soldier commFor decades, the American military has pursued the related goals of interoperable combat communications, netcentric warfare, and team/joint warfare. These Defense initiatives have been more noted for their challenges than their successes. In fact, problems facing true interoperability seemed so great that I had associated it with the drive for procurement reform, i.e. a good idea, but it ain’t going to happen.

A recent article about the Israel/Gaza war has caused me to revise my skepticism.  The IDF’s first fully digital war describes two incidents, which reveal the reality of interoperable communications.

The article contains a video (in Hebrew), which records the first incident.  Gunfire from an unknown origin has pinned down Israeli infantrymen in a building. A trapped Israeli soldier radios an airplane, and then asks the pilot if he can locate his adversaries.  The pilot calmly reassures the soldier that he sees the enemy, and will “destroy” them, which he does.

In a second incident, Navy radar detected the movements in water off the coast of Israel.  The Navy warned seaside military surveillance operators, one of whom spotted Hamas gunmen coming ashore. Video and relevant intelligence was distributed simultaneously both to ground and air forces, who successfully attacked the enemy.

These stories come from Israeli Command, Control, Communications, Computers and Intelligence (C4I), who boasted that the interconnectivity of their forces in Gaza is “unprecedented.” They describe how multiple sources feed video/intelligence to a central core, which then relays them to the appropriate commanders in the field.  If you have read about the doctrine of netcentric warfare or the drive toward interoperable communications, this should sound very familiar.

Build-Your-Own-Module (BYOM)

Tablet Modules

SINGLE FINGERPRINT SCANNER

DUAL FINGERPRINT SCANNER

DUAL FINGERPRINT SCANNER

SMART CARD READER

MAGNETIC STRIPE READER

2D BARCODE READER

Compatible models: BioSense & BIOPTIX Tablets

Build-Your-Own-Module (BYOM)

Smartphone Modules

DUAL FAP45 FINGERPRINT MODULE

SINGLE FAP45 FINGERPRINT MODULE

Compatible models: BioFlex® Smartphones

The above referenced article was sent to me by someone who wanted to impress me with the technological awesomeness of the Israeli Defense Forces (IDF). I was about to write her back an email, which essentially said, “Yes, the IDF is very advanced, but these capabilities are no big deal. This sort of thing has been going on for years.”

Before I hit the “sent” button, I reconsidered the message of my email.  I compared the Israeli infantryman’s experience with that of a soldier in the American invasion of Grenada during the early 80s. The American soldier placed a long distance, international, commercial phone call (a big deal in those days) to Fort Bragg, North Carolina in order to obtain C-130 gunship support for his unit, which was under fire. The call for support was relayed by satellite to the gunship, which did respond.  The soldier had to use a commercial telephone service in this roundabout manner, because, in spite of planning and promises, there was no interoperable communications between services.

The Israeli soldier had access to critical, direct inter-service communications that the earlier American soldier did not. The fact that I was not impressed by the Israeli stories is actually a sign of how far we have come.

I contacted Robert Culver, AMREL’s Director of Business Development – DoD Programs for his expert opinion on the current state of interoperability. Had the future arrived, and I hadn’t noticed?

Robert confirmed my impression; the Israeli stories are mundane.  However, he warned that we haven’t reached interoperable utopia yet.  “The problem is not technological,” he said.

Consider the first story of the trapped Israeli infantryman. A “call for fire” is different for an air strike than it is for artillery or other ground support.  For one thing, the impact of an aerial strike would be greater. Has the infantryman been trained to know when an aerial strike is appropriate?  Has he mastered the jargon and rules of the Air Force?

 It is not practical for everyone in a military offensive to have open communications with everyone else; they would drown in a sea of confusing chatter.  Probably, the Israeli pilot was talking to a forward observer, who has been trained for this scenario, but how much training?  “You can practice with bullets every day. Planes, not so much,” said Robert.

What about the pilot?  Can he see what the infantryman did?  In this story, he was able to locate the building in which the Israelis were pinned down, but it may not be so easy in every instance.

Part of the controversy surrounding the plans to eliminate the beloved A-10 (Warthog) has to do with how the Air Force sees itself. A-10s fly low to the ground (Robert:”We can see them eyeball to eyeball”).  But the Air Force doesn’t think of itself as a close ground support service.  They want to rely on the high-flying B-2, and use to technology to compensate for the distance of the pilot from the ground.  Would the trapped Israeli scenario described above be possible if the pilot was flying a B-2?  Would the infantryman know enough to make the proper request to the most appropriate airplane?

Let’s say the infantryman, or more likely a forward observer, was adequately trained for interoperable communications. Could he do anything else useful?  This is not a facetious question. Modern American soldiers are among the most educated in history. In order to coordinate with other services, they will have to learn even more. Cognitive overload is a definite danger.

Even if we are able to adequately train all the services to work well and play nice together, will it do any good? As noted above, American military personnel had been trained in interoperability for the Grenada invasion. Interoperability failed almost immediately. A number of reasons have been cited, but one of the more interesting is the lack of “exercise realism.” Joint service exercises are thoroughly prepared and optimized for results. Of course, “no battle plan ever survives contact with the enemy,” but multiple service cooperation adds a layer of complexity that is easily disrupted.

There are other difficulties, which will be familiar to anyone who has read about interoperable battlefield communications. The need for an open network conflicts with security requirements. Bandwidth management is already a problem, but will get worse with an increase in radio communications.

Interoperable communications have vastly improved. Tales of pilots talking directly to ground-pounders inspire a ho-hum reaction. But we have a long way to go before we fulfill the true promise of interoperability.

 For his insights, many thanks to Rob Culver.

 He can be reached at (603) 325 3376 or robertc@amrel.com.

 

 

 

Test alt text

MTGR (2)Ever since militaries took to the air, ground pounders have felt their airborne counterparts enjoyed too much glamour as well as too much credit for victories. Strangely, this tension extends to unmanned systems as well. Even an average person has heard of Predator UAVs, who are often featured in news articles, TV shows, and movies.  On the other hand, the humble PackBot and MARCbot UGVs labor in relative obscurity.

Nowhere is this disparity more evident than the current Gaza conflict. Nightly news anchors pour out superlatives on the remarkable Iron Dome air defense system, but mainstream media ignore the important UGVs.

Since it is operated by humans, the Iron Dome is not usually thought of as an unmanned system (technically this can also be said of Predators and most UAVs as well).  However, the Iron Dome’s most remarkable feature is its artificial intelligence, i.e. ability to track incoming rocket/artillery shell, determine whether its trajectory menaces a populated target, and then deploy an interceptor that neutralizes the threat. This is all done automatically in seconds.

Those of us who remember the Patriot anti-missile system controversies of the first Gulf War greet the unbridled enthusiasm surrounding the Iron Dome with more than a little skepticism.  After all, during that war, the successes of the Patriot were also heralded loudly.  It wasn’t until after the battles ceased that a more sober analysis questioned its effectiveness. Indeed, that debate has never been fully resolved.

Build-Your-Own-Module (BYOM)

Tablet Modules

SINGLE FINGERPRINT SCANNER

DUAL FINGERPRINT SCANNER

DUAL FINGERPRINT SCANNER

SMART CARD READER

MAGNETIC STRIPE READER

2D BARCODE READER

Compatible models: BioSense & BIOPTIX Tablets

Build-Your-Own-Module (BYOM)

Smartphone Modules

DUAL FAP45 FINGERPRINT MODULE

SINGLE FAP45 FINGERPRINT MODULE

Compatible models: BioFlex® Smartphones

A few Iron Dome contrarians have also emerged. MIT’s Theodore A. Postol writing in the Bulletin of Atomic Scientists argues the Iron Dome’s success rate may be as low as 5%. The relatively low casualty rate of Israelis, who have been subjected to over 3,000 rocket attacks, may be due to their excellent civil defense, and the poor quality of the Palestinian weapons. Some regard the notoriously ineffective Qassams rockets deployed by Hamas as primarily psychological weapons.

Whatever the truth is, what can’t be questioned is that the Iron Dome has provided a great deal of emotional comfort to the Israelis.  I have been in contact with friends in Israel, who have repeatedly told me “We trust in the Iron Dome.”  It could be that Israel has countered a weapon that is primarily psychological with a defensive system that is also primarily psychological.

MTGR tunnelQassam rockets may provide good visuals, but the biggest threat to Israel in this war is literally unseen, i.e. the tunnels.  The number, size, and sophistication of Hamas’s tunnels surprised the Israelis, who quickly made their elimination the number one priority of the war.

Exploring enemy’s tunnels is one of the most terrifying missions a foot soldier can undertake. Slowly advancing through a cramped dark environment, a solider must be constantly on guard against hidden booby traps and unseen ambushers.

To assist in this dirty and dangerous task, the Israeli Defense Forces (IDF) have turned to Micro Tactical Ground Robots (MTGR), manufactured by the Israeli firm, Roboteam. MTGR belongs to a smaller class of UGVs, sometimes called “Man-Transportable,” “Throwable-bots,” “Pocketbots,” “Small Unmanned Ground Vehicles (SUGV),” or “Micro-UGVs.”

Militaries around the world have been attracted by the ability of these small UGVs to navigate in compact spaces, and their easy transportability. Prominent American-made small UGVs include ARA Pointman Tactical Robot, and Foster-Miller’s Dragon Runner Reconnaissance Robot.  iRobot fields several compact UGVs, including the 310 SUGV (small version of the PackBot), and  the 110 FirstLook.  This blog explored the advantages and popularity of reduced-size robots in The Incredibly Shrinking UGV.

The Israeli MTGR weighs less than 20 pounds and is only in 17.9” in length. Its Line of Sight (LOS) operating range is 1600 feet.  Five onboard day/night cameras, a microphone and visible/near IR laser pointers work on 3600 of Intelligence, Surveillance, and Reconnaissance (ISR). Real-time video, voice, and data stream over encrypted radio transmissions.

As written above, the Israelis have not been forthcoming about their use of the MTGR, which suggest to me that they regard it’s capabilities as an asset to be guarded.  So, while video of the Iron Dome fill the nightly news, the MTGR crawls, unseen through the darkness. Sometimes, what you can’t see, can save your life.

AMREL is a leading provider of Operator Control Units for SUGVs.

To learn more, please contact Rob Culver at (603) 325-3376 or robertc@amrel.com

 

The bipartisan Center for Strategic and International Studies (CSIS) has been rated the “…number one think tank for security and international affairs” (Wikipedia).  Power brokers and key influencers staff the CSIS, and when they talk, people listen.Building the 2021 Affordable Military

What they have to say about how we spend money on Defense will undoubtedly be heard by important decision makers. The 120-page “Building the 2021 Affordable Military” was created by a CSIS study team over the course of two years. It is “…a methodological approach for how DoD could minimize the impact of a deep budgetary reduction and provide the military capabilities needed for the strategic realities of 2020+.”

They even developed cost calculators for making trade-off decisions. They don’t simply advocate a specific strategy; they tell you the cost of various “alternative militaries.”

The great thing about this study is its unqualified embrace of details. What to find out how many tankers the Air Force Reserve has now? Will need? With or without sequester? With or without the Pacific tilt? This report has an answer for you. Same goes for battalions, submarines, and pretty much anything else you can think of.

One little tidbit I found on page 3 was “In the past, drawdowns ended below $400 billion in constant 2013 dollars; this one will bottom out at over $500 billion. In FY 2017, even though DoD is spending over $100 billion more, it will ‘buy’ an active duty force that is 34 percent smaller than in 1978 and six percent smaller than in 2000. This means not just fewer defense dollars but also a “weaker” defense dollar in terms of its purchasing power.”

So, the people who are complaining that Defense spending is at a historic high (during a drawdown) and those that are warning about  “hollowed-out” military capabilities are both right.

“Building the 2021 Affordable Military” is an ideal reference work for those doing serious market research on Defense issues.  Download it here.

 

Unmanned Ground Vehicles (UGV) don’t get much love. Their aerial cousins, usually described by the technically inaccurate term “drone,” receive much more publicity, as well as greater funding. UGV developers fear that the Defense budget squeeze will disproportionately affect them.

However, one federal agency still believes in promoting UGV development. Defense Advanced Research Projects Agency (DARPA) is sponsoring the DARPA Robotics Challenge, “… a competition of robot systems and software teams vying to develop robots capable of assisting humans in responding to natural and man-made disasters.” In addition to a $2 million prize for the top contestant, this challenge represents a wonderful opportunity to explore capabilities and for developers to network.

Read more

Chinese UAV An opinion piece.

ForeignPolicy.com has a very good article on unmanned systems (there is a registration wall, but it’s free). Written by Michael C. Horowitz, Associate Professor at the University of Pennsylvania, The Looming Robotics Gap is full of interesting facts and figures.  The only problem with the article is that its central premise – the United States military is in immediate danger of losing its technological edge – is a load of hooey.

Read more

Explorer FixEmail in the draft folder of every IT person in the country

 “Dear IRS/HP/DOJ/GM/etc employee,

 As of April 23, 2014, it is this institution’s policy that employees are prohibited from using Internet Explorer (IE) while at work. You can still use IE at home for personal browsing, although we would have to reevaluate your basic intelligence if we discover you are doing so.

Read more

Night VisionNight Vision Imaging System(NVIS) enables US military forces to enhance situational awareness, increase mission flexibility, and maintain battlefield dominance.  Also, night-vision goggles (NVG) are cool.  If you don’t believe me, buy one, show it to your friends, and see how quickly they try to grab it out of your hands.

No matter how cool NVG are, military personnel need to be able to use them with other equipment.  For example, depending on the intended application, computers must comply with aviation and Army night-vision specifications (the standards governing cockpit equipment and the units used by ground pounders are different).

Night-vision compatible computers must be simultaneously visible and not visible. The display should have a setting that enables visibility through NVG, but also have another setting that allows normal light use.  Visible light must be dimmed during night-vision mode, not only so the signal-to-noise ratio is reduced, but also so the enemy cannot see the computer.  To avoid detection by enemy NVG, a computer must filter its infrared and UV emissions as well as its visible light.

In order to meet military standards for night vision compatibility, there are two methods of decreasing the light emitted from a computer platform. The first method is to have a built-in switch that dims the keyboard and display.  In the photograph below, the switch is conveniently located in the front.

Night vision 2 Dimming switch

The second method of achieving night vision compatibility is to apply a special filter to the display.  Filters can be attached with snap-on clips or fastened with adhesive. The adhesive is not necessarily permanent; filters can be made so that they can be repeatedly removed and applied. Typically, all night vision compatible filters are green.

Night vision 3 filters

Of course, both the built-in and add-on filter methods can be simultaneously used. Each method of dimming emissions has their advantages and disadvantages (see chart below).

 Night Vision Filters vs. Built-in Dimming Switch

Night vision 4 Comparison

AMREL offers night vision compatible platforms that have been proven in the field by the German military. Whatever you require, AMREL has a great deal of experience in modifying computer platforms to meet military standards.

 

DoD Budget Image“I think that if we tried harder, we couldn’t have made this budget more complicated….Abbott and Costello couldn’t have done it better.”  Christine Fox, Acting Deputy Defense Secretary (Defense News)

Even judging by the Department of Defense’s (DoD) long legacy of confusing budgets, the most recent version is setting new standards for head scratching.

Read more