di: Dott. Giuseppe
Cotellessa (ENEA)
Anche nel campo della CSI (Crime Scene Investigation) l’utilizzo del brevetto può essere molto utile,
cosi come per l’elaborazione delle
immagini acquisite durante le missioni scientifiche del Sistema Solare da parte
delle sonde .
Seeing Crime in a New
Light
Seeing
Crime in a New LightThe forensic services unit at the St. Paul, MN police
department boasts $1 million in upgraded equipment, including a new Reflective
Ultra Violet Imaging System (RUVIS) to detect fingerprints. The new imaging
system allows investigators to lift prints from a wide variety of surfaces —
plastic bags, sticky tape, glossy magazine paper, linoleum, and more — without
damaging the object.
St. Paul
police show off their crime lab's $1 million face-lift
Police
showed off new processing equipment at Thursday open house.
St. Paul
Police Officer Alta Schaffer showed how a superglue fuming cabinet is used to
find latent fingerprints on demonstration evidence during a tour of the St.
Paul crime lab.
The St.
Paul police crime lab — now dubbed the forensic services unit — had a
show-and-tell of sorts Thursday at an open house designed to show off its new
equipment and also help it shed its tainted image.
The crime
lab came under fire last year after two public defenders challenged its
scientific credibility in several drug cases. Subsequent audits found
widespread failings in staff skills, poorly maintained testing instruments and
illegible lab reports.
“We did an
extensive, extensive review of what we had, where we had some challenges, what
we were doing right, what we were doing wrong and where we needed to make some
changes,” said Mayor Chris Coleman, who toured the new unit Thursday with
Police Chief Tom Smith.
The city
invested $1 million to upgrade equipment and lab space and make improvements in
the unit on the third floor of the Police Department’s main offices. The new
forensic services unit, which opened in June, also got a new civilian manager —
Rosanna Caswell, a certified latent print examiner — to oversee the lab.
Police hope
the unit will become accredited within the next two years, Smith said.
“This was a
tough challenge, and I said a year ago we’re going to unturn every stone, we’re
going to take a look at what we need to change, and we’ve done just that,” the
chief said.
Thursday’s
tour offered attorneys and city officials demonstrations of how the new
equipment is used.
One of the
most promising new technologies is a reflective imaging system called RUVIS
that uses ultraviolet light to detect fingerprints.
In one
homicide case, it was visualized a fingerprint on a cellphone that was dropped
at a crime scene. Examiners ran the fingerprint through a database and were
able to report an ID to officers within a few hours.
Unlike
other methods at the lab’s disposal, RUVIS didn’t damage the phone and police
could still retrieve data from it, Caswell said. “It is something that adds a
lot of functionality to this latent print unit,” she said.
The forensic
services unit does general crime scene processing, fingerprint processing and
comparison, and reconstructions of crash and crime scenes. The city pays for
the state Bureau of Criminal Apprehension to conduct drug testing.
When asked
if drug testing could return to St. Paul’s unit, Assistant Chief Kathy Wuorinen
said the department may look at that at some point, but now it’s focused on
accreditation for fingerprint comparison.
The
forensic services unit has added two officers to crime scene processing to
bring its total to four, Wuorinen said. It used to have three forensic
scientists doing drug testing and only one doing fingerprint comparisons, but
now there will be three doing the latter work, she said.
Street
officers have been trained to help lab personnel when needed. Smith said the
unit was also planning to hire more forensic scientists and a quality assurance
manager.
“I am very confident. I want our public and our
citizens to be confident in the capabilities we have in our forensic services
unit,” Smith said.
Martian
rover Curiosity's high resolution Mast Camera has taken the first-ever video of
the larger of the two moons of Mars eclipsing the smaller. The moons, named
Phobos and Deimos (fear and dread in Greek, respectively), are theorized to be
captured asteroids. The video may shed light on that theory, as well as help
scientists better understand the moons' orbits and how they affect the Martian
surface.
GET SCIENCE
NEWSLETTERS:
A
spectacular new video from NASA's Mars rover Curiosity shows the Red Planet's
two tiny moons eclipsing each other in an otherworldly skywatching first.
Curiosity
snapped 41 images of the Mars moons in the night sky on Aug. 1, with rover
scientists then stitching them together to make the final 30-second video. It
is the first time a view of the two Martian satellites — called Phobos and
Deimos — eclipsing each other has been captured from the vantage point of the
planet's surface, NASA officials said.
The new
Curiosity video has plenty of scientific value in addition to its gee-whiz
appeal, officials said. For example, researchers are studying the images to
refine their knowledge of the orbits of Phobos and Deimos, both of which appear
to be captured asteroids.
"The
ultimate goal is to improve orbit knowledge enough that we can improve the
measurement of the tides Phobos raises on the Martian solid surface, giving
knowledge of the Martian interior," Mark Lemmon of Texas A&M
University said in a statement.
"We
may also get data good enough to detect density variations within Phobos and to
determine if Deimos' orbit is systematically changing," added Lemmon, who
is a co-investigator for Curiosity's Mastcam instrument, which took the
pictures using its telephoto lens.
Phobos'
orbit is taking it closer to the surface of Mars very slowly, researchers said,
while Deimos may gradually be getting farther and farther away from the planet.
mars
moonsThis illustration provides a comparison for how big the moons of Mars
appear to be, as seen from the surface of Mars, in relation to the size that
Earth's moon appears to be when seen from the surface of Earth. Deimos, at far
left, and Phobos, beside it, are shown together as they actually were
photographed by the Mast Camera .
Phobos is
just 14 miles (22 kilometers) wide on average, while Deimos is even smaller.
But Curiosity was able to spot both of them because they orbit quite close to
the Red Planet's surface — 3,700 miles (6,000 km) in Phobos' case and 12,470
miles (20,070 km) for Deimos.
Earth's
moon is gigantic compared to Phobos and Deimos, with a diameter of about 2,160
miles (3,475 km). But our planet's natural satellite orbits much farther away —
its average distance is 239,000 miles (384,600 km) — so Phobos appears half as
big in the sky to Curiosity as Earth's moon does to human skywatchers, NASA
officials said.
The 1-ton
Curiosity rover landed on Mars on Aug. 5, 2012 to determine if the Red Planet
could ever have supported microbial life. The six-wheeled robot has already
achieved that mission goal, finding that a site called Yellowknife Bay was
indeed habitable billions of years ago.
Curiosity
is now embarked upon a long drive to the foothills of the huge Mount Sharp,
whose many layers hold a record of the Red Planet's changing environmental
conditions over time. Mission scientists want Curiosity to read that history
like a book as it climbs up through the mountain's lower reaches.
1 commento:
Tempi duri per i criminali, dunque! A dire il vero, verrebbe da chiedersi se siano stati commessi diversi errori giudiziari, viste le condizioni del laboratorio, fino a un anno fa: "widespread failings in staff skills, poorly maintained testing instruments and illegible lab reports."
Posta un commento