In a recent official statement, a representative of the United Nations (UN) said that the popular WhatsApp messenger is not safe software.
Due to security concerns, the UN has banned its officials from using the messaging app since June 2019.
What are the roots of this accusation? Recall, the other day there was information that the crown prince of Saudi Arabia, Mohammed bin Salman (Mohammed bin Salman) may be directly related to hacking the smartphone Jeff Bezos, founder of Amazon. Allegedly, an encrypted message was sent from his phone via WhatsApp that contained a malicious file.
Each UN official was instructed to refrain from u
sing WhatsApp for official communication since this messenger is not safe. UN spokesperson Farhan Haq
At the same time, WhatsApp developers claim that 1.5 billion people use the best messenger in the industry, including in terms of security.
Each message is secured using end-to-end encryption to prevent messages from being viewed on WhatsApp or unwanted third-party sources.
Our encryption technology, developed in conjunction with Signal, remains the best to date and is highly regarded by security experts. Carl Woog, Director of Communications,WhatsApp.
Google will not develop artificial intelligence for use in weapons, surveillance violating internationally accepted norms or technologies were the risks substantially outweigh the benefits.
These were the principles outlined by Google AI Lead Jeff Dean at an event aimed at highlighting how the tech giant is making good use of its expertise in AI and machine learning – a project the company has dubbed “AI for Social Good”.
Machine learning is the ability of machines to receive data and learn for themselves without being programmed with rules.
Apart from using ML for its own products and research, Google is working with several partners to provide solutions for problem either too vast or complex for humans
“We believe AI can help tackle some of the most difficult social and environmental challenges of our times, and not just in computer science but in areas where you necessarily expect it like healthcare, environmental conservation and agriculture,” Jeff Dean said in the keynote.
Product Manager for Google Health Lily Peng said the company’s AI ventures were helpful in the field of healthcare – primarily in lung cancer screening and breast cancer metastases detection.
“We believe that technology can have a big impact in medicine, helping democratise access to care, returning attention to patients and helping researchers make scientific discoveries,” she said.
Lung cancer results in over 1.7 million deaths per year and is the sixth most common cause of death globally.
Evidence has shown early detection is the best treatment, however radiologists are often forced to search for minuscule signs of cancer from hundreds of 2D images captured during a single CT scan.
Google’s machine learning model can create a 3D image of the scans and search for subtle malignant tissue in the lungs – it can also factor in information from previous scans.
When using a single CT scan for diagnosis, Google’s model performed better than six radiologists. It detected five percent more cancer cases while reducing false-positive exams by more than 11 percent compared to unassisted radiologists in its research.
In breast cancer metastases detection, Google says its machine learning model can find 95 per cent of cancer lesions in pathology images – pathologists can generally only detect 73 per cent.
Humpback whale populations are currently listed as endangered as a result of whaling practices.
To give the at-risk marine species a better chance for survival, Google has partnered with National Oceanic and Atmospheric Administration (NOAA) to create a solution.
The bio-acoustics project used 19 years worth of underwater audio data collected by NOAA to train Google’s neural network to identify the call of a humpback whale.
Product Manager at Google AI Julie Cattiau said machine learning is able to distinguish the sound of humpback whales easily from other similar sounds – something humans struggled to do.
“We started by turning the underwater audio data into a visual representation of the sound called a spectrogram, and then showed our algorithm many example spectrograms that were labelled with the correct species name,” Google explained.
“The more examples we can show it, the better our algorithm gets at automatically identifying those sounds.”
The machine learning program gives a better understanding of where humpback whales live and where they travel.
“In the future, we plan to use our classifier to help NOAA better understand humpback whales by identifying changes in breeding location or migration paths, changes in relative abundance,” Google explained.
ALS is neuro-degenerative condition that can result in the inability to speak and move.
By collaborating non-profit ALS organisations, Google has been recording the voices of people suffering the condition to optimise AI based algorithms so that mobile phones and computers can transcribe speech of people with impairments.
“The first step of our research effort is to ask volunteers to record voice samples that we can use to improve our speech recognition models. Once we have enough recordings from someone, our team builds a personalised communication system that works specifically for people who recorded their voice,” said Google AI Product Manager Julie Cattiau.
“Our AI algorithms currently aim to accommodate individuals who speak English and have impairments typically associated with ALS, but we believe that our research can be applied to larger groups of people and to different speech impairments.”
In addition to improving speech recognition, Google is also training personalised AI algorithms to detect sounds or gestures which generate spoken commands to Google Home.
The tech giant showcased the potential in a video (see above) with an ALS patient using non-speech sounds to trigger smart home devices such as lights and facial gestures to cheer during a sports game.
Software engineering manager at Google AI Sella Nevo has been working on a machine learning project that will better predict areas that will hit by devastating floods.
“The reason we do this work is to be able to warn people and protect them… We’re working to give people even more information and alert them early,” he said.
Mr Nevo said flood forecasting is currently based on low-resolution elevation maps that are nearly two decades old, making it virtually impossible to accurately predict affected areas.
However, by using machine learning models combined with satellite imagery and data from government agencies, researchers have been able to develop the Flood Forecasting Initiative.
Google launched a pilot program in India last year as the country accounts for nearly 20 per cent of the flood-related fatalities in the world- nearly 107,487 were recorded as a result of heavy rains and floods between 1953 and 2017.
The pilot program ran hundreds of thousands of simulations on its machine learning models ahead of a flooding natural disaster in Patna, India last year.
It predicted the regions affected by the flood with an accuracy of over 90 per cent, with the tech giant alerting those at risk using notifications on smartphones.
SURELY IT CAN’T ALL BE GOOD
At the core of the concept is Google’s TensorFlow – an end-to-end open source platform for machine learning.
Google AI Lead Jeff Dean said projects on the the company’s cloud services have restrictions, but admits the tech giant reluctantly has to accept those taking the open-source technology and using it for dubious purposes.
One possible example would be the whale tracking technology being used by illegal whalers.
“One of the things we decided when we open-sourced TansorFlow was to make it very flexible. Take it and do what you want with it,” he explained
“I think there is an issue that one could use it to build a higher level machinery do particular things that we might find not so great.”
Elon Musk wants to insert Bluetooth-enabled implants into your brain, claiming the devices could enable telepathy and repair motor function in people with injuries.
Speaking on Tuesday, the CEO of Tesla and SpaceX said his Neuralink devices will consist of a tiny chip connected to 1,000 wires measuring one-tenth the width of a human hair.
The chip features a USB-C port, the same adaptor used by Apple’s Macbooks, and connects via Bluebooth to a small computer worn over the ear and to a smartphone, Musk said.
“If you’re going to stick something in a brain, you want it not to be large,” Musk said, playing up the device’s diminutive size.
Neuralink, a startup founded by Musk, says the devices can be used by those seeking a memory boost or by stroke victims, cancer patients, quadriplegics or others with congenital defects.
The company says up to 10 units can be placed in a patient’s brain. The chips will connect to an iPhone app that the user can control.
The devices will be installed by a robot built by the startup. Musk said the robot, when operated by a surgeon, will drill 2 millimetre holes in a person’s skull.
The chip part of the device will plug the hole in the patient’s skull.”The interface to the chip is wireless, so you have no wires poking out of your head.
That’s very important,” Musk added.Trials could start before the end of2020, Musk said, likening the procedure to Lasik eye correction surgery, which requires local anaesthetic.
Musk has said this latest project is an attempt to use artificial intelligence (AI) to have a positive affect on humanity. He has previously tried to draw attention to AI’s potential to harm humans.
He has invested some $100 million in San Francisco-based Neuralink, according to the New York Times.
Musk’s plan to develop human computer implants comes on the heels of similar efforts by Google and Facebook.
But critics aren’t so sure customers should trust tech companies with data ported directly from the brain.
“The idea of entrusting big enterprise with our brain data should create a certain level discomfort for society,” said Daniel Newman, principal analyst at Futurum Research and co-author of the book Human/Machine.
“There is no evidence that we should trust or be comfortable with moving in this direction,” he added.
While the technology could help those with some type of brain injury or trauma, “Gathering data from raw brain activity could put people in great risk, and could be used to influence, manipulate and exploit them,” Frederike Kaltheuner of Privacy International told CNN Business.
“Who has access to this data? Is this data shared with third parties? People need to be in full control over their data.”
Humans’ distant ancestor Australopithecus africanus had a unique approach to raising their young, as shown in our new research published today in Nature.
Geochemical analysis of four teeth shows they exclusively breastfed infants for about 6-9 months, before supplementing breast milk with varying amounts of solid food until they were 5-6 years old. The balance between milk and solid food in this period varied cyclically, probably in response to seasonal changes in food availability.
This knowledge is useful on several fronts. From an evolutionary point of view, it helps us understand the particular biological and behavioural adaptations of Australopithecus africanus compared to other extinct human ancestors and modern humans.
However, breastfeeding for up to 5-6 years is metabolically expensive – it requires a certain input of calories for the lactating mother. Using milk as a supplemental food for older offspring may have hampered the ability of the A. africanus species to successfully survive during a period of substantially changing climate.
Perhaps this way of life hastened the extinction of A. africanus around 2 million years ago.
A puzzling hominin
A. africanus was first discovered in 1924 by Australian-born scientist Raymond Dart at Taung in South Africa, and represented the first early human ancestor identified from Africa.
A century of excavation and research later, Taung and other sites across South Africa produced a rich record of early human ancestors. This region is now a UNESCO World Heritage Site known as “The Cradle of Humankind”.
This hominin species, a member of the human evolutionary lineage, had a mixture of ape-like characteristics and more specialised ones. It has only been recovered from fossil sites in South Africa that date to between 3 million and 2 million years ago.
Because only a few specimens exist, we have little information about how A. africanuslived and its relationship to other fossil hominin species such as the eastern African species of Australopithecus, the robust Paranthropus, and our own genus, Homo.
Jose Garcia and Renaud Joannes-Boyau
Our research takes advantage of cutting-edge analytical techniques. We used a laser to zap tiny pieces off fossil teeth, and then used an instrument called a mass spectrometer to determine their chemical composition.
This is much less destructive than traditional methods that require the sample to be crushed and dissolved before analysis. This makes it a crucial technique for rare specimens such as those of A. africanus.
Our laser method also allowed us to map the composition of a specimen across the entire surface of a tooth – illuminating changes in diet, mobility or climate through time. This is an important advance, as it can reveal information that has been impossible to establish using conventional palaeontological methods.
Schematic diagram of the use of laser ablation analysis to map the concentration of strontium and uranium within a tooth.
Renaud Joannes-Boyau, Author provided
In this study, we mapped changes in the concentration of barium, strontium and lithium in fossil teeth of two individuals. The amounts of these elements in our bodies can change significantly depending on our diet, and these changes are reflected in the composition of our bones and teeth.
While our bones continue to change composition as they remodel during our lives, our teeth don’t change after they form during childhood. Teeth are thus a perfect chemical time capsule of our childhood diet.
The samples we analysed from A. africanus show a different pattern, with cyclical fluctuations in barium concentration. This suggests mothers would increase or reduce the amount of additional food, probably depending on the availability of other resources. This is an adaptation to food stress also used by modern orangutans.
The concentration of lithium in these teeth also varies cyclically, although not always at the same time as barium. The precise cause of lithium variations is still unclear but it seems to be linked to variations in body fat reserves or how much protein is eaten.
This suggests A. africanus regularly faced food stress, causing their diet and/or fat reserves to change with the seasons.
Australopithecus africanus canine showing a first period of nursing behaviour followed by a cyclical signal in the lithium, strontium and barium distribution.
We compared the results from A. africanus to modern animals from similar savannah biome regions, which supported our results by showing cyclical signal linked to seasonal variations mix with another signal interpreted as cyclical breastfeeding also seen in mdoern orangutans.
Close to home
We also investigated the strontium isotope composition of these teeth to help understand where A. africanus was moving through the landscape. Isotopes of the same element can be distinguished by their mass.
Strontium isotopes are often used for this purpose in palaeontology, as different regions have characteristic isotope values that are taken up through food and drink.
The two A. africanus individuals in our study seemed to have lived most of their lives near the Sterkfontein cave where their remains were found.
Living in a region with limited food resources meant these early hominins would have eaten lots of different kinds of foods collected from varying habitats in order to survive.
Our research provides the first understanding of the nursing behaviour of A. africanus. We now know this hominin had an extended period of breastfeeding supplemented by varying amounts of solid food that caused their fat reserves to fluctuate significantly.
This was likely part of a largely successful survival strategy for the species.