Australia’s coast, being both great surf territory as well as a primo shark habitat, is getting a technological upgrade to keep the swimmer-fish twain from meeting: A shark-spotting drone nicknamed the “Little Ripper.”
A joint venture between Aussie philanthropist Ken Weldon and Aussie bank Westpac, the $250,000 battery-powered unmanned helicopter will be deployed in the skies above New South Wales. On Sunday, New South Wales Premier Mike Baird heralded the drone as the future of oceanic search and rescue.
The Little Ripper will be able to monitor the shore for an hour before its battery kaputs, according to the Sydney Morning Herald. It’s part of a push for non-lethal, greener shark attack deterrents in Australia, where encounters are reportedly rising. They’re still fairly rare — as of November, there were 14 shark attacks off the Australian coast in 2015, reports The Guardian — but that’s a spike from the typical average of five or so. A separate $16 million shark detection initiative in New South Wales also includes buoys with advanced sonar that can, according to its creators, detect sharks 90 percent of the time.
The person in the article is not very smart. 1st you never offer a tempting challenge to a hacker in public forum. I have known too many and followed to many since the 80’s. 2nd, house burgulars are not even close to the calibur of hackers.
I own a 2013 Nissan LEAF SV with telematics functions known as CARWINGS. CARWINGS connected to my car via an app also called NissanConnect EV that was hacked by Troy Hunt and came into to the news this week. Nissan issued two different statements about the hack and eventually shut off the app completely.
LEAF owners are concerned that because the app was easy to-hack with the LEAF’s VIN number that access could be used for malicious use.
The LEAF’s VIN number can be clearly seen through the windshield.
If the human race is to survive in the long-run, we will probably have to colonise other planets. Whether we make the Earth uninhabitable ourselves or it simply reaches the natural end of its ability to support life, one day we will have to look for a new home.
Hollywood films such as The Martian and Interstellar give us a glimpse of what may be in store for us. Mars is certainly the most habitable destination in our solar system, but there are thousands of exoplanets orbiting other stars that could be a replacement for our Earth. So what technology will we need to make this possible?
We effectively already have one space colony, the International Space Station (ISS). But it is only 350km away from Earth and relies on a continuous resupply of resources for its crew of six. Much of the technology developed for the ISS, such as radiation shielding, water and air recycling, solar power collection, is certainly transferable to future space settlements. However, a permanent space colony on the surface of another planet or moon adds a new set of challenges.
Scientists see cislunar outpost as critical to advancing future Mars missions.
NASA researchers based in Colorado are devising efforts to build a human outpost in cislunar space — the region around the moon. Unfortunately for fans of space tourism, these outposts are not designed to be the Airbnb of tomorrow. Rather, the habitats are to be used as in-between points to facilitate travel to near-Earth asteroids or Mars.
Scientists and engineers at NASA’s Next Space Technologies for Exploration Partnerships (NextSTEP) Projects are researching life-support needs, updating astronaut radiation protection, and rethinking communication systems, to enhance the habitability of orbital communities parked in cislunar space.
Google Fiber is heading close to home for its next location: San Francisco. Google announced this morning that it intends to bring its fast gigabit internet to “a portion of San Francisco,” specifically to apartments, condos, and affordable housing units. Details on exactly where and when are nonexistent for now, and Google suggests that we may be waiting a while to hear more.
What Google Fiber does say is that it won’tbe building out its own network in San Francisco, as it’s done in many other cities. Instead, it’ll rely on existing fiber networks to provide its service. That may limit what Google can do and where it can go, but it also means a much faster path to launch. “To date, we’ve focused mostly on building fiber-optic networks from scratch,” Michael Slinger, Google Fiber’s business operations director, writes in a blog post. “Now, as Google Fiber grows, we’re looking for more ways to serve cities of different shapes and sizes.” Google Fiber is already taking this approach in a couple other markets, including Huntsville, Alabama, where earlier this week it announced plans to launch using the city’s municipal network.
As it’s done elsewhere, Google Fiber plans to provide free gigabit internet service to “some public and affordable housing properties” in San Francisco. It’s also working with a nonprofit to teach people basic internet skills, like setting up an email account and applying for jobs.
Audience viewing “Seeking Home: Life Inside the Calais Migrant Camp,” a VR experience placing viewers at the center of the migrant camp via Samsung Gear VR. (AP Photo)
I am not an astronomer or astrophysicist. I have never worked for NASA or JPL. But, during my graduate year at Cornell University, I was short on cross-discipline credits, and so I signed up for Carl Sagan’s popular introductory course, Astronomy 101. I was also an amateur photographer, occasionally freelancing for local media—and so the photos shown here, are my own.
Carl Sagan is aware of my camera as he talks to a student in the front row of Uris Hall
By the end of the 70’s, Sagan’s star was high and continuing to rise. He was a staple on the Tonight Show with Johnny Carson, producer and host of the PBS TV series, Cosmos, and he had just written Dragons of Eden, which won him a Pulitzer Prize. He also wrote Contact, which became a blockbuster movie, starring Jodie Foster.
Sagan died in 1996, after three bone marrow transplants to compensate for an inability to produce blood cells. Two years earlier, Sagan wrote a book and narrated a film based on a photo taken from space.
Pale Blue Dot is a photograph of Earth taken in February 1990, by Voyager 1 from a distance of 3.7 billion miles (40 times the distance between earth and the sun). At Sagan’s request (and with some risk to the ongoing scientific mission), the space probe was turned around to take this last photo of Earth. In the photo, Earth is less than a pixel in size. Just a tiny dot against the vastness of space, it appears to be suspended in bands of sunlight scattered by the camera lens.
Four years later, Sagan wrote a book and narrated the short film, Pale Blue Dot, based on the landmark 1990 photograph. He makes a compelling case for reconciliation between humans and a commitment to care for our shared environment. In just 3½ minutes, he unites humanity, appealing to everyone with a conscience. [Full text]
—Which brings us to a question: How are we doing? Are we getting along now? Are we treating the planet as a shared life-support system, rather than a dumping ground?
Sagan points out that hate and misunderstanding plays into so many human interactions. He points to a deteriorating environment and that that we cannot escape war and pollution by resettling to another place. Most importantly, he forces us to face the the fragility of our habitat and the need to protect it. He drives home this point by not just explaining it, but by framing it as an urgent choice between life and death.
It has been 22 years since Sagan wrote and produced Pale Blue Dot. What has changed? Change is all around us, and yet not much has changed. To sort it all out, let’s break it down into technology, our survivable timeline and sociology.
Technology & Cosmology
Since Carl Sagan’s death, we have witnessed the first direct evidence of exoplanets. Several hundred have been observed and we will likely find many hundreds more each year. Some of these are in the habitable zone of their star.
Sagan died about 25 years after the last Apollo Moon mission. It is now 45 years since those missions, and humans are still locked into low earth orbits. We have sent a few probes to the distant planets and beyond, but the political will and resources to conduct planetary exploration—or even return to the moon—is weak.
A few private companies are launching humans, satellites or cargo into Space (Space-X, Virgin Galactic, Blue Origin). Dozens of other private ventures have not yet achieved manned flight or an orbital rendezvous, but it seems likey that some projects will succeed. Lift off is becoming commonplace—but almost all of these launches are focused on TV, communications, monitoring our environment or monitoring our enemies. The space program no longer produces the regular breakthroughs and commercial spin-offs that it did throughout the 70s and 80s. continue below photo…
Sagan explains the Drake Equation. (Click for 2 photos with solution)
Survivable Timeline
Like most scientists, Carl Sagan was deeply concerned about pollution, nuclear proliferation, loss of bio-diversity, war and global warming. In fact, the debate over global warming was just beginning to heat up in Sagan’s last years. Today, there is no debate over global warming. All credible scientists understand that the earth is choking, and that our activities are contributing to our own demise.
In most regions, air pollution is slightly less of a concern than it was in the 1970s, but ground, water pollution, and radiation contamination are all more evident.
Most alarmingly, we humans are even more pitched in posturing and in killing our neighbors than ever before. We fight over land, religion, water, oil, and human rights. We especially fight in the name of our Gods, in the name of national exceptionalism and in the name of protecting our right to consume disposable luxury gadgets, transient thrills and family vacations—as if we were a prisoner consuming his last meal.
We have an insatiable appetite for raw materials, open spaces, cars and luxury. Yet no one seems to be doing the math. As the vast populations of China and India finally come to the dinner table (2 billion humans), it is clear that they have the wealth to match our gluttony. From where will the land, water, and materials come? And what happens to the environment then? In Beijing, the sky is never blue. Every TV screen is covered in a thick film of dust. On many days, commuters wear filter masks. There is no grass in the parks and no birds in the sky. Something is very wrong. With apologies for a mixed metaphor, the canary is already dead while the jester continues to dance.
This plaque is bolted onto the first man-made object to leave our solar system
Sociology: Man’s Inhumanity to Man
Sagan observed that our leaders are passionate about conquering each other, spilling blood over frequent misunderstandings, giving in to imagined self-importance. None of this has changed.
Regarding our ability to get off of this planet, Sagan said “Visit? Perhaps…Settle? Not yet”. We still do not possess the technology or resources to settle even a single astronaut away from our fragile home planet. We won’t have both the technology and the will to do so for at least 75 years—and then, only a tiny community of scientists or explorers. It falls centuries shy of resettling a population.
Hate, zealotry, intolerance and religious fervor are more toxic than ever before
Today, the earth has a bigger population. Hate and misunderstanding has spread like cancer. Weapons of mass destruction have escaped the restraint of governments, oversight and safety mechanisms. They are now in the hands of intolerant and radical organizations that believe in martyrdom and that lack any desire to coexist within a global community.
Nations, organizations and some individuals possess the technology to kill a million people or more. Without even targeting civilians, a dozen nations can lay waste to the global environment in weeks.
Is it time to revisit Pale Blue Dot? Is it still relevant? The urgency of teaching and heeding Carl Sagan’s words has never been more urgent than now.
Postscript:
Carl Sagan probably didn’t like me. When I was his student, I was a jerk.
Sagan was already a TV personality and author when I took Astronomy 101 in 1977. Occasionally, he discussed material from the pages of his just-released Dragons of Eden, or slipped a photo of himself with Johnny Carson into a slide presentation. He clearly was a star attraction during parent’s weekend before classes started.
Indeed, he often used the phrase “Billions and Billions” even before it led as his trademark. Although he seemed mildly mused that people noticed his annunciation and emphasis, he explained that he thought it was a less distracting alternate to the phrase “That’s billions with a ‘B’ ” when generating appreciation for the vast scope of creation.
At this time that Sagan was my professor, he appeared on the cover of Newsweek magazine. Like a lunkhead, I wrote to Newsweek, claiming that his adulation as a scientist was misplaced and that he was nothing more than an PR huckster for NASA and JPL in the vein of Isaac Asimov. I acknowledged his a gift for popularizing science, but argued that he didn’t have the brains to contribute in any tangible way.
I was wrong, of course. Even in the role of education champion, I failed to appreciate the very powerful and important role that he played in influencing an entire generation of scientists, including, Neil DeGrasse Tyson. Although Newsweek did not publish my letter to the editor, someone on staff sent it to Professor Sagan! When the teaching assistant, a close friend of Sagan, showed me my letter, I was mortified.
Incidentally, I always sat in the front row of the big Uris lecture hall. As a student photographer, I took many photos, which show up on various university web sites from time to time. In the top photo, Professor Sagan is crouching down and clasping hands as he addresses the student seated next to me.
GOLDEN, Colo. — Researchers are mapping out how to build a human outpost in cislunar space — the region around Earth’s moon.
The ongoing work is expected to help plot out other deep-space trips, such as the journey to a near-Earth asteroid and the larger leap to distant Mars.
Under NASA’s Next Space Technologies for Exploration Partnerships (NextSTEP) Projects, scientists and engineers are examining how best to utilize NASA’s Orion deep-space crew capsule and future human habitats to set up a cislunar outpost. [Visions of Deep-Space Stations (Gallery)].
Living on a houseboat may seem very romantic, but the day-to-day misery of hauling water from shore and listening to the thump of the generator can soon take the icing off the cupcake. As a glimpse into what could be the future of aquatic living, two Fraunhofer Institutes and their partners are working on a self-sufficient floating home that creates its own water, electricity, and heat without looking like a works barge.
Housing shortages are a recurring problem in many parts of Europe and the canals of Amsterdam and London show that floating homes are hardly a new idea. But such residences must either be situated in the few places where power and water hook-ups are practical or find tenants who don’t mind living off the grid.
To make it feasible to live comfortably without being tied up to a pier, Fraunhofer and its associates have initiated the Lusation autartec project, which is aimed at a Germany that is looking more toward floating homes for both recreation and residency.
