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The Garmin Vivoactive 3 GPS Smartwatch is now better-than-half-price in the Amazon Summer Sale

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the garmin vivoactive 3 gps smartwatch is now better than half price in the amazon summer sale

The Amazon Summer Sale 2020 is here! Amazon is discounting thousands of products over the next six days, including some epic savings on wireless and tech devices.

From great-value wireless headphones to innovative smartwatches and Amazon smart devices, the mega-retailer is offering a host of great deals that you won’t want to miss.  

Thanks to the Amazon Summer Sale you can now get the all-singing-all-dancing Garmin Vivoactive 3 GPS Smartwatch for a huge 53 per cent off. Now reduced to a very enticing £139.99, there has never been a better time to invest in a new smartwatch. 

The Garmin Vivoactive 3 GPS Smartwatch with Built-In Sports Apps and Wrist Heart Rate is now only £139.99 on Amazon- that's a saving of 53 per cent

The Garmin Vivoactive 3 GPS Smartwatch with Built-In Sports Apps and Wrist Heart Rate is now only £139.99 on Amazon- that's a saving of 53 per cent

The Garmin Vivoactive 3 GPS Smartwatch with Built-In Sports Apps and Wrist Heart Rate is now only £139.99 on Amazon- that’s a saving of 53 per cent

With over 8,000 reviews on Amazon and an overall score of 4.3 out of 5 stars, the Garmin Vicoactive 3 GPS Smartwatch is a hugely popular multi-purpose watch. 

There is something for everyone with this savvy timepiece. A fantastic choice for fitness enthusiasts in particular, the Garmin Vivoactive watch allows you to track your sporting achievements throughout the day with built-in GPS, sports apps and wrist-based heart rate.

Not only does it track your steps, but the Vivoactive 3 has 15 pre-loaded sports apps for you to use, so whatever you enjoy doing your smartphone will help you stay active. 

Whether you want to hit the golf course, go for a cycle, take to the pool or attend a yoga class, the built-in GPS tracks your activities with no need for a phone connection. 

Hate taking your phone out with you when on a run? With the Garmin Vivoactive watch you can pair it with a compatible smartphone to receive and respond to text messages on-the-go. The Garmin Pay also means you’ll have a virtual wallet on your wrist too, so you can pick up a coffee after your morning run without needing to carry card or cash with you.

The built in Garmin Pay means you can go on your run or bike ride without carrying your phone, card or cash

The built in Garmin Pay means you can go on your run or bike ride without carrying your phone, card or cash

The built in Garmin Pay means you can go on your run or bike ride without carrying your phone, card or cash 

The watch has up to seven days battery life in smartwatch mode; 13 hours in GPS mode

The watch has up to seven days battery life in smartwatch mode; 13 hours in GPS mode

The watch has up to seven days battery life in smartwatch mode; 13 hours in GPS mode

On top of all these features, the watch also allows you to track your heart rate variability (HRV), which is used to calculate and track your stress level. Stress levels getting high? Then the Garmin will alert you.

It has a seven-day battery life too- that’s almost twice as long as the popular FitBit Versa – in smartwatch mode, and 13 hours in GPS mode if you’re using it for maps, distance and location. 

One delighted customer wrote: ‘I have been wondering about getting a running watch for a year but always manged with phone apps. This has made me wish I had made the leap a long time ago. 

‘Very comfortable, easy to set up and customise. GPS is fantastic (easily links to Strava). Plenty of flexibility and features I am yet yo work though but has been great for monitoring running and cycling. Step counter, hear rate monitor etc all very good.’

Another added: ‘I use it to monitor my runs and I can’t find a fault. It is very reliable, accurate and it offers at a glance all information I need when running. In addition is highly customisable, very light and super comfortable.’

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Sicilian Mafia could be dismantled via social network analysis

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sicilian mafia could be dismantled via social network analysis

The Sicilian Mafia and similar criminal groups could be dismantled by using social network analysis to map members’ connections, a study has claimed.

Criminal networks like those underpinning the Sicilian Mafia have unusual features that make them both difficult to analyse but also resilient to outside disruption. 

Experts from the UK and Italy used data gathered by law enforcement on a real-life Mafia syndicate to test different ways of identifying the most crucial members.

They identified a technique that can pick out the individual members whose arrests would most disrupt the wider operation of the criminal organisation.

The method could be applied to help best target other criminal groups, including terrorist organisations.

The Mafia and similar criminal groups could be dismantled by using social network analysis to map member's connections, a study has claimed. Pictured, Marlon Brando playing Mafia don Vito Corleone in the 1972 American crime film 'The Godfather'

The Mafia and similar criminal groups could be dismantled by using social network analysis to map member's connections, a study has claimed. Pictured, Marlon Brando playing Mafia don Vito Corleone in the 1972 American crime film 'The Godfather'

The Mafia and similar criminal groups could be dismantled by using social network analysis to map member’s connections, a study has claimed. Pictured, Marlon Brando playing Mafia don Vito Corleone in the 1972 American crime film ‘The Godfather’

In their study, Lucia Cavallaro of the University of Derby, Annamaria Ficara of the University of Palermo and colleagues compiled data from wiretaps and stakeouts involving the activities of two Mafia clans active in southern Italy in the early 2000s.

‘Our datasets relate to a Mafia syndicate acting as a link between prominent criminal families operating in the two main cities of southern Italy — Palermo and Catania,’ Dr Cavallero said.

‘Phone calls were derived from eavesdropping and the meetings from police surveillance.’

From this data, the team created simulations of the criminal network — and tested out ways to measure each member’s individual level of influence within such.

This allowed the researchers to determine the best analytical method for law enforcement to use to select effective targets for individual arrests or police raids.

The researchers found that a network-measuring approach called ‘betweenness centrality’ was the most effective at selecting the targets whose arrest would most disrupt the simulated criminal network.

This approach works well, the experts explained, because it was good at identifying those individuals that play important roles in maintaining different paths of communication within the criminal network. 

‘By neutralising fewer than five percent of the affiliate — either through sequential arrests or police raids — the efficiency of the network dropped by 70 per cent,’ Dr Cavallero explained.

In their study, the researchers compiled data from wiretaps and stakeouts involving the activities of two Mafia clans active in southern Italy in the early 2000s. From this data, the team created simulations of the criminal network (pictured, maps made from meeting surveillance, left, and phone calls, right) ¿ and tested out ways to measure each member's individual level of influence within such

In their study, the researchers compiled data from wiretaps and stakeouts involving the activities of two Mafia clans active in southern Italy in the early 2000s. From this data, the team created simulations of the criminal network (pictured, maps made from meeting surveillance, left, and phone calls, right) ¿ and tested out ways to measure each member's individual level of influence within such

In their study, the researchers compiled data from wiretaps and stakeouts involving the activities of two Mafia clans active in southern Italy in the early 2000s. From this data, the team created simulations of the criminal network (pictured, maps made from meeting surveillance, left, and phone calls, right) — and tested out ways to measure each member’s individual level of influence within such

‘Compared to other types of social networks, criminal networks present particularly hard challenges,’ said Dr Cavallero.

‘Our work has significant practical applications for perturbing the operations of criminal and terrorist networks.’

The researchers have made their datasets and analytical source code publicly available online for other experts and law enforcement agencies to work with.

With this study complete, the team said that potential avenues for future researcher might include analysing how criminal networks reorganise after disruption.

The full findings of the study were published in the journal PLOS ONE.

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Microbes beneath the seafloor found living on fifty-billion-billion times less energy than a human’

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microbes beneath the seafloor found living on fifty billion billion times less energy than a human

Tiny microbes living underneath the seafloor have been found surviving on a fraction of the energy a human needs to live – setting a new lower energy limit for life.

An international team of researchers led by Queen Mary University of London used data from the sub-seafloor to create a new global picture of the ocean biosphere.

They discovered that microorganisms buried in sediment beneath the seafloor can survive on less energy than was previously known to support life. 

The study has implications for understanding the limit of life on Earth and the potential for life elsewhere in the solar system, the team said.

The team behind the study are pictured here carrying a sediment core on the catwalk of the ship they used as a base of operations

The team behind the study are pictured here carrying a sediment core on the catwalk of the ship they used as a base of operations

The team behind the study are pictured here carrying a sediment core on the catwalk of the ship they used as a base of operations

Researchers combined data on the distribution and amounts of carbon and microbial life contained in Earth’s biosphere with the rate of chemical reactions.

Using this information they were able to determine the ‘power’ consumption of individual microbial cells – in other words – the rate at which they utilise energy. 

All life on Earth constantly uses energy in order to remain active, sustain metabolism, and carry out essential functions such as growth, and the repair of biomolecules.

The results show that sub-seafloor microbes survive using far less energy than has ever previously been shown to support any form of life on Earth. 

By stretching the ‘habitable boundaries of life’ to include lower energy environments – the team hope this could help them work out how early life started on Earth. 

Dr James Bradley, Lecturer in Environmental Science at Queen Mary said we tend to think about plants, animals, algae and bacteria when we think about life on Earth.

Photograph taken from ALVIN, a manned deep-ocean research submersible, taking sediment cores at the ocean floor of the Dorado Outcrop in 2014

Photograph taken from ALVIN, a manned deep-ocean research submersible, taking sediment cores at the ocean floor of the Dorado Outcrop in 2014

Photograph taken from ALVIN, a manned deep-ocean research submersible, taking sediment cores at the ocean floor of the Dorado Outcrop in 2014

‘Yet here we show that an entire biosphere of microorganisms – as many cells as are contained in all of Earth’s soils or oceans, have barely enough energy to survive. 

‘Many of them are simply existing in a mostly inactive state – not growing, not dividing, and not evolving. These microbes use less energy than we previously thought was possible to support life on Earth.’

The average human uses about 100 watts of power – or about the power of a ceiling fan or two lightbulbs, the researchers explained. 

‘We calculate that the average microbe trapped in deep ocean sediments survives on fifty-billion-billion times less energy than a human,’ said Bradley.

Jan Amend, Director of the Center for Dark Energy Biosphere Investigations (C-DEBI) at the University of Southern California, and co-author of the study, said previously studies of the sub-seabed focused on how much life is there. 

‘Now we’re digging deeper into ecological questions: what is it doing, and how fast is it doing it? Understanding the power limits of life establishes an essential baseline for microbial life on Earth and elsewhere,’ said Amend.

The findings raise fundamental questions about our definitions of what constitutes life, as well as the limits of life on Earth, and elsewhere. 

With such little energy available, it is unlikely that organisms are able to reproduce or divide, but instead use this miniscule amount of energy for ‘maintenance’ – replacing or repairing their damaged parts. 

It is likely, therefore, that many of the microbes found at great depths beneath the seafloor are remnants from populations that inhabited shallow coastal settings thousands to millions of years ago. 

Unlike organisms on the surface of Earth, which operate on daily and seasonal) timescales according to the Sun, these deeply microbes exist on much longer timescales, such as the movement of tectonic plates.

The research also sheds light on how the microbes interact with chemical processes occurring deep below the seafloor. 

Whilst oxygen provides the highest amount of energy to microbes, it is in overwhelmingly short supply – present in less than 3 per cent of sediments.

Photograph taken from ALVIN, a manned deep-ocean research submersible, taking sediment cores at the ocean floor of the Dorado Outcrop in 2014.

Photograph taken from ALVIN, a manned deep-ocean research submersible, taking sediment cores at the ocean floor of the Dorado Outcrop in 2014.

Photograph taken from ALVIN, a manned deep-ocean research submersible, taking sediment cores at the ocean floor of the Dorado Outcrop in 2014.

Anoxic sediments, however, are far more widespread, often containing microorganisms that obtain energy by generating methane – a greenhouse gas. 

Despite being practically inactive, the microbial cells contained in Earth’s marine sediments are so numerous, and survive over such extraordinarily long timescales, that they act as an important driver of earth’s carbon and nutrient cycles.

They even affect the concentration of CO2 in earth’s atmosphere over thousands to millions of years.

‘The findings of the research call into question not just the nature and limits of life on Earth, but elsewhere in the Universe,” added Dr Bradley. 

‘If life does exist on Mars or Europa for example, it would most likely take refuge in the subsurface of these energy-limited planetary bodies. 

‘If microbes only need a few zeptowatts of power to survive, there could be remnants of extant life, long dormant but still technically ‘alive’, under their surface.’

The results have been published in the journal Science Advances.

KEY DISCOVERIES IN HUMANITY’S SEARCH FOR ALIEN LIFE

Discovery of pulsars

British astronomer Dame Jocelyn Bell Burnell was the first person to discover a pulsar in 1967 when she spotted a radio pulsar.

Since then other types of pulsars that emit x-rays and gamma rays have also been spotted.

Pulsars are essentially rotating, highly magnatised neutron stars but when they were first discovered it was believed they could come from aliens.

‘Wow!’ radio signal

In 1977, an astronomer looking for alien life in the nigh sky above Ohio spotted a powerful radio signal so strong that he excitedly wrote ‘Wow!’ next to his data.

In 1977, an astronomer looking for alien life in the nigh sky above Ohio spotted a powerful radio signal so strong that he excitedly wrote 'Wow!' next to his data

In 1977, an astronomer looking for alien life in the nigh sky above Ohio spotted a powerful radio signal so strong that he excitedly wrote 'Wow!' next to his data

In 1977, an astronomer looking for alien life in the nigh sky above Ohio spotted a powerful radio signal so strong that he excitedly wrote ‘Wow!’ next to his data

The 72-second blast, spotted by Dr Jerry Ehman through a radio telescope, came from Sagittarius but matched no known celestial object.

Conspiracy theorists have since claimed that the ‘Wow! signal’, which was 30 times stronger than background radiation, was a message from intelligent extraterrestrials.

Fossilised martian microbes

In 1996 Nasa and the White House made the explosive announcement that the rock contained traces of Martian bugs.

The meteorite, catalogued as Allen Hills (ALH) 84001, crashed onto the frozen wastes of Antarctica 13,000 years ago and was recovered in 1984. 

Photographs were released showing elongated segmented objects that appeared strikingly lifelike.

Photographs were released showing elongated segmented objects that appeared strikingly lifelike (pictured)

Photographs were released showing elongated segmented objects that appeared strikingly lifelike (pictured)

Photographs were released showing elongated segmented objects that appeared strikingly lifelike (pictured)

However, the excitement did not last long. Other scientists questioned whether the meteorite samples were contaminated. 

They also argued that heat generated when the rock was blasted into space may have created mineral structures that could be mistaken for microfossils. 

Behaviour of Tabby’s Star in 2005 

The star, otherwise known as KIC 8462852, is located 1,400 light years away and has baffled astonomers since being discovered in 2015.

It dims at a much faster rate than other stars, which some experts have suggested is a sign of aliens harnessing the energy of a star.

The star, otherwise known as KIC 8462852, is located 1,400 light years away and has baffled astonomers since being discovered in 2015 (artist's impression)

The star, otherwise known as KIC 8462852, is located 1,400 light years away and has baffled astonomers since being discovered in 2015 (artist's impression)

The star, otherwise known as KIC 8462852, is located 1,400 light years away and has baffled astonomers since being discovered in 2015 (artist’s impression)

Recent studies have ‘eliminated the possibility of an alien megastructure’, and instead, suggests that a ring of dust could be causing the strange signals.

Exoplanets in the Goldilocks zone in 2015 

In February this year astronomers announced they had spotted a star system with planets that could support life just 39 light years away.

Seven Earth-like planets were discovered orbiting nearby dwarf star ‘Trappist-1’, and all of them could have water at their surface, one of the key components of life.

Three of the planets have such good conditions, that scientists say life may have already evolved on them. 

Researchers claim that they will know whether or not there is life on any of the planets within a decade, and said ‘this is just the beginning.’ 

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Brain-computer interfaces like Elon Musk’s Neuralink at risk

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brain computer interfaces like elon musks neuralink at risk

Elon Musk plans to link human brains to computers using tiny implants, but a new report warns the implants could leave us vulnerable to hackers.

Speaking with Zdnet, Experts said cybercriminals can access these brain-computer interfaces (BCIs) to erase your skills and read thoughts or memories – a breach worse than any other system.

To make the technology secure, systems need to ‘ensure that no unauthorized person can modify their functionality.’

This could mean using similar security protocols found in smartphones such as encryption to antivirus software.

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Elon Musk plans to link human brains to computers, but a new report warns the implants could leave us vulnerable to hackers

Elon Musk plans to link human brains to computers, but a new report warns the implants could leave us vulnerable to hackers

Elon Musk plans to link human brains to computers, but a new report warns the implants could leave us vulnerable to hackers

Musk has been working on his startup Neuralink since 2016, which he says will one-day human brains to computers in order to avoid our species from being outpaced by artificial intelligence.

The billionaire has shared the BCI would help cure injuries, depression and other ailments that plague the human body.

However, the technology may be too good to be true, as researchers have come forward to share the horrors that could await.

The chip could open a window for hackers to invade thoughts or memories of political officials, military personnel and other thieves attempting to carry out their own digital attacks, Jo Best with Zdnet reports.

Neuralink, which was founded in 2016, is designing tiny flexible 'threads' that are ten times thinner than a human hair and can be inserted directly into the brain.  Experts say hackers can access these brain-computer interfaces (BCIs) to erase your skills and read thoughts

Neuralink, which was founded in 2016, is designing tiny flexible 'threads' that are ten times thinner than a human hair and can be inserted directly into the brain.  Experts say hackers can access these brain-computer interfaces (BCIs) to erase your skills and read thoughts

Neuralink, which was founded in 2016, is designing tiny flexible ‘threads’ that are ten times thinner than a human hair and can be inserted directly into the brain.  Experts say hackers can access these brain-computer interfaces (BCIs) to erase your skills and read thoughts

The tech tycoon explained that the device is about one inch in diameter, similar to the face of a smart watch, and is implanted by removing a small chunk of the skull

The tech tycoon explained that the device is about one inch in diameter, similar to the face of a smart watch, and is implanted by removing a small chunk of the skull

The tech tycoon explained that the device is about one inch in diameter, similar to the face of a smart watch, and is implanted by removing a small chunk of the skull 

A breach of this type of data would surpass any we have ever seen before.

Dr Sasitharan Balasubramaniam, director of research at the Waterford Institute of Technology’s Telecommunication Software and Systems Group (TSSG), told Zdnet: ‘What type of damage will [an attack] do to the brain, will it erase your skills or disrupt your skills?’

‘What are the consequences – would they come in the form of just new information put into the brain, or would it even go down to the level of damaging neurons that then leads to a rewiring process within the brain that then disrupts your thinking.’

‘It’s not only at the information level, it could also be the physical damage as well.’

The report lays out a number of attacks that could be carried out if the brain chips fell into the wrong hands.

Hackers could intercept data traveling from the BCI to the brain, allowing them to gather sensitive data such as logins for emails and other systems

Hackers could intercept data traveling from the BCI to the brain, allowing them to gather sensitive data such as logins for emails and other systems

Hackers could intercept data traveling from the BCI to the brain, allowing them to gather sensitive data such as logins for emails and other systems

Hackers could intercept data traveling from the BCI to the brain, allowing them to gather sensitive data such as logins for emails and other systems.  

Researchers note that malicious software could be transmitted to the technology, allowing attackers to show the user images or feed fake versions of the neural inputs to control the BCI. 

The teams do not believe all is lost, but urge BCI creators to take a multi-layered security approach when designing their systems including antivirus software and encryption.

Musk is the top dog in the brain chip business and is set to release news of a possible working prototype August 28. 

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