Argghhh! The Home Of Two Of Jonah's Military Guys..

 

Old guns, new guns. A little gunner zen.

First up, something new... just because I like the pic.

U.S. Marine 1st Lt. Kathryne B. Schilling coaches a woman as she prepares to shoot a pistol during her training to become a Sister of Ferris, June 4, 2008, Ferris, Iraq. The Sisters of Ferris will inspect women for weapons, suicide vests, large amounts of cash and contraband at entry control points. Schilling is assigned to Combat Logistics Battalion 1, 1st Marine Logistics Group. U.S. Marine Corps photo by Lance Cpl. Cindy G. Alejandrez

Next, something old. John S. an enabler who feeds my habit gun dealer sent me a link to some fascinating pictures taken at Fort Brown, Texas, during the Punitive Expedition/WWI era.

Long time readers of this space will know that the Donovan family isn't very adventurous. I'm a third generation Gunner. Over those three generations, Donovan Redlegs have served, or been involved in the development of, an amazing transformation of the art. My grandfather was there as we were first mastering the art of indirect fire, doing all the basic math as needed for trajectory calculation, etc, where you might spend a day or more doing all the needed math to mass the fires of massed guns on multiple targets. My father bridged the era from the ultimate refinement of manual data computation through to the birth of artillery digital computers. And I span from the end of manual data through the era of the guns as roving independents, capable of massing fires on multiple targets without being massed themselves, and done on the fly.

My grandfather served on guns like these 4.7 inch guns at Fort Brown, Brownsville Texas, in 1916. Where the object of artillery was to get as many guns shooting simultaneously at a target as you could.

A slightly larger version can be had by clicking here. Or get the full size version here.

The Robert Runyon Photograph Collection, image #486, courtesy of The Center for American History, The University of Texas at Austin.

My Dad, served guns like this M109 howitzer - brand new when he was commanding a battalion of them in Germany in 1969 (this particular gun is Israeli)... Still trying to mass as many guns as you could, while building them to keep up with the tanks and mechanized infantry, and able to survive on a very lethal battlefield. This is the era I started in.

Heck, we've put the firepower of a battalion of cannon on the back of a single truck.

Now, at the twilight of my time doing things militant, I've been involved in the development of the tactics and doctrine for guns like the NLOS-C, in an era where we're reducing the number of guns, making them capable of being virtual snipers (even the rockets are point weapons now - and shooting artillery at "point targets" was a way to get your knuckles wrapped when I was a Lieutenant), and the guns rove around independently, and are capable of massing fires on their own - in that they can shoot multiple rounds in succession, all timed to arrive at the same time on the target - and be moving before those rounds hit. That's some serious change in less than 100 years, and the lives of three soldiers.

Argghhh! The Home Of Two Of Jonah's Military Guys..

 

This is an interesting short piece on where artillery has been going in the last 100 years. 

Technorati Tags: NLOS-C,artillery

Networking your way to a new military

Mini-helicopters, flying saucers and robot buggies are all fighting it out for a new war games prize. 'It's a bit like Wacky Races,' says one challenger as defence chiefs seek to bring hi-tech science to the frontline.

"We call it boys' toys for warfare," bellows Chris Burgess

Burgess belongs to one of 11 teams unveiled as finalists in the UK Ministry of Defence's (MoD) most ambitious - and unusual - attempt to bring hi-tech science to the frontline. Called the Grand Challenge, the GBP4m project calls on engineers to design a robot that can scour an urban area for enemy combatants and explosives and report back, preferably without human intervention.

Among the finalists are a swarm of tiny helicopters that can peer into windows, a flying saucer, and what looks like a scaled-down version of a mechanical diggger. By August this year the teams, a hotch-potch of defence companies, universities and sixth form colleges, will go head-to-head over three weeks to decide on a winner. The battle will be played out on the streets of Copehill Down, a mock-up of an East German village built in the English countryside during the cold war.

The competition will test each robot's ability to go into the village and spot different threats, including snipers, groups of gunmen, armed vehicles and improvised explosive devices or IEDs. Teams will be docked points for missing threats, being slow and targeting harmless civilians lurking among the buildings.

"It's a very tough challenge," said Andy Wallace at the MoD. "They have to deploy, move around by themselves and avoid obstacles, while locating and identifying things that pose a threat before reporting back." The challenge is a tacit admission that the large defence companies which provide the British military's frontline technology rarely come up with the most imaginative ideas.

By throwing open the challenge to all comers the British government aims to tap the brainpower of smaller companies and individual researchers. The idea was pioneered by the Pentagon, whose own Grand Challenge was set up to encourage new technology for driverless vehicles.

The winner will receive the RJ Mitchell trophy.

Tags: RJ Mitchell, IED, Robot

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World History and Science

Nova presents the story of intelligent design and the Dover School system.  This points out the dishonesty of the proponents of intelligent design  and the strange view of moral  practice they can support.

World History and Science

Pentagon OKs 'brainwave binoculars' | NEWS.com.au

 

THE Pentagon has approved $US6.7 million ($7m) to develop binoculars that would tap a user's brainwaves to home in on threats.

Northrop Grumman Corporation said today it was leading an academic and industry consortium for the project, known as the Cognitive Technology Threat Warning System program, or CT2WS.

The plan featured a custom helmet equipped with electrodes placed on the scalp to record neural responses to the presence or absence of potential threats, Northrop said.

Pentagon OKs 'brainwave binoculars' | NEWS.com.au

 

Technorati Tags: brainwaves,binoculars,warfighter

Boeing Fires New Thin-Disk Laser, Achieving Solid-State Laser Milestone

Source

ST. LOUIS, June 03, 2008 — The Boeing Company [NYSE: BA] fired its new thin-disk laser system repeatedly in recent tests, achieving the highest known simultaneous power, beam quality and run time for any solid-state laser to date.

In each laser firing at Boeing's facility in West Hills, Calif., the high-energy laser achieved power levels of over 25 kilowatts for multi-second durations, with a measured beam quality suitable for a tactical weapon system. The Boeing laser integrates multiple thin-disk lasers into a single system. Through these successful tests, the Boeing team has proven the concept of scalability to a 100-kilowatt-class system based on the same architecture and technology.

"Solid-state lasers will revolutionize the battlefield by giving the warfighter an ultra-precision engagement capability that can dramatically reduce collateral damage," said Scott Fancher, vice president and general manager of Boeing Missile Defense Systems. "These successful tests show that Boeing has made solid progress toward making this revolutionary capability a reality."

The thin-disk laser is an initiative to demonstrate that solid-state laser technologies are now ready to move out of the laboratory and into full development as weapon systems. Solid-state lasers are powered by electricity, making them highly mobile and supportable on the battlefield. The Boeing laser represents the most electrically efficient solid-state laser technology known. The system is designed to meet the rapid-fire, rapid-retargeting requirements of area-defense, anti-missile and anti-mortar tactical high-energy laser systems. It is also ideal for non-lethal, ultra-precision strike missions urgently needed by warfighters in war zones.

Tags: Laser, Boeing

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