30 Jun

Baby starts to walk immediately after being born; the video is breaking the internet

Baby starts to walk immediately after being born; the video is breaking the internet

Baby starts to walk immediately after being born; the video is breaking the internet

Yes! As crazy as it sounds, a baby started walking as soon as she was born. The video continues the internet, and shows that a newborn baby held by the doctor starts walking a few minutes after birth. This video was uploaded on Facebook and in three days has more than 70 million visits and more than 1.6 million shares.

The appropriate age for a baby to start walking is between nine and twelve months; It is not really surprising to see a baby walk within a few minutes after birth. He will not believe us until he sees the video. Here is the video of this baby where it is clearly seen that the baby is walking a few minutes after birth. However, we still know that it is a part of the primitive reflexes or something really unusual. Primitive reflexes are reflex actions of the central nervous system that are exposed normal infants, but adults neurologically intact in response to particular stimuli. There is no media report on the reason behind this. Whatever the reason for the video became viral and you will have a look:

Is not it amazing? You have to see it to believe it. Put in the comments section what you think of this video. You can also read: Doctors told you to have an abortion, but what happened next is a miracle!
A “miracle baby”, lighter than the UAE-born iPad, doctors are celebrating successful delivery

15 Jun

Ghostbusters gather at Owen Sound library

Ghost hunters are known to make the world a better place by ridding them of ghosts and ghouls.
But with the seemingly well-controlled ghost population of Owen Sound, the Ghostbusters of Owen Soundcazadores de fantasmas its conocidos para hacer del mundo a lugar mejor por deshacerse de los fantasmas y demonios.
Pero con the población of fantasmas of Owen Sound, aparentemente well controlledado, el Owen Sound Cazafantasmas to contribute of otras maneras.
Sábado, tres miembros del grupo estaban in the biblioteca pública de Owen Sound y el Norte de Gray Owen Sound para el 2017 Mini Comicon, donde criaron dinero para la Asociación Canadiense de Salud Mental con la sedimentos y dulce Twinkies Aperitivo sinónimo de franqueza.
“Realmente, nuestro principal objetivo es recondar dinero para buenas causas”, dijo Jason Fitzsimmons, that estaba en el evento del sábado en su uniform y Ghostbuster Amanda Fitzsimmons Maeghan Eyre. “Hoy en día, recogemos dinero para la Salud Mental de Canadá, pero nosotros hemos hechos en el pasado para el servicio de rescue de animales, refugios para animales y sin matar a las cosas en esa dirección.”
Owen Sound Cazafantasmas is formed in the city of Toronto, compuesto por los fans of the popular franquicia, ha ha durado casi 35 años. Los miembros participan en una variedad de eventos, como Owen Sound Sábado donde apoyan las organizaciones benéficas e interactuar con los aficionados.
Con las golosinas that sells sábado grupo Owen Sound páginas también de colores and pegatinas para distribuir a los niños y varios accesorios interactivos, incluyendo a hombre of malvavisco inflable de cuatro metros de altura, una mochila de protones y PKE (Energía Psicocinético) The permite avanzar jóvenes aficionados.
“Los niños aman fantasmas y casi todos los adultos parecen tener sus fantasmas niño”, dijo Fitzsimmons. “Tienes ese nuevo chico as the ama los adultos y el factor nostalgia.”
Fitzsimmons, that tiene a día of trabajo como gerente of EB Games in the lado este of the ciudad, dijo that había sido durante mucho tiempo a fan of Los Cazafantasmas, mainly porc the normal personas hacen the diferencia.
“No hay great potencias, nor a ser millonario y poder comprar las cosas correctas para detener el crimen”, dijo Fitzsimmons. “Tras de personas that luchan contra the ciencia de miedo y aterrador.”
Su fascinación con la franquicia the llevó a crear ghostbustersnews.com, donde se habla de todo, Cazafantasmas.
“Es una fuente viable of ingresos para mí, abrió muchas puertas y es algo that me encanta”, dijo Fitzsimmons. “Se trata de una historia pasada y especialmente in los últimos años, es algo that reinventa”.
Fitzsimmons dijo that the liberación del último año de una nueva película Cazafantasmas con un equipo femenino de luchadores fantasmas sin duda ayudó a provocar a renovado interés in the franquicia.
“Tenemos a malvavisco marea humana of 13 pies of alto aquí that no sería posible sin the película, tenemos an auricular inflatable pasado este año that no sería posible siete pies of altura”, dijo Fitzsimmons.
Era el tercer año that Fitzsimmons asistió al evento Owen Sound Mini Comicon y dijo that era genial para participar in algo cerca de casa.
“Siempre es bueno tener algo aquí in lugar de viajar tres horas in Toronto o Niagara Falls,” dijo. “Es a poco raro cuando the gente of the región that is conocen como Ghotbuster, pero es genial.” Contribute in other ways.
On Saturday, three members of the group were at the Owen Sound and North Gray Public Library for the 2017 Owen Sound Mini Comicon, raising funds for the Canadian Mental Health Association through the sale of cupcakes mixed with sweet silt and Twinkies, A collation synonymous with frankness.
“Really, our main goal is to raise money for good causes,” said Jason Fitzsimmons, who was at Saturday’s event in his Ghostbuster uniform with Amanda Fitzsimmons and Maeghan Eyre. “Today we are raising money for Canadian mental health, but we have done things in the past for animal rescue services, animal shelters without killing and things like that.”
Owen Sound Ghostbusters was formed a few years ago and is a branch of the Toronto-based Ontario Ghostbusters, made up of fans of the popular franchise, which has lasted for nearly 35 years. Members participate in a variety of events, such as the Owen Sound Saturday, where they support charities and interact with fans.
With the goodies they sold on Saturday, the Owen Sound group also had colorful pages and stickers to distribute to children, as well as various interactive accessories, including a four meter inflatable marshmallow man, a pack ofLes chasseurs de fantômes sont connus pour faire du monde un meilleur endroit en le débarrassant de fantômes et de goules.
Mais avec la population de fantômes d’Owen Sound, apparemment bien maîtrisés, les Ghostbusters d’Owen Soundcazadores de fantasmas son conocidos para hacer del mundo un lugar mejor por deshacerse de los fantasmas y demonios.
Pero con la población de fant

29 May

Results of Juno mission challenge our understanding of Jupiter

Results of Juno mission challenge our understanding of Jupiter

Results of Juno mission challenge our understanding of Jupiter

Ten months after their arrival on Jupiter, Juno’s mission to NASA began to provide – forcing scientists to evaluate how they felt about the giant planet. Juno’s earliest discoveries, published in Science, indicate that many aspects of Jupiter’s expectations defied – including the strength of its magnetic field, the shape of its nucleus, the distribution of ammonia, and time at its poles. This is certainly an exciting time to be a Jupiter scientist.

Juno arrived in Jupiter in July 2016 and began a long orbit loop that has moved away from the planet before retiring to its first scientific (perijove) on August 27. That is the fugitive collection that the new studies are based on. Today, despite the initial problems with the Juno engine and spacecraft software, the mission moved to a regular pattern of about 53.5 days – the sixth overview of May 19, the seventh is the 11th July.
Mysteries at the bottom

One of Juno’s main strengths is his ability to monitor roofing clouds to study the gas below, such as ammonia-forming clouds. The flow of ammonia forms the distinctive characteristics of Jupiter. It was expected that the gas would mix well, or soaked, in the highest cloud. This idea has turned upside down – the concentration of ammonia is much less than expected.

In an intriguing way, a large part of the ammonia is concentrated in an equatorial plume, from the depth of ceilings cloud Jupiter due to powerful drilling force. Scientists compare this to Earth’s Hadley cell, with dredge ammonia plumes hundreds of miles below.

We know that ammonia is upgraded to Jupiter’s equator for a while, but we did not know how deep this column is. However, it is important to remember that this is just the location on Jupiter and terrestrial infrared observations suggest that the pen may not be as strong elsewhere in the Jupiter equator, but could be uneven. Only with more périvove passes, we begin to understand the strange dynamics of the tropics of Jupiter.

We have never been able to see that before, even the first observations of Juno microwave instruments provide a lot of new ideas. These show that the band structure we see on the surface is really just the tip of the iceberg – Jupiter exhibits bands up to 350 km. It is much deeper than Jupiter’s generally considered “time layer” in the top ten kilometers. On the other hand, this structure is not the same as the bottom – which varies with depth, indicating a large and complex traffic pattern.

Gravity and magnetic fields

Surprises do not end here. Juno can deepen the planet by controlling small adjustments to the orbit of the spacecraft with the gravity field of Jupiter’s interior. Ultimately, these will be used to evaluate the core of Jupiter, although this can not be done in a single pass of perijove. Most scientists believe that the planet has a dense nucleus composed of ten times the Earth’s mass of heavier elements and occupies a small fraction of the radius. But the new measurements are incompatible with any previous model – perhaps suggesting a “spongy” nucleus scattered in the middle of the Jupiter radius.

In fact, the interior of Jupiter seems to be anything but uniform. Remember that scientists have spent years developing models of the interior of Jupiter on the basis of scattered data taken over great distances. Juno is testing these models to the extreme because he flies so close.

Jupiter has the most intense planetary magnetic field in the solar system, there is a buildup of wind, where the solar wind (known as the name of shock arc) slows down. Juno first crossed this region and in the Jovian magnetosphere June 24th. At its closest approach, Jupiter’s magnetic field strength was twice as strong as any predicted and much more irregular model.

29 May

Chinese space telescope to observe ‘big eaters’

Chinese space telescope to observe ‘big eaters’

Chinese space telescope to observe ‘big eaters’

China’s new space telescope will take into account many mysteries of the universe, including “big eaters” – active nuclei of galaxies to the farthest reaches of the universe. Scientists have discovered that almost all galaxies have a black hole with a mass of several million supermassiform to several billion times that of the Sun in the center. With its strong gravitational pull, supermassive black holes gobble up surrounding gas and dust, Xinhua news agency reported.
When a black hole overflows too much, the excess material becomes two jet stream perpendicular to the accretion disk of the black hole, which is like a greedy with an inflated abdomen. The jet stream and the accretion disk of the black hole generators strong enough supermassive x-rays to billion light-years travel. These galaxies have very bright nuclei – so bright that the central region may be brighter than the remaining galaxy. Scientists call them active galactic nuclei.

The hard X-ray modulation of the telescope (HXMT), developed by Chinese scientists, will observe some active galactic nuclei. “Since the active nuclei of galaxies are very far from Earth, our telescope can only detect the brightest,” said Zhang Shuangnan, senior scientist and director of HXMT key Particle Astrophysics Laboratory of the Chinese Academy of Sciences (CASO) . On Monday. The great dining rooms are full of mysteries. Scientists have discovered that the double-jet phenomenon is very common in galaxies with active galactic nuclei, but I do not understand why super-massive black holes can not cover any matter that falls into them.
Black holes are very different black holes of stellar mass, which form when the collapse of very massive stars at the end of their life cycle. Scientists still do not know how to form supermassive black holes and grow, which is a key to understanding the evolution of galaxies. Observing HXMT should help scientists see the central zone near the horizon of events supermassive black holes in the center of active galaxies and gather information on the extremely strong gravitational fields, Zhang added.

29 May

NASA discovers yet another mode of ice loss in Greenland

NASA discovers yet another mode of ice loss in Greenland

NASA discovers yet another mode of ice loss in Greenland

A new study by three NASA scientists found another cause of glacial collapse. The discovery suggests that ice on the Rink glacier, Greenland, does not rely only on faster than usual, glided through the interior of the glacier into a gigantic wave. This is similar to a heated heater slides out of its plastic housing.

The initial objective of the study, to accurately track the mass loss of an ice melting glacier by horizontal motion of a GPS sensor, led to this discovery. The team used single sensor data on the Greenland GPS network (GNET), located at the bottom of the rock beside the Rink glacier.

The researchers looked at the wave pattern in GPS data for 2010, the second hottest recorded in Greenland. Although they do not quantify the exact size and speed of the wave in the year 2010, the GPS data movement patterns indicate that it must have been less than the 2012 wavelength, but similar in speed.

Scientists theorize that previously known processes have been combined for mass movements so quickly. The huge volume of water lubricates the base of the glacier, allowing it to move faster, and the lateral margins softened as the glacier flows into rock or stationary ice. These changes have allowed the ice to slide downstream so quickly that the ice later inside the interior could not be maintained.

“We know for certain that the triggering mechanism was the melting of the surface of snow and ice, but we do not fully understand the complex processes that generate solitary waves,” said JPL scientist Surendra Adhikari, who led the study according to The space agency, the wave was not detected by the usual methods. The usual method is to measure glaciers of thinning with an air radar.

Pista is one of Greenland’s main outlets in the ocean, which drain some 11 billion tonnes of ice per year. However, during the summer of 2012, it lost 6 million million additional pieces in the form of a solitary wave. The loss of long pulse mass, called a solitary wave, is the new discovery. This could increase the potential for ice loss in Greenland supported as the climate warms up.
The study, published in the journal Geophysical Research Letters, describes the new discovery in detail.

29 May

NASA Lunar observation craft hit by meteoroid

NASA Lunar observation craft hit by meteoroid

NASA Lunar observation craft hit by meteoroid

In an extremely unlikely sequence of events, a camera on a NASA machine equipped with three cameras was struck by a meteorologist compiling an image, researchers determined. The Lunar Reconnaissance Orbiter called RSO was reached in 2014.
The researchers noticed that something was wrong when the ship taking pictures of the surface of the moon sent a strange image to the earth. The spacecraft is in orbit, so it takes images from one line at a time to adjust the motion and uses thousands of images online to compile a complete image.
The strange image that the RPG has returned to Earth after being struck by a meteorologist. Photo: NASA
The images are usually very detailed and high quality, so when the researchers got the unusual picture above, they began to work on what went wrong. Altering the image can be seen in light waves of the photo that are more serious in the center of the photo.
The researchers determined that the camera used to take the picture would be affected by something directly, possibly a meteorologist, when taking the photo. The researchers tested the cameras under turbulent conditions to ensure that take-off and launch would not have any detrimental effect on them. Using the same simulation used to test the cameras before takeoff, they have been tested under different conditions to try to reproduce the photo they had received from space, according to NASA.
A bullet hole – a small stone of the universe passed through our solar system. Glad to have lost his helmet. Pic.twitter.com/iBHFVfp1p8
– Chris Hadfield (@ Cmdr_Hadfield) April 29, 2013
What is a météoroute?
A meteorologist is about any piece of rock or iron that travels through space. They are smaller than asteroids and are generally small pieces that have broken the larger masses. Moons can also come off sometimes. When a meteorologist enters the atmosphere and breaks from Earth, it is called a meteor star or shot. They usually burn in the atmosphere, but if they do not, and just land on Earth, they are called meteorites.
This helped them determine the size of the meteorologist who also hit. He finally came to the conclusion that he was likely to size his head about half a hairpin and travel faster than a bullet is.
This event is so rare because the work only takes images in period brightness and even if it exceeds ten percent of that time image capture, according to Mark Robinson, principal investigator at the loom.
The RSO is still in space orbiting and gathering information because the event did not cause potential damage to the spacecraft or hindered it beyond the occasional photographic disturbance function.
“Given that the impact has not presented any technical problem to the health and safety of the instrument, the team only announce this as a fascinating example of how you can use the engineering data unexpectedly,” said John Keller, LRO A science project, according to NASA.
In 2013, an astronaut of the International Space Station Twitter a photo of the station a small hole in one of the solar panels of the station. The “bullet hole” that Canadian astronaut Chris Hadfield called was caused by a small meteor.
The ISS can navigate off the path of large asteroids if necessary, but we expect it to be hit with small space debris every few months, to Space.com a NASA spokesman. NASA scientists also spend time hunting large pieces of debris so that the ISS can prepare or move in a large amount of time if needed.

29 May

World’s first infrared telescope to decode universe mysteries

World's first infrared telescope to decode universe mysteries

World’s first infrared telescope to decode universe mysteries

The largest optical and infrared telescope in the world is being built in Chile, which will help scientists understand the inner workings of the universe.

With a primary mirror of 39 meters in diameter, the European Southern Observatory (ESO) builds Extremely Large Telescope (ELT).

Unlike any before, ELT is designed to be an adaptive telescope and has the ability to set atmospheric turbulence by taking the engineering telescope to a new level.

The future giant telescope installed in the year 2024 was built on the top of Cerro Armazones, a mountain peak 3046 meters in Chile.

Scientists at Oxford University play a key role in the project and are responsible for the design and construction of the spectrograph; “HARMONI”, an instrument designed to take pictures simultaneously 4000, each of a slightly different color.

The visible and near-infrared adaptive optics instrument operates the telescope to provide very sharp images.

“HARMONI” will allow scientists to form a more detailed picture of the formation and evolution of objects in the universe.

This will help researchers see everything from planets to our own solar system and stars in our own galaxy and nearby, with unprecedented depth and precision, formation and evolution of galaxies that have never been observed before.

“The ELT is a major step forward in capability, and that means we will use to find many interesting things about the universe that we do not have knowledge of today,” said Niranjan Thatte, principal investigator of ‘HARMONI’ and professor of astrophysics In the physics department of Oxford.

“This is the element of” the exploration of the unknown “that most excites me about the ELT. It will be an engineering piece, and its size and light weight will harm all the other telescopes we have built so far,” said Thatte.

“ELTs produce discoveries that we simply can not imagine today and certainly inspire many people in the world to think about science, technology and our place in the universe,” said Tim DE Zeeuw, CEO of ESO.

28 Apr

Internet of Things (IOT): A Vision, Future Directions and Challenges



The Internet of Things represents a vision in which the Internet extends into the real world embracing every­day objects. Physical items are no longer disconnected from the virtual world, but can be controlled remotely and can act as physical access points to Internet services. An Internet of Things makes computing truly ubiquitous a concept initially put forward by Mark Weiser in the early 1990s. This development is opening up huge opportunities for both the economy and individuals. However, it also involves risks and undoub­tedly represents an immense tech­nical and social challenge.

The Internet of Things vision is grounded in the belief that the steady advances in microelectronics, com­munications and information tech­nology we have witnessed in recent years will continue into the fore­seeable future. In fact, due to their diminishing size, constantly falling price and declining energy consump­tion – processors, communications modules and other electronic com­ponents are being increasingly inte­grated into everyday objects today. ‘Smart’ objects play a key role in the Internet of Things vision, since embedded communication and infor­mation technology would have the potential to revolutionize the utility of these objects. Using sensors, they are able to perceive their context, and via built-in networking capabilities they would be able to communicate with each other, access Internet services and interact with people. ‘Digitally upgrading’ conventional object in this way enhances their physical function by adding the capabilities of digital objects, thus generating substantial added value. Forerunners of this development are already apparent today—more and more devices such as sewing machi­nes, exercise bikes, electric toothbru­shes, washing machines, electricity meters and photocopiers a re’being
‘computerized’ and equipped with network interfaces.

In other application domains, Internet connectivity of everyday objects can be used to remotely deter­mine their state so that information systems can collect up-to-date infor­mation on physical objects and processes. This enables many aspects

of the real world to be ‘observed’ at a previously unattained level of detail and at negligible cost. This would not only allow for a better understanding of the underlying processes, but also far more efficient control and mana­gement . The ability to react to events in the physical world in an automatic, rapid and informed manner not only

Manufacturing Quick response to fluctuations in demand; maximized operational efficiency, safety and reliability, using smart sensors and digital control systems. Enhanced agility and flexibility, reduced energy consumption and carbon footprint.
Retail Stock-out prevention through connected and intelligent supply chains. Ability to predict consumer behaviour and trends, using data from video surveillance cameras, social media, internet and mobile device usage.
Supply Chain Real-time tracking of parts and raw materials, which Reduced working capital requirements, improved efficie-
helps organisations preempt problems, address demand fluctuations and efficiently manage all stages of manu­facturing. ncies and avoidance of dis­ruptions in manufacturing.
Infrastructure Smart lighting, water, power, fire, cooling, alarms and structural health systems. Environmental benefits and significant cost savings with better utilization of resources and preventive maintenance of critical systems.
Oil and Gas Smart components. Reduced operating casts and fuel consumption.
Insurance Innovative services such as pay-as-you-go insurance. Significant cost savings for both insurers and consumers.
Utilities Smart grids and meters. More responsive and reliable services; significant cost savings for both utilities and consumers resulting from demand-based and dynamic pricing features.
Source : Ericsson, M2M Magazine 2013, Zebra Consulting/Forester Research, IBM, McKinsey & Co. Data informed, ZDNet.

opens up new opportunities for deal­ing with complex or critical situa­tions, but also enables a wide variety of business processes to be optimized. The real-time interpretation of data from the physical world will most likely lead to the introduction of various novel business services and may deliver substantial economic and social benefits. The use of the word ‘Internet’ in the catchy term ‘Internet of Things’ which stands for the vision outlined above can be seen as either simply a metaphor—in the same way that people use the Web today, things will soon also communicate with each other, use services, provide data and thus generate added value—or it can be interpreted in a stricter tech­nical sense, postulating that an IP protocol stack will be used by smart things (or at least by the ‘proxies’, their representatives on the network).

Getting IoT Ready

Preparing the lowest layers of technology for the horizontal nature of the IoT requires manufacturers to deliver on the most fundamental challenges, including:

  • Connectivity : There will not be one connectivity standard that ‘wins’ over the others. There will be a wide variety of wired and wireless standards as well as proprietary implementations used to connect the things in the IoT. The challenge is getting the connectivity standards to talk to one another with one common worldwide data currency.
  • Power Management : More

things within the IoT will be battery powered or use energy harvesting to be more portable and self-sustaining. Line- powered equipment will need to be more energy efficient. The challenge is making it easy to add power management to these devices and equipment. Wireless charging will incorporate con­nectivity with charge manage­ment.

  • Security : With the amount of data being sent within the IoT, security is a must. Built-in hard­ware security and use of existing connectivity security protocols is essential to secure the IoT. Another challenge is simply educating consumers to use the security that is integrated into their devices.
  • Complexity : Manufacturers are looking to add connectivity to devices and equipment that has never been connected before to become part of the IoT. Ease of design and development is essential to get more things con­nected especially when typical RF programming is complex. Additionally, the average con­sumer needs to be able to set up and use their devices without a technical background.
  • Rapid Evolution : The IoT is constantly changing and evolv­ing. More devices are being added every day and the indus­try is still in its nascent stage. The challenge facing the industry is the unknown devices, unknown applications, unknown use cases. Given this, there needs to be flexibility in all facets of deve­lopment. Processors and micro­controllers that range from 16- 1500 MEIz to address the full spectrum of applications from a microcontroller (MCU) in a small, energy-harvested wireless sensor node to high-performance, multi-core processors for IoT infrastructure. A wide variety of wired and wireless connectivity technologies are needed to meet the various needs of the market. Last, a wide selection of sensors, mixed-signal and power-mana­gement technologies are required to provide the user interface to the IoT and energy-friendly designs

Compelling Benefits of IoT

IoT offers compelling business

benefits and value that organizations

cannot afford to ignore including cost

savings, improved revenues and

opportunities to innovate.

  • Cost Savings : Costs can be reduced through improved asset utilization, process efficiencies and productivity. Customers and organizations can benefit from improved asset utilization (g smart meters that eliminate manual meter readings) and service improvements (e.g., remote monitoring of patients in clinical settings). General Electric has estimated that if intelligent machines and analytics caused even a tiny reduction in fuel, capital expenditures and ineffi­ciencies, it would result in billions of dollars in cost savings.
  • Improved Asset Utilization

With improved tracking of asse: (machinery, equipment, took etc.) using sensors and connect vity, businesses can benefit fror real-time insights and visibility into their assets and suppL chains. For instance, they coul: more easily locate assets and rur preventive maintenance on crit- cal pieces of infrastructure an; machinery to improve through put and utilization.

  • Efficient Processes : Organiza­tions can use real-time opera­tional insights to make smarter business decisions and reduct operating costs. They can use real-time data from sensors an: actuators to monitor and improve process efficiency, reduce energ. costs and minimize human inter­vention.
  • Improved Productivity : Pro­ductivity is a critical parameter that affects the profitability or any organization. IoT improver organizational productivity h offering employees just-in-tirr training, reducing the mismatc: of required available skill: and improving labour efficiency

Future of IoT

The acceleration of IoT from loft concept to reality is predicated or the projected exponential growth c: smart devices and the confluence or low-cost infrastructure, connectivity and data. Declining device costs widespread and pervasive connecti­vity, and an ever-increasing focus or operational efficiency and producti­vity is leading to wide deployment or IoT splutions. In a 2012 survey b Zebra Consulting and Forester, only 15% of organizations had an IoT solution in place, but more than hah (53%) had plans to implement one ir. the next two years, and an additional 14% planned to implement in the next two to five years. Roughly 21’c of respondents from the transporta­tion and logistics sector indicated tha: an IoT solution was already in place.

  • Billions of Smart Devices are Becoming Connected : The num­ber of connected smart devices is exploding, with 50 billion devi­ces possible by 2020. Similarly machine-to-machine (M2M connections which are a key pan of the fabric of IoT are also or

PD/April/2016/98         “Hard work without talent is a shame, but talent without hard work is a tragedy.”