Ex-Time Watch Projects Time On Arm

The Ex-Time Watch, a conceptual watch by Rong Yong, projects the current time and date onto your arm/hand with the push of a button. So when someone asks what time it is, you push a button, and then point your arm in their direction. I like the concept, because I hate listening to people. Just show me your watch, I can tell the time myself. Besides, you'll probably round off to the closest five minutes or something. I want the exact time. This watch is not for me. My wrists are too fat.


Botley: What time is it when an elephant sits on your watch?
Harry: Time to get a new watch?
Botley: Time to get a new arm!

Octopus Arms May Point Way to New Robot Designs

Hillary Mayell
for National Geographic News
February 9, 2005

Octopuses, those boneless, brainy, denizens of the deep, use their arms for some tasks in much the same way humans do, according to a new study.

Theoretically, there are any number of ways an octopus could use its long flexible arms to move an object. But the method they actually use is surprisingly close to how animals with rigid skeletons—including humans—do it, scientists say.

When hunting and grabbing dinner, the octopus uses all the flexibility the arm is capable of. But to bring captured prey to its mouth, the octopus turns the arm into a semi-rigid structure that bends to form quasi joints. Just as a human arm has joints at the shoulder, elbow, and wrist that allow our arms to bend and rotate, the octopus bends its arm to forming three segments of roughly equal length.

Understanding how the octopus controls eight flexible arms all at once could be the basis for developing the next generation of flexible robotic arms—long a goal among robotics engineers.

"Our specific aim in this project is to learn from nature how to build and control a flexible-arm robot," said Binyamin Hochner, a biologist at Hebrew University in Jerusalem and one of the co-authors of the study. "And indeed our studies show how the octopus simplifies the complex problems associated with controlling flexible arms that have an infinitely large number of degrees of freedom. This in turn inspires the development of new strategies for the control of flexible robotic arms."

Quasi-Jointed Cephalopod

With more than a 250 species, octopuses are members of an ancient group of animals called cephalopods. The giant Pacific octopus (Octopus dofleini) can grow to over 20 feet (6 meters) and weigh more than 100 pounds (45 kilograms). The tiny Californian octopus (Octopus micropyrsus), by contrast, is no more than half an inch to an inch (1.3 to 2.5 centimeters) long.

There have been numerous accounts of (and searches for) an as yet unknown species of deep-sea octopus that is believed to grow to over 100 feet (30 meters) across and weigh several tons.

Octopuses have intrigued scientists for years, because they have both long- and short-term memory, they remember solutions to problems, and they can go on to solve the same or similar problems. They have been known to climb aboard fishing boats and open holds in search of crabs. They can figure out mazes, open jars, and break out of their aquariums in search of food.

The arms are composed almost entirely of muscle, with no bone or external skeleton—a structure known as a muscular hydrostat. Elephant trunks and tongues are other examples of a muscular hydrostat.

Earlier research funded by the U.S. Navy's Office of Naval Research (ONR) suggests that, to keep the arms from constantly tangling themselves up, each arm has an independent peripheral nervous system and neural circuitry (see related-story link below). This allows the brain to essentially give a command—"Arm Four, fetch that tasty crab crawling by"—and have the arm carry out the order without the brain thinking about it again.

This ability is combined with excellent eyesight. Once an octopus spots its prey, it has a remarkable ability to reach out with one of its arms and grab it with one of the suckers that form a double line up each of the octopus's arms.

Some scientists studying octopus arms conclude that they may represent the optimal design for robotic arms.

"If you had something—a person, say—floating in a water column or in space, a straight mechanical arm is likely to push it away," said Thomas McKenna, a project officer at the ONR. "But an arm you could use to gently wrap around an object and retrieve it, that would be useful."


Botley: How many octopuses does it take to screw in a light bulb?
Harry: 1/8!

Robot Fish Debut in London

This week the London Aquarium unveiled the newest "species" to join its collection: robo-carp.

Computer scientists at the University of Essex in the U.K. developed the self-guided robot fish, seen here swimming in the aquarium. The designers say it is the smartest such robot yet created—the fish uses artificial intelligence and built-in sensors to avoid obstacles and respond to environmental changes.

The fish's battery lasts for up to five hours, though the scientists hope to one day program it to search for and access a recharging station when it runs low.

"This work has many real-world applications, including seabed exploration, detecting leaks in oil pipelines, mine countermeasures, and improving the performance of underwater vehicles," project leader Huosheng Hu told the Associated Press.

The bot, which resembles a one-and-a-half-foot-long (half-meter-long) common carp, mimics the undulating motions of a real fish swimming and turning. Three of the cyber-fish will swim in a tank at the aquarium alongside their living counterparts.


Botley: Why did the robot cross the road?
Harry: He was programmed to do so.

(Photo: The "HIRO," a life-size torso humanoid robot platform. The bottom part is a combination of a mount and a robot suit. The frame is made of cast aluminum alloy. The HIRO is sized 67 (H) x 50 (W) x 50cm (D) and weighs 20kg.)

Kawada Industries Inc and General Robotix Inc (GRX) have jointly developed a life-size torso humanoid robot platform, the "HIRO" (Human Interactive Robot).

The robot's movements are more similar to those of humans compared with existing robots, making it possible to conduct practical researches.

The HIRO is scheduled to be delivered to academic research institutes such as university laboratories and vocational schools specializing in information machines in the autumn of 2009.

When environmental recognition devices such as a camera are mounted on the platform, it can be used to research human interactive robots that work under actual living environments as well as robot safety and interactive technologies for next-generation robot systems and their hardware and software.

The robot has 15 degrees of freedom in total, with two of them in the neck, six in each arm and one in the low back. It can carry an object weighing up to 2kg with each of its arms, and its finger tip features an operating force of up to 100N (approximately 10kgf).

The finger tip can trace the outer track of an A4 paper, starting from and coming back to the center point (approximately 1,400mm), in about two seconds and can repeat this movement. The repeat positioning accuracy is within 20μm, according to Kawada Industries and General Robotix.

The robot incorporates the "OpenHRP3" (Open Architecture Human-centered Robotics Platform 3), a simulation software developed by the National Institute of Advanced Industrial Science and Technologies (AIST) jointly with the University of Tokyo and GRX. The control software was co-developed by GRX and Kawada.

This control software will also be employed in a transfer robot that is currently being developed under the next generation intellectual robot technology development project promoted by Japan's New Energy and Industrial Technology Development Organization (NEDO). Furthermore, the companies are considering the possibility of bringing the control software into compliance with the RT Middleware, which are being developed by NEDO and its partners.

The HIRO uses Windows XP as the operating system (OS) for information processing and recognition, while it uses QNX for control, to form a system with high flexibility and real-time property, the companies said.

The robot adopts the CORBA as the interface for the control software and user applications. In addition, libraries and samples supporting a variety of languages will be provided together with a program source.

It comes in two versions, a full spec version and a lower priced basic version. The full spec version has a head-mounted double-lens stereo vision camera, two robot hands with four degrees of freedom in each hand, two hand cameras, etc mounted on the main body. It is also equipped with a control PC and an information processing and recognition PC that are used as robot controllers. The price is ¥7.4 million (approx US$76,963, excluding tax).

The basic version, which is offered for ¥5.4 million (excluding tax), does not have the two degrees of freedom in the neck, the head-mounted camera and the two robot hands. Both of the versions include software.

National Disability Awareness Month Sparks Interest

This profile is in honor of National Disability Awareness Month is Ricky DeRennaux, a teacher and inventor who overcame his own challenges to help kids with disabilities.

Ricky DeRennaux struggled with a leaning disability all of his life. He faced obstacles in school, taunting from peers and frustration from educators. Eventually, DeRennaux overcame his problems and decided to focus on helping others with disabilities. He has done that in two ways, by operating an ODEP-funded program for teens with disabilities, and inspiring them to new heights by appearing on a nationwide TV show for inventors.

DeRennaux is president of Tech-Now, Inc. and the Oklahoma state high school tech director with responsibility for 34 schools. He runs an after-school high-tech program for students with disabilities, the High School/High Tech program. Students work together with sophisticated equipment including scanners, digital cameras and state-of-the art software to design and construct buildings, create graphic arts and animated web advertisements, and produce radio ads and movies using digital engineering.

Students in the Tech-Now, Inc. program mimic a workplace environment by clocking in and out for each session, and trying to get as much done in a short time as possible. The program includes a summer institute held on the campus of Southern Nazarene University in Bethany. The program was recently extended to 90 special educations students at 13 schools.

In addition, DeRennaux received national acclaim as a finalist on the popular ABC TV show American Inventor. DeRennaux’s design for an HT Racer allows users to design and build remote controlled model cars, planes, trucks, boats and any sort of craft that they can imagine. Programs such as DeRennaux’s High School/High Tech institute provide help and inspiration for people with disabilities. Another such program is the disabilityworks project in Illinois. Disabilityworks uses a business model targeting both the supply and demand sides of employment for persons with disabilities. The project works with companies to develop employment opportunities, and build awareness about financial incentives and tax breaks for hiring disabled employees. Disabilityworks also engages educational programs for youth and adults with disabilities, and workforce development services.

Disabilityworks is funded primarily by the State of Illinois Department of Commerce and Economic Opportunity, with support from the Chicagoland Chamber of Commerce and the city of Chicago. The project partners with the Chicagoland Provider Leadership Network, which represents 117 organizations, and the Chicagoland Business Leadership Network, which has 63 member companies. In its first year, the project resulted in jobs for 194 people with disabilities, more than 90 percent in private industry. In 2006, the Secretary of Labor and ODEP recognized disabilityworks with a New Freedom Initiative Award for demonstrating exemplary and innovative efforts in furthering the employment and workplace environment for people with disabilities.

President George W. Bush proclaimed October National Disability Awareness month as an opportunity to recognize the contributions and accomplishments of Americans with disabilities. It’s also a time to underscore the nation’s commitment to advancing employment for citizens with disabilities and ensure diversity in the workplace.

Until 1990, many disabled people were denied opportunities in the workplace. Homes, businesses and even public buildings were constructed to prevent access by those with disabilities, particularly those in wheelchairs. This all changed with the ADA, the landmark Americans With Disabilities Act of 1990. The ADA made it illegal to discriminate in hiring, promotion, or training of workers with disabilities. Under the ADA, employers must make reasonable accommodations for employees with disabilities.

Since 2001, the New Freedom Initiative has helped promote the full participation of people with disabilities in all areas of society including education, training and employment. Programs such as “Ticket to Work” have helped improve access to employment training and placement services.

Despite all these efforts, according to the ODEP, there is still chronic underemployment of workers with disabilities

Robot helps you become a fly on the wall

You probably would not notice a fly in the room, but you certainly would notice a hawk,' said the Harvard University project leader, Robert Wood.

His team used lasers to cut the ultrathin carbon fibre needed to create a flexible and functional fly, which flaps its wings at 110 beats per second.

'Simply scaling down existing macro-scale techniques would not have come close to the performance we needed,' said Mr Wood.

However the fly will not be fooling any secret agents at this stage in its development – so far it can move only straight up.

The project is said to be funded by the US Defence Advanced Research Projects Agency.

The robotic flies may also be used on the battlefield or in 'urban environments'.


Botley: What are you doing with that flyswatter?
Harry: Hunting flies.
Botley: Did you get any:
Harry: Yep, three males, two females.
Botley: How can you tell?
Harry: Three were on a beer can, two were on the phone.

Top cop predicts robot crimewave

Technology such as cloned part-robot humans used by organised crime gangs pose the greatest future challenge to police, along with online scamming, Australian Federal Police (AFP) Commissioner Mick Keelty says.

Mr Keelty said the police force would have to use experts from the private sector to fight tech-savvy organised criminals, because it lacked the necessary skills.

Technology-enabled crime was "a new area that's growing exponentially", he warned yesterday.

A feature of serious organised criminal networks was their ability to be flexible and quickly adopt new techniques, and police forces would have to move quickly to keep up.

"And I think a lot of those skills don't exist in policing today," Mr Keelty told a parliamentary inquiry into the future impact of organised crime in Canberra.

"A lot of those skills will have to be imported into policing and probably exist more so in the private sector."

Mr Keelty said it was hard to estimate how much money the AFP would need to combat technology-based crime.

But he identified the use of robotics and cloning as future challenges.

"Our environmental scanning tells us that even with some of the cloning of human beings - not necessarily in Australia but in those countries that are going to allow it - you could have potentially a cloned part-person, part-robot," he said.

"You could (also) have technology acting at the direction of a human being, but the human being being distanced considerably from the actual crime scene."

Mr Keelty said scams had sprung up in online virtual worlds such as Second Life, where people can spend real money via credit cards to buy products such as virtual real estate and gifts.

"Policing that is going to be quite difficult," he said.

Australian and UK police had also noticed a trend of internet pedophiles crossing into real life pedophilia, and were planning a joint operation in developing countries, he said.

"We are watching people in the virtual world convert what they are doing in the virtual world to travel to some of these countries where children are at risk," he said.

"So this convergence from the virtual to the real world is a new phenomenon and makes evidence-gathering quite difficult. It will be a problem for us into the future."

AFP deputy commissioner John Lawler said maintaining strong links with foreign police forces and attorney-general's departments would help authorities gather evidence needed to track global criminals moving through cyberspace.

Criminals could use technology to commit crime but also to improve their ability to communicate secretly, he said.


Botley: Did you hear the story about my uncle and the robber?
Harry: Tell me.
Botley: Late one night, a burglar broke into my uncle's house when my uncle was out. The burglar tiptoed through the living room but suddenly he froze in his tracks when he heard a loud voice say: "Jesus is watching you!" He stopped but heard nothing more and then continued. "Jesus is watching you," the voice boomed again. The burglar stopped dead again. He was frightened. Frantically, he looked all around. In a dark corner, he spotted a bird cage and in the cage was a parrot. He asked the parrot: "Was that you who said Jesus is watching me?" "Yes", said the parrot. The burglar breathed a sigh of relief, and asked the parrot: "What's your name?" "Clarence," said the bird. "That's a dumb name for a parrot," sneered the burglar. "What idiot named you Clarence?" The parrot said, "The same idiot who named the Rottweiller Jesus."

Ex-Time Watch Projects Time On Arm

The Ex-Time Watch, a conceptual watch by Rong Yong, projects the current time and date onto your arm/hand with the push of a button. So when someone asks what time it is, you push a button, and then point your arm in their direction. I like the concept, because I hate listening to people. Just show me your watch, I can tell the time myself. Besides, you'll probably round off to the closest five minutes or something. I want the exact time. This watch is not for me. My wrists are too fat.

Botley: What time is it when an elephant sits on your watch?
Harry: Time to get a new watch?
Botley: No, time to get a new arm!

Proving that things were way cooler back in the day, is the world's first computer mouse. Made by Douglas Engelbart in 1964, it "consisted of two gear-wheels positioned perpendicular to each other -- allowing movement on one axis." Just look at this thing. Ergonomic shape, great button placement -- and it's made of wood. If that ain't style, then I don't know what is. Sure the front has rotted out, but who cares. My mouse looks like that, and it's brand new. That's just what happens when your page doesn't download fast enough and you start slamming the mouse on the desk.


Botley: My mouse has suddenly stopped working.
Harry: Is it an optical mouse?
Botley: I don't know?
Harry: Does it have a ball or light?
Botley: Oh, it's got a light on top.
Harry: On top? Are you sure?
Botley: Yes. It was underneath before, but it looks better when it's on top.
Harry: Ok, try turning it around so the light points down on the desk.
Botley: Amazing! It works now!

Cell Phone For Man's Best Friend

Petscell is a cell phone that attaches to your dog's collar so you can stay in contact during those long days at the cubicle. Of course, if you want something a little cooler you could go with this. The thing costs $499, which is freaking ridiculous for the most basic cell phone ever (minus being waterproof), and doesn't include activation or service. It automatically answers calls from a list you set, so your pet won't kill itself listening to telemarketers. Lassie! Come home!

Botley: What do you get if you cross a dog with a computer?
Harry: A computer with lots of bites.

Robot takes over nursery

“Children treat nursery robot as human”, according to the Telegraph today.

It sounds a bit over the top, but the sentiment does come directly from a study of a Sony robot (called QRIO) placed in a nursery environment, published in the Proceedings of the National Academy of Sciences this week. The paper tells us: “Initially, the children treated the robot very differently than the way they treated each other. By the last session, 5 months later, they treated the robot as a peer rather than a toy.”

The robot – which stands at half-toddler height and was assisted in its actions (dancing, giggling, walking) by a human operator that sent it instructions every few minutes (which sounds like cheating to me, but the researchers say this mainly stopped it from hitting walls) – spent a total of 5 months in a classroom of toddlers. After bouts of “full behavioural repetoire” the kids really bonded with QRIO, say the researchers: they touched it in the way that they touch other kids, with an emphasis on hands and arms, hugged it, put a blanket over it when it ‘went to sleep’ on low batteries, and cried if it fell over.

Well… I have seen toddlers treat inanimate dolls like ‘peers’, and cry when their tamagotchi ‘dies’, despite the fact that these virtual pets consist of an unmoving chunk of plastic whose “full repetoire” of behaviour consists of bleeping.

But, as New Scientist and others point out, these kids did behave differently to QRIO than to an inanimate robot named Robby or other toys, like teddy bears.

It’s hardly surprising for kids to respond more to things that seem to respond to them. But whether they’ll really treat a robot exactly as they do another child, and whether a robot will really ever become an invaluable teaching assistant in the classroom, are debatable.

Apparently other robots have only been able to hold a child’s attention span for less than 10 hours, by telling stories (though I wonder how this compares to the ultimate story-teller, television, which seems to have an endless fascination for kids). By contrast this robot inspired "long-term bonding and socialization" (paper).

"The authors are drawing general conclusions ... beyond what the data alone suggest," technologist and social scientist Nathan Freier told Science – who also host the videos, from which you can draw your own conclusions.

Botley: That would be a good job for you.
Harry: You know I don't like children.
Botley: Hehehe!

Robot Animals Snare U.S. Poachers

Maryann Mott
for National Geographic News
May 1, 2009

On a remote U.S. Forest Service road in Arizona a few years ago, the driver of a white minivan slowly rolls to a stop, sticks a rifle out the window, and starts firing at what look to be wild turkeys.

State officers hiding in nearby bushes emerge, running toward the vehicle and shouting: "Game and Fish Department! Cease fire! Put down your weapon!"

The driver speeds off, but is caught a short distance down the dirt road by another officer. The hunter is cited for discharging a weapon from a vehicle—a U.S. $500 fine.

Unbeknownst to the driver, the turkey is actually a robotic decoy designed to catch such outdoor outlaws. Other robots include swimming moose, white-tailed deer and black bear.

Conservationists estimate that, for every animal killed legally in a hunting season, one animal is lost to poaching.

But year-round sting operations—like the one conducted near Young, Arizona, and in nearly every other U.S. state—are helping to level the playing field by saving wildlife from being illegally killed or captured for the pet trade.

"I consider it like a bait car that police departments use to apprehend people who are stealing vehicles," explains Arizona Game and Fish Department officer Ken Dinquel.

For nearly 20 years, the Oregon State Police Department's Fish and Wildlife Division has run a decoy operation targeting violators who hunt off-season from their cars and roadways or at night with the aid of a spotlight.

Under state law, firing at a wildlife enforcement decoy is considered the same as firing at a live animal. All the same penalties apply.

"The people that shoot at decoys are wildlife thieves," said Lt. Steve Lane. "They're not hunters."

Robot Animals

These animals look and act just like the real things.

Molded-fiberglass animals are wrapped in genuine hides obtained by government officers through donations or illegal kills.

(Related: "Robot Fish to Detect Ocean Pollution.")

Inside the bodies are radio-controlled motors—the same type found in toy cars or planes—allowing wildlife officers to remotely move a decoy's head, ears, and tail. Special reflective eyes glow at night when light is shined on them.

The robots don't come cheap: Prices range from $500 for turkey to $5,500 for a grizzly bear.

But Bob Koons, executive director of the Humane Society of the United States's Wildlife Land Trust, feels the price is well worth it.

That's because decoys put law enforcement officers and poachers in the same spot at the same time, leading to more convictions.

Koons, whose trust donates the high-tech decoys to law enforcement agencies nationwide, said the program has "been extremely successful."

Illegal Immigrants

In Arizona, wildlife officers are stepping up efforts against the rising number of illegal immigrants hunting at night for meat to feed their families, and, in some cases, entire neighborhoods.

(Related: "African Refugees Spurring Bush-Meat Trade.")

Dinquel, a 20-year veteran with the game-and-fish department, said poaching cases—which include illegal collection of protected species of reptiles for the pet trade—are a huge problem statewide.

The department runs about 12 decoy operations annually, he said, nabbing violators about 80 percent of the time. But not everyone who is caught knows they've done something wrong.

"Oftentimes there's just some disconnect with people on the wildlife laws," Dinquel said.

"They know that buying drugs on the streets of Phoenix is illegal, but they don't view shooting a deer as that big of a deal."

Botley: What do you think about that?
Harry: I tell you, if I was the one making those robots, I would make one that would jump out of the woods and chase those guys down and eat them!
Botley: A poacher-eating turkey?
Harry: Why not? That would keep everyone guessing at Thanksgiving!

Robot Nearly Kills Man; Owner Pays $3,000 Fine

A Swedish company has been fined 25,000 kronor ($3,000) after a malfunctioning robot attacked and almost killed one of its workers at a factory north of Stockholm.

Public prosecutor Leif Johansson mulled pressing charges against the firm but eventually opted to settle for a fine.

"I've never heard of a robot attacking somebody like this," he told news agency TT.

The incident took place in June 2007 at a factory in Bålsta, north of Stockholm, when the industrial worker was trying to carry out maintenance on a defective machine generally used to lift heavy rocks. Thinking he had cut off the power supply, the man approached the robot with no sense of trepidation.

But the robot suddenly came to life and grabbed a tight hold of the victim's head. The man succeeded in defending himself but not before suffering serious injuries.

"The man was very lucky. He broke four ribs and came close to losing his life," said Leif Johansson.

The matter was subject to an investigation by both the Swedish Work Environment Authority (Arbetsmiljöverket) and the police.

Prosecutor Johansson chastised the company for its inadequate safety procedures but he also placed part of the blame on the injured worker.

Botley: Why don't they ever have a news story about a man killing a robot.
Harry: Because you can't "kill" a robot. You can only power it off.
Botley: OK, how about "man unplugs robot"?

Chemical 'caterpillar' points to electronics-free robots

A chemical gel that can walk like an inchworm, or looper caterpillar has been demonstrated in a Japanese robotics lab.

It was created in the Shuji Hashimoto applied physics laboratory at Waseda University, Tokyo.

Shingo Maeda and colleagues made the colour-changing, motile gel by combining polymers that change in size depending on their chemical environment. This is based on an oscillating chemical reaction called the Belousov–Zhabotinsky (BZ) reaction. The result is an autonomous material that moves without electronic stimulation.

The BZ reaction is one of a class of chemical systems in which the concentration of one or more compounds periodically increases and decreases. As well as producing stunning patterns (video), it can even be used to perform calculations using a dish containing the pulsing patterns as a chemical brain.
Force amplifier

Polymers used in the gel shrink and grow in response to ruthenium bipyridine ions, alternately losing and gaining electrons in the cyclical reaction. That effect has been known for some time, but hasn't been used to make a self-locomoting material on such a scale before, says Maeda.

"In previous work, the displacement of the mechanical oscillation of the gel was very small in comparison with the gel size," he told New Scientist.

Maeda and colleagues created a gel that magnifies the small changes in size by building tension into it. That produces its curved shape as well as amplifying the material's response to the oscillating reaction inside itself.

The gel shown in the video above is able to move thanks to a notched surface. But Maeda is now working on a new version that lies flat on a normal surface and moves using a peristaltic motion, like an earthworm or snail.
Lab worm

Like the inchworm, this incarnation of the gel will still be limited to the lab bench, but these experiments demonstrate the potential of using oscillating chemical systems like the BZ reaction for tasks engineers usually achieve using electronics, says Maeda.

"Mechanical systems need complex fabricated circuits or external control devices because the mechanical motion is driven by on-off switching of external signals," he explains.

By comparison, chemical systems can be "self organised" and generate their own control and mechanical signals from within, he says. Those abilities could be used to make some components of a future robot, while more conventional engineering is used for the parts for which only electronics will do.

Journal reference: Advanced Robotics (DOi: 10.1109/IROS.2007.4399392)

Robot Animals Snare U.S. Poachers

Maryann Mott
for National Geographic News
May 1, 2009

On a remote U.S. Forest Service road in Arizona a few years ago, the driver of a white minivan slowly rolls to a stop, sticks a rifle out the window, and starts firing at what look to be wild turkeys.

State officers hiding in nearby bushes emerge, running toward the vehicle and shouting: "Game and Fish Department! Cease fire! Put down your weapon!"

The driver speeds off, but is caught a short distance down the dirt road by another officer. The hunter is cited for discharging a weapon from a vehicle—a U.S. $500 fine.

Unbeknownst to the driver, the turkey is actually a robotic decoy designed to catch such outdoor outlaws. Other robots include swimming moose, white-tailed deer and black bear.

Conservationists estimate that, for every animal killed legally in a hunting season, one animal is lost to poaching.

But year-round sting operations—like the one conducted near Young, Arizona, and in nearly every other U.S. state—are helping to level the playing field by saving wildlife from being illegally killed or captured for the pet trade.

"I consider it like a bait car that police departments use to apprehend people who are stealing vehicles," explains Arizona Game and Fish Department officer Ken Dinquel.

For nearly 20 years, the Oregon State Police Department's Fish and Wildlife Division has run a decoy operation targeting violators who hunt off-season from their cars and roadways or at night with the aid of a spotlight.

Under state law, firing at a wildlife enforcement decoy is considered the same as firing at a live animal. All the same penalties apply.

"The people that shoot at decoys are wildlife thieves," said Lt. Steve Lane. "They're not hunters."

Robot Animals

These animals look and act just like the real things.

Molded-fiberglass animals are wrapped in genuine hides obtained by government officers through donations or illegal kills.

(Related: "Robot Fish to Detect Ocean Pollution.")

Inside the bodies are radio-controlled motors—the same type found in toy cars or planes—allowing wildlife officers to remotely move a decoy's head, ears, and tail. Special reflective eyes glow at night when light is shined on them.

The robots don't come cheap: Prices range from $500 for turkey to $5,500 for a grizzly bear.

But Bob Koons, executive director of the Humane Society of the United States's Wildlife Land Trust, feels the price is well worth it.

That's because decoys put law enforcement officers and poachers in the same spot at the same time, leading to more convictions.

Koons, whose trust donates the high-tech decoys to law enforcement agencies nationwide, said the program has "been extremely successful."

Illegal Immigrants

In Arizona, wildlife officers are stepping up efforts against the rising number of illegal immigrants hunting at night for meat to feed their families, and, in some cases, entire neighborhoods.

(Related: "African Refugees Spurring Bush-Meat Trade.")

Dinquel, a 20-year veteran with the game-and-fish department, said poaching cases—which include illegal collection of protected species of reptiles for the pet trade—are a huge problem statewide.

The department runs about 12 decoy operations annually, he said, nabbing violators about 80 percent of the time. But not everyone who is caught knows they've done something wrong.

"Oftentimes there's just some disconnect with people on the wildlife laws," Dinquel said.

"They know that buying drugs on the streets of Phoenix is illegal, but they don't view shooting a deer as that big of a deal."


Botley: Did I tell you about my friend who grows watermelon on his farm?
Harry: Not yet but I have a feeling I'm about to hear it.
Botley: He was doing pretty well but he had some problems with some local kids who would sneak into his watermelon patch at night and eat watermelons. He came up with a clever idea that he thought would scare the kids away for sure. So he made up a sign and posted it in the field. The next day the kids showed up and they saw his sign: "Warning, one of the watermelons in this field has been injected with poison." Well the kids were smart and not about to risk another watermelon. They ran off, made up their own sign and posted it next to the sign that the farmer made. The next day the farmer showed up to look over the field and he noticed to his delight that no watermelons are missing. He was confused, however, by a sign next to his. He drove his tractor up to the sign which read: "Now there are two!"

Japan Aims to Create Moon-Walking Robot by 2020

Friday, April 03, 2009

TOKYO — Japan hopes to have a two-legged robot walk on the moon by around 2020, with a joint mission involving astronauts and robots to follow, according to a plan laid out Friday by a government group.

Specifics of the plan, including what new technologies will be required and the size of the project's budget, are to be decided within the next two years, according to Japan's Strategic Headquarters for Space Development, a Cabinet-level working group.

Development of a lunar robot is part of a broad framework outlined by the group, which is charged with plotting a new course for Japan's space strategy. As a next step, joint exploration of the moon involving robots and astronauts will be considered.

The framework is to be finalized late next month, after the public has a chance to comment on the proposals.

The group also recommended promoting research into military satellites, such as an early warning system for detecting ballistic missile launches and systems to detect and analyze radio waves sent in space.

Other recommendations by the group include using space research as a tool to foster diplomacy with other countries and developing an advanced satellite to predict and monitor natural disasters.

The Strategic Headquarters was established last year by a law passed to advance Japan's space technology and exploration. It allows the country, which has a largely peaceful constitution, to use space for military defense.

Friday's proposal was released as North Korea was completing preparations to launch a multistage rocket over Japan. The communist country says it will send a communications satellite into orbit, but Tokyo suspects the North, which has acknowledged it has nuclear weapons, is actually testing long-range missile technology.

Japan launched its first satellite in 1970 and has long been among the world leaders in space technology. But in recent years, it has been overshadowed by China, which is aggressively pushing its own space program.

In January, Japan used one of its rockets to launch the first satellite to monitor greenhouse gases worldwide, a tool to help monitor global warming.

Botley: Wow, isn't that cool?
Harry: I don't think so.
Botley: Why?
Harry: A moon-walking robot? Ha! You can't walk to the moon!

Robot used to study sage grouse

By RUFFIN PREVOST
Gazette Wyoming Bureau

Wednesday, April 29, 2009 9:25 PM MDT

CODY -- A researcher studying sage grouse in Wyoming has developed an innovative method for gaining a bird's-eye view of their elaborate courtship displays.

The "fembot" is part robot, part decoy and part model railroad car, but the sum of those parts adds up to a system that lets Gail Patricelli capture a close-up view of male sage grouse mating overtures from the female bird's perspective.

"The sage grouse is the North American version of the peacock, because of their bizarre and elaborate traits," said Patricelli, a professor of evolution and ecology at the University of California at Davis.

Davis has been studying sage grouse near Lander and Hudson to learn more about how social skills of male sage grouse are related to success in mating.

Some birds have evolved specialized traits that help them survive, like a hawk's hooked beak and sharp talons. Male sage grouse have evolved complex and bizarre anatomy and behavior to help attract mates, a process called sexual selection.

"They make amazing and very unusual sounds, and the males puff up and strut around while the females comparison-shop for a mate," she said.

"Their courtship is not just about having the flashiest traits. It's also about interacting appropriately. The males need to know how and when to approach the females. I've been interested in the degree to which sexual selection drives the evolution of those traits," Patricelli said.

To study that, she built a small robot that resembles a female sage grouse, with a video camera and microphone hidden inside. Mounted on a model railcar chassis, the remote-controlled fembot is sent out from a blind on tracks to the center of a lek, or mating grounds.

Patricelli can rotate the fembot and move it along the track. She uses it as a kind of "benchmark female" that always behaves the same way, reducing the study of the mating ritual to a focus on what the males do, and why some are so successful.

"If you just watch the guys from a distance, they look a lot alike. But it turns out that one or two guys are doing almost all of the mating, and the females are almost unanimous in who they like," Patricelli said.

As with the human species, male social skills are often critical to attracting the highly selective females.

"Anyone who has observed any courtship in any species, including our own, knows these things go on. There's all sorts of dancing around, and some individual animals are better at it than others," she said.

At some leks, where up to 60 birds are gathered, Patricelli has observed one male mate 43 times, while a handful of other males may mate between one and seven times, and most of the rest fail entirely.

"So, the evolutionary payoff to being that guy who mates 43 times is huge," she said, adding that the Casanova of each lek is usually the male offering the best song-and-dance routine.

"The amount of time they spend on the lek and the rate at which they display are important, so they have to show up and work hard," Patricelli said.

"But part of it is also the quality of the sound that the female likes," she said, adding that the timing and volume of how the males whistle and pop is important, as well as how males position themselves so that they can best be heard.

"The successful males keep it toned down as the female is far away. But as they get closer, he ratchets it up, and also really struts. And as he is really close, he is able to put on fast displays with good quality and good quantity signals," she said.

"The unsuccessful males blast away at a mediocre level all the time, and if they do increase their rate, it typically lowers the quality," she said.

As sage grouse numbers continue to dwindle in many places outside of Wyoming, researchers are seeking to learn more about how the birds reproduce. Patricelli and others are studying whether noise from energy development or other disturbances may interfere with sage grouse mating.

Patricelli said the fembot is a useful research tool because "you can literally get inside the head of a female and learn what she sees or hears."

Botley: That sounds interesting, doesn't it?
Harry: It's stupid. Robots are smart. Grouse are stupid. Now what would really be interesting is if grouse studied robots!

Lego team wins robot design award

Education Lexington Minuteman Education
The Battery-Powered Picklejar Heads

By Maggie A. Pax/Special to the Minuteman

Lexington -

Seven months ago, a team of Lexington teens started building a robot. Last week that robot won second place for “Quality Design” at the FIRST Lego League World Festival robotics competition held in Atlanta, Ga.

“In order to get to the champion level, you have to be seriously dedicated,” said Jenny Ramseyer, 16, a member of the “Battery-Powered Picklejar Heads” team from Lexington. “In September, we started putting in sometimes eight hours a week to make this happen — even more during the preparations for the championship.”

Since its founding 18 years ago, the FIRST robotics competition has brought together teams from all over the world for the championship competition.

After winning in a series of regional competitions, the teams face off in the 70,000-seat Georgia Dome, demonstrating prowess in a number of robot-executed missions.

Competition lasts two days with 84 teams competing from all around the world.

This year teams traveled to Atlanta from as far away as Singapore, Denmark, Brazil and 20 other countries.

“Initially in the fall the team didn’t know what they were up against,” said Kevin Oye, one of the team coaches. “But winning the regional and state competitions actually gave them more of an incentive to try harder. By that time they had also completely redesigned the robot and were executing new missions.

“Competition actually sharpened the team and made them step up the energy level,” he added.

During the process, the team realized that “tweaking their current design was not going to be good enough.,” said Paul Perry, another Picklejar Heads coach. “They had to give up on that approach and try a whole new design. That was hard for them to do, initially.”

But that new modular design proved to be the one that earned them the award in Atlanta.

The FIRST robotics competitions are designed to foster interest in engineering and science among teenagers.

For the Battery- Powered Picklejar Heads, it was hard work, but it was also fun.

“Going to the championship was so satisfying, and building robots with your friends every week was really fun. Once something works, you’re really happy,” said Ramseyer.

Robots Mowing Your Lawn; It’s The LawnBott!

By Justin Cooper
Meteorologist
Published: May 1, 2009

Imagine not having to cut your grass while you save the environment and save money at the same time. Sound too good to be true? Well it isn’t. Let us introduce to you, the LawnBott.

It’s futuristic technology for present day mowing. This week’s go green save green, we’re in Greenville to talk about how a robot can mow your lawn while you sit inside and sip on a cold beverage.

Robots taking over the earth…ok not really, but how about taking over your lawn?
“They’re like laptops with blades,” says John Tarvin, Marketing Manager for the LawnBott. It’s a portable lawn mower that cuts your grass so you don’t have to. See more here.

“There’s zero gas, zero oil it uses a lithium ion battery. It does take about 7 to 10 dollars a year in electricity. It’s very green, we don’t have any emissions,” states Tarvin.

Tarvin tells us the LawnBott has been around for eight years in Europe and is now taking center stage in the Upstate.

“For the LawnBott owner, you’re never going to have the situation you have right here because it’s never going to let the grass get grown up. By coming out a couple of times a week, it always keeps your yard well trimmed,” explains Tarvin.

It’s a totally programmable lawn mower that trims your yard when you tell it to and it even knows when it’s too wet to mow.

“If it starts to rain while its cutting, it drives itself back to the docking station, takes a nap and is ready to come back the next day.”

With over 30 million lawn mowers sold in the U.S. the LawnBott is doing its part to Go Green and Save Green.