electric battery swap system — a system during which empty batteries will be swapped with charged ones. Related: 5g network countries and region for every major carrier in the US
Headquartered in Gurgaon, Revolt has established a producing facility in Manesar, Haryana, that adjoins one 100000 sq. feet and contains a production capability of one.20 100000 units commissioned for section one (FY twenty19-20).
In a media statement, Rahul Sharma, founder, Revolt Intellicorp Pvt. Ltd., said, “As an applied scientist by qualification, I forever found the quality and also the expanse of chance it offers, terribly intriguing.
There’s an enormous want for victimization technology to disrupt urban commute and create it cleaner and property.
I’m doing my bit and that I feel this is often the correct time for each player operative during this area to return along for the larger sensor of the environment.
My vision is to visualize each house in the Asian country have access to property quality.”
The electric motorbike can ab initio be created offered in Delhi-NCR and may be purchased each on-line and offline.
Sharma is supplementary that Revolt’s primary purpose of thought whereas performing on its product is that the trendy consumers’ dislike for compromises.
He is conjointly aforementioned that the corporate is functioning on the thought of constructing intelligent vehicles that don’t create any concessions on neither the shape issue nor the performance of ICE (internal combustion engine) vehicles. the corporate, in fact, aims to utterly replace them.
The Indian motorcar market size was valued at $71.1 million in 2017 and is projected to achieve $707.4 million by 2025, witnessing a CAGR of thirty four.5% throughout the forecast amount.
Government schemes and subsidies square measure enjoying a serious role within the growth of the market.
additionally, the growing environmental considerations thanks to high pollution levels in major cities of the country are absolutely poignant the market growth.
India is home to the world’s second-largest motorbike market however the sales is proscribed to commuter bike riders that have sales figure of over twenty million two-wheelers sold-out in 2017-18.
This, in turn, poses a huge threat to the country’s setting and at the constant time offers a substantial chance for entrepreneurs to affix the energy unit business. Related:How IOT AND AI can be used to replace man power in agriculture
Last year it might, it absolutely was reported that the govt is considering the establishment of a risk capital (VC) fund of ₹500 large integers so as to support startups associated with electrical vehicles (EV) in the Asian country.
Per begin team of Invest Asian country, their square measure regarding 136 startups associated with electric vehicles in an Asian country — until April 2018.
According to a report, the Indian electrical scooters and motorcycles market is projected to achieve 757,900 units by 2025, registering a CAGR of forty two.9% throughout the forecast amount.
The market has witnessed vital growth within the recent past thanks to strict norms and laws relating to environmental, government incentives, and rising environmental awareness.
In 2015, the Indian government had started quicker Adoption and production of Hybrid and electrical vehicles (FAME) theme that provides incentives for buying electric vehicles.
Last month, the Union cupboard chaired by the Prime Minister Shri Narendra Modi had approved the proposal for the implementation of Phase-2 of electrical Vehicle theme, FAME-II. underneath the new policy, the govt can pay Rs ten,000-crore ( ~ US$1.4 Billion)
So as to supply automotive patrons within the country direct incentives on the purchase of electric vehicles. The package declared also will be used for fixing charging infrastructure and focus on electrification of transport.
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Smart World

Indian Forensic Labs Set to Double DNA Testing Volume

March 28, 2019 TECH TEAM

As per recent estimates, the amount of desoxyribonucleic acid profiles developed from crime scene proof has doubled over a year from ten,000 cases tested in twenty17 to almost 20,000 this year1. This increase in desoxyribonucleic acid welfare work will be attributed to associate upward trend in reportage of rape & sexual violence cases because of public awareness and policy alongside steps taken by the govt to upgrade police and rhetorical infrastructure keeping girls in mind.
While proof from a recent study2 indicates that confidence-building measures just like the gap of all-women police stations have enhanced reportage of crimes against girls by twenty-second, upgrading of rhetorical infrastructure at each central & state levels has conjointly enabled additional assortment and testing of desoxyribonucleic acid samples by investigators.
Reinforcing the trend Vivek Sahajpal, Assistant Director, Himachal Pradesh State FSL aforementioned, “There has been a considerable increase in requests for desoxyribonucleic acid identification and nearly five-hundredths of the full crime cases we have a tendency to receive ar coupled to rape and statutory offense. to stay pace with the enhanced demand, we have a tendency to are currently implementing new desoxyribonucleic acid technology upgrades which will facilitate the United States of America bring down the number of unsolved crimes within the state.”
Tim Schellberg, Founder & President, Gordon Thomas Honeywell—GA notes, “It is nice to visualize India conducting additional desoxyribonucleic acid tests to expedite justice however considering the dimensions of crime within the country, particularly sexual violence against girls, this solely skims the surface. If a rustic goes to fight rape it must absolutely embrace rhetorical desoxyribonucleic acid, the gold normal of proof. It identifies suspects and helps build rightful assortment.”
Despite associate dealing within the range of profiles being tested, the degree remains low considering that just about forty,000 cases of rapes are registered each year3. Official statistics show a dramatic increase within the range of crimes against girls, that have enhanced quite eightieth over ten years, with just one in 5 cases leading to the conviction.
As per metropolis Police, 5 rapes occurred within the capital town daily last year however the speed of conviction for rape has born from thirty four.5% in 2014 to twenty six.62% in 2016. A recent report free by the Praja Foundation on the ‘State of Policing and Law & Order’ shows sexual offenses registered in Mumbai are rising systematically and have jumped by eighty-three between 2013 and 2018.
Advocate Vivek Sood, Supreme Court points out, “Rape cases in India will be classified into false cases filed to settle scores and real cases during which the victims are brutalized physically and mentally destroyed. I actually have been perceptive the rising trend in false cases that tend to discredit even the real cases with the exception of wastage of inquiring and judicial time. However, the solacement is that the growing use of desoxyribonucleic acid proof to crack rape and statutory offense cases.”
Forensic desoxyribonucleic acid has emerged because of the most reliable crime-fighting technology the globe over. several countries are effectively victimization rhetorical labs and protocols to gather, take a look at and compare desoxyribonucleic acid at crime scenes thereupon of suspects with promising results. wherever the law machinery world over is progressively hoping on desoxyribonucleic acid forensics to unravel crime, the pace in India has been slow. Lack of scientific ways in investigations and absence of a correct policy framework within the country still hamper justice.
Emphasizing on the required balance amount with the quality of desoxyribonucleic acid sample assortment, Dr. Harish Pathak, Head of Forensics, KEM Hospital, Mumbai says “85% of the desoxyribonucleic acid collections in India don’t yield viable results. there’s a necessity to coaching and sensitization programmes for initial responders and adherence to straightforward in operation protocol for desoxyribonucleic acid assortment.”
Internationally, desoxyribonucleic acid forensics is employed as a typical procedure in cases of monstrous crimes like rape and murder. Countries with a fraction of India’s population like UK and Kingdom of Thailand complete desoxyribonucleic acid testing on over sixty,000 and 10,000 crime scenes in a very year severally.
1 GTH-GA Estimates
2Gender, Crime, and Punishment: proof from girls Police Stations in India; 2018
3 Crime in India 2016 report by NCRB

Smart World

Google launches international council to advise on AI and technical ethics

March 27, 2019 TECH TEAM

Alphabet’s Google aforementioned on Tues it absolutely was launching a world consultative council to think about moral problems around computer science and alternative rising technologies.
The council, that is slated to publish a report at the top of 2019, includes technology consultants, digital ethicists, and folks with public policy backgrounds, Kent Walker, Google’s senior VP for international affairs, aforementioned at a Massachusetts Institute of Technology conference.

Google launches an international council to advise on AI and technical ethics

The cluster is supposed to supply recommendations for Google and alternative corporations and researchers operating in areas like identity verification software system, a style of automation that has prompted issues concerning racial bias and alternative limitations. Related:-How IOT AND AI can be used to replace manpower in agriculture
“We need to own the foremost conversant and thoughtful conversations we will,” Walker aforementioned on stage at the Massachusetts Institute of Technology Technology Review event in the metropolis.
“We need to take a seat down with the council and see what agenda they need to line.”
Google already has its own internal AI principles, which, among alternative provisions, bars the California-based school firm from victimization AI to develop weapons.
The cluster is supposed to supply recommendations for Google and different firms and researchers operating in areas like a biometric authentication software system. Related:-Artificial Intelligence, Quantum Computing and The Laws of encryption
The eight-member Advanced Technology External consultive Council includes Joanna Bryson, associate degree professor in computing at the University of Bath; William J. Burns, a former U.S. deputy secretary of state, and Dyan Gibbens, chief government of Houston-based drone startup Trumbull, per a Google diary post.
The council can meet fourfold, starting in the Gregorian calendar month, the diary post aforementioned.
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