ESA Rosetta: First Comet Close-Ups Reveal a 'Scientific Disneyland'

Rosetta spacecraft's OSIRIS narrow-angle camera obtained this close-up detail of a smooth region on the "base" of the "body" section of comet 67P/Churyumov-Gerasimenko on August 6, 2014.

Credit: ESA/Rosetta/MPS for OSIRIS Team MPS /UPD /LAM /IAA /SSO /INTA /UPM /DASP /IDA

It's only been a few hours since Europe's Rosetta spacecraft arrived at a comet in deep space, but the robotic probe is already beaming incredible close-up photos of its target.



The latest images from the Rosetta probe reveal details on the surface of Comet 67P/Churyumov-Gerasimenko like never before.

House-size boulders can be seen on the surface of the comet, and the "neck," "body" and "head of the dirty snowball are all on stark display. T

he photos were taken when Rosetta was about 81 miles (130 kilometers) away from the comet.

"We've arrived. Ten years we've been in the car waiting to get to scientific Disneyland, and we haven't even gotten out of the car yet and look at what's outside the window," Mark McCaughrean, senior scientific adviser with the ESA's Directorate of Science and Robotic Exploration, said during a webcast of the Rosetta's comet arrival today (Aug. 6). "It's just astonishing."

Rosetta spacecraft's OSIRIS narrow-angle camera obtained this close-up detail of Comet 67P/Churyumov-Gerasimenko on August 6, 2014. The comet’s "head" lies at the left, casting shadows onto the "neck" and "body" to the right.

Credit: ESA/Rosetta/MPS for OSIRIS Team MPS /UPD /LAM /IAA /SSO /INTA /UPM /DASP /IDA

And McCaughrean wasn't alone in his enthusiasm at Rosetta's mission operations center in Darmstadt, Germany.

"This is a very, very emotional moment," Holger Sierks, the principal investigator for Rosetta's OSIRIS instrument, said during the webcast.

"You see a lot of detail coming out here. We see the bright areas. We see the head. We see the depression and a lot of stuff laid out there. We see the sides, the body, the lower body of the nucleus and a lot of detail."

Both Rosetta and Comet 67P/C-G are flying in tandem at about 251 million miles (405 million km) from Earth.

Rosetta set off on its quest to link up with the comet in 2004, traveling about 4 billion miles (6.4 billion km) before making its historic rendezvous with the comet this morning.

While today does mark an event 10 years in the making, it is just the beginning of the mission for many ESA scientists.

ESA officials still need to find a suitable landing spot for the Philae lander, a robotic craft that hitched a ride with Rosetta to the comet.

Philae (named for an obelisk found on an island in the Nile River) is designed to touch down on the surface of Comet 67P/G-C to learn more about the composition and properties of the 2.5-mile-wide (4 km) comet.

German Aerospace Center's portal DLR tweeted this photo showing the "face" on Comet 67P/Churyumov-Gerasimenko, Aug. 6, 2014.

Credit: DLR

Mission controllers will now put Rosetta into a triangular orbit around Comet 67P/Churyumov-Gerasimenko (67P/C-G) before moving the probe closer to the comet.

Eventually, Rosetta will move into an even tighter circular orbit to release its lander down to the comet's surface in November.

The $1.7 billion (1.3 billion euros) Rosetta mission is expected to end in December 2015 when the spacecraft moves away from Comet 67P/C-G. Before the end of the mission, however, Rosetta will accompany the comet as it makes its closest pass of the sun in its 6.5-year orbit.

During that close pass, the probe should be able to observe the comet in a very active state.

"After landing, Rosetta will continue to accompany the comet until its closest approach to the sun in August 2015 and beyond, watching its behaviour from close quarters to give us a unique insight and real-time experience of how a comet works as it hurtles around the sun," Matt Taylor, Rosetta project scientist, said in a statement.

Prosopagnosia - Face Blidness

Prosopagnosia is a disorder of face perception where the ability to recognize faces is impaired, while the ability to recognize other objects may be relatively intact.

The term originally referred to a condition following acute brain damage, but a congenital form of the disorder has been proposed, which may be inherited by about 2.5% of the population.

The specific brain area usually associated with prosopagnosia is the fusiform gyrus.

Few successful therapies have so far been developed for affected people, although individuals often learn to use 'piecemeal' or 'feature by feature' recognition strategies.

This may involve secondary clues such as clothing, gait, hair colour, body shape, and voice. Because the face seems to function as an important identifying feature in memory, it can also be difficult for people with this condition to keep track of information about people, and socialize normally with others.

Some also use the term prosophenosia, which refers to the inability to recognize faces following extensive damage of both occipital and temporal lobes.

Children with Prosopagnosia
Developmental prosopagnosia can be a difficult thing for a child to both understand and cope with. Many adults with developmental prosopagnosia report for a long time they had no idea that they had a deficit in face processing, unaware that others could distinguish people solely on facial differences.

Children with prosopagnosia can be hard to find. They may just appear to be very shy or slightly odd due to their inabilities to recognise faces.

Children with prosopagnosia may have a hard time making friends, as they may not recognize their classmates. They often make friends with children with other distinguishing features.

Children with prosopagnosia may also have difficulties following the plots of television shows and movies, as they have trouble recognizing the different characters.

They tend to gravitate towards cartoons, where the characters always wear the same thing and have other distinguishing features.

Prosopagnosiac children may also have a hard time telling family members apart or recognizing people out of context (i.e. the teacher in a grocery store).

Additionally, those children with prosopagnosia can have a difficult time with the public school system, as many school professionals are not well versed in prosopagnosia, if they are aware of the disorder at all.

Resources
Resources to help parents and professionals cope with prosopagnosia in children are also being developed, such as Understanding Facial Recognition Disorders in Children by Nancy L. Mindick

Oliver Sacks, famous neuroscientist, author of many books including The Man Who Mistook His Wife for a Hat; although he knew what prosopagnosia was and had studied it, he did not realise he had it until people became shocked that he confused one of his brothers with the other and then, discussing it with family members, learned that a number of them had similar difficulties with face.

Dame Jane Goodall, British primatologist, ethologist, and anthropologist, best known for her 45-year study of social and family interactions of wild chimpanzees.

Face Recognition

There is a new "face" in face recognition and this could be in the form of a dot. This is what Associate Professor Ajmal Mian from the University of Western Australia is working on.

Associate Professor Ajmal Mian is an expert in face recognition and has been in the field for 8 years. His new research study is focused on utilizing satellite technology in order to identify facial features that are located under the skin.

There is also a possibility that people who utilized cosmetic surgery to alter their face could be recognized through the use of this technology.

He further explained his research stating that "multi-spectral imaging can be used to measure light reflected off a face at hundreds of discrete wavelengths in the visible spectrum and beyond".

"Recognition based on sets of facial images from surveillance cameras, YouTube videos, Google Images or personal photo albums is more accurate because they contain more information," he said.

Face recognition technology is being used increasingly for computer log-ons, identity checks and surveillance, and is a boom industry around the world.

"It can be used in any kind of machine such as mobile phones, computers and robots. It's the most user-friendly way to authenticate someone and is now so sophisticated that machines can identify a face no matter what the expression.

"Humans are very good at finding a familiar face in a crowd but less able to identify someone they may have seen only once. This is where machines outperform people because they can memorise images and never tire of matching them to faces in a crowd."

Associate Professor Ajmal said face recognition technology was better than fingerprinting because it didn't require special equipment or an expert to verify the results.

Also, any part of a face could be used, and many images of a person's face - including different expressions and poses - could be merged to make a composite image which was more meaningful to the machine.

"Humans can recognise a person regardless of whether they're laughing, frowning, crying or sleeping. Machines may soon be able to do the same."

Associate Professor Mian is the only West Australian to have won the Australasian Distinguished Dissertation Award from CORE (The Computing Research and Education Association of Australasia).

He has won two prestigious national fellowships: the Australian Postdoctoral Fellowship and the Australian Research Fellowship, and has written more than 50 high-impact papers including more than 30 as first author.

Arachnaphobia: Golden Orb Spider poses on keeper's face

A large Golden Orb Spider crawls on the face of a Sydney Wildlife World keeper. The park is holding a survey to establish which of two types of animals the public find more creepy, snakes or spiders

Picture: AP